Policies_Plans
sequence | lang
dict | Target
sequence | Alpha3
stringlengths 3
3
| Country
stringlengths 4
41
| Mitigation
sequence | IkiInfo
sequence | Source
sequence | Adaptation
sequence | sentence
stringlengths 53
695
| context
stringlengths 53
3.41k
| Action
sequence | Document
sequence | ResponseText
sequence | CWInfo
list |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
[
0,
2
] | {
"label": "en-US",
"score": 0.9999312162
} | [
0,
2
] | SWZ | Eswatini | [
0,
2
] | [
[
null,
null
]
] | [
"CW"
] | [
2,
0
] | Reduce poverty and improve food and nutrition security through sustainable use of natural resources, improved access to markets and improved disaster and risk management systems. This can be achieved through:. Restoring and managing degraded land for adaptation benefits and mitigation co-benefits. Developing an integrated early warning and timely response climate | Reduce poverty and improve food and nutrition security through sustainable use of natural resources, improved access to markets and improved disaster and risk management systems. This can be achieved through:. Restoring and managing degraded land for adaptation benefits and mitigation co-benefits. Developing an integrated early warning and timely response climate information management system to help farmers and value chain actors take informed decision and improve their adaptive capacity. | [
2,
0
] | [
"Revised First NDC"
] | [
"Agriculture: “Restoring and managing degraded land for adaptation benefits and mitigation co-benefits” (p. 3)"
] | [
[
{
"Alpha2": "SZ",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Agriculture",
"SubSector": "Land and soil management"
},
{
"Alpha2": "SZ",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "LULUCF/Forestry",
"SubSector": "Land degradation"
}
]
] |
[
0,
1
] | {
"label": "en-US",
"score": 0.9999370575
} | [
0,
1
] | LBR | Liberia | [
0,
1
] | [
[
null
]
] | [
"CW"
] | [
1,
0
] | Reduce risk of waste bags sitting at the curbside for too long and being carried away into streets or waterways by heavy rainfall, heavy wind or landslides or snow by implementing frequent collection at scheduled times (based on extreme weather forecasts). Avoid insects, pests (as well as risk of waste | Reduce risk of waste bags sitting at the curbside for too long and being carried away into streets or waterways by heavy rainfall, heavy wind or landslides or snow by implementing frequent collection at scheduled times (based on extreme weather forecasts). Avoid insects, pests (as well as risk of waste bags being carried away by extreme events) by a proper scheduling collection (Link to Health sector). | [
1,
0
] | [
"Revised First NDC"
] | [
"2) Avoid insects, pests (as well as risk of waste bags being carried away by extreme events) by a proper scheduling collection (Link to Health sector)"
] | [
[
{
"Alpha2": "LR",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Urban",
"SubSector": "Waste management"
}
]
] |
[
0,
2
] | {
"label": "en-US",
"score": 0.9999324083
} | [
0,
2
] | KHM | Cambodia | [
0,
2
] | [
[
null,
null
]
] | [
"CW"
] | [
2,
0
] | Reduce sectoral, regional, gender vulnerability and health risks to climate change impacts. Ensure climate resilience of critical ecosystems (Tonle Sap Lake, Mekong River, coastal ecosystems, highlands, etc.), biodiversity, protected areas and cultural heritage sites. Promote low-carbon planning and technologies to support sustainable development. Improve capacities, knowledge and awareness for climate | Reduce sectoral, regional, gender vulnerability and health risks to climate change impacts. Ensure climate resilience of critical ecosystems (Tonle Sap Lake, Mekong River, coastal ecosystems, highlands, etc.), biodiversity, protected areas and cultural heritage sites. Promote low-carbon planning and technologies to support sustainable development. Improve capacities, knowledge and awareness for climate change responses. Promote adaptive social protection and participatory approaches in reducing loss and damage due to climate change. Strengthen institutions and coordination frameworks for national climate change responses. | [
0,
2
] | [
"First NDC"
] | [
"Reducing long-term vulnerability and exposure"
] | [
[
{
"Alpha2": "KH",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "GCA_Subsector_2",
"QuestionDefinition": "GCA_Subsector_2",
"QuestionText": "Adapt Now subsector (2)",
"Sector": "Disaster Risk Management (DRM)",
"SubSector": "Early warning system"
},
{
"Alpha2": "KH",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "GCA_Subsector_2",
"QuestionDefinition": "GCA_Subsector_2",
"QuestionText": "Adapt Now subsector (2)",
"Sector": "Cross-Cutting Area",
"SubSector": "Climate services"
}
]
] |
[
0,
16
] | {
"label": "en-US",
"score": 0.9999337196
} | [
0,
16
] | PSE | Palestine | [
0,
16
] | [
[
null,
null,
null,
null,
null,
null,
null
],
[
null,
null,
null,
null,
null,
null,
null,
null
],
[
null
]
] | [
"CW"
] | [
16,
0
] | Reduce the amount of waste for final disposal in landfill sites by 30% by 2030 and by 50% by 2040. Increase the amount of waste re-used or recycled by 30% by 2030 and by 40% by 2040. Increase the amount of waste collected to 90% by 2030 and to 100% | Reduce the amount of waste for final disposal in landfill sites by 30% by 2030 and by 50% by 2040. Increase the amount of waste re-used or recycled by 30% by 2030 and by 40% by 2040. Increase the amount of waste collected to 90% by 2030 and to 100% by 2040. Modernise (replacement of working equipment) 70% of the collection system by 2030 and by 100% by 2040. | [
1,
15
] | [
"Revised First NDC"
] | [
"By 2030",
"By 2040",
"Waste: “Increase the amount of waste re-used or recycled by 30% by 2030 and by 40% by 2040.” (p. 15)"
] | [
[
{
"Alpha2": "PS",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_time",
"QuestionDefinition": "Time frame",
"QuestionText": "Time frame",
"Sector": "Energy",
"SubSector": "Renewable Energy: Solar"
},
{
"Alpha2": "PS",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_time",
"QuestionDefinition": "Time frame",
"QuestionText": "Time frame",
"Sector": "Health",
"SubSector": "Awareness raising and behavior change"
},
{
"Alpha2": "PS",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_time",
"QuestionDefinition": "Time frame",
"QuestionText": "Time frame",
"Sector": "Social Development",
"SubSector": "Gender"
},
{
"Alpha2": "PS",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_time",
"QuestionDefinition": "Time frame",
"QuestionText": "Time frame",
"Sector": "Health",
"SubSector": "Health services and assessment"
},
{
"Alpha2": "PS",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_time",
"QuestionDefinition": "Time frame",
"QuestionText": "Time frame",
"Sector": "Urban",
"SubSector": "Waste management"
},
{
"Alpha2": "PS",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_time",
"QuestionDefinition": "Time frame",
"QuestionText": "Time frame",
"Sector": "Water",
"SubSector": "Wastewater treatment"
},
{
"Alpha2": "PS",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_time",
"QuestionDefinition": "Time frame",
"QuestionText": "Time frame",
"Sector": "Water",
"SubSector": "Water supply"
}
],
[
{
"Alpha2": "PS",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_time",
"QuestionDefinition": "Time frame",
"QuestionText": "Time frame",
"Sector": "Agriculture",
"SubSector": "Climate smart agriculture"
},
{
"Alpha2": "PS",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_time",
"QuestionDefinition": "Time frame",
"QuestionText": "Time frame",
"Sector": "Social Development",
"SubSector": "Gender"
},
{
"Alpha2": "PS",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_time",
"QuestionDefinition": "Time frame",
"QuestionText": "Time frame",
"Sector": "Agriculture",
"SubSector": "Land and soil management"
},
{
"Alpha2": "PS",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_time",
"QuestionDefinition": "Time frame",
"QuestionText": "Time frame",
"Sector": "Energy",
"SubSector": "Renewable Energy: Solar"
},
{
"Alpha2": "PS",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_time",
"QuestionDefinition": "Time frame",
"QuestionText": "Time frame",
"Sector": "Transport",
"SubSector": "Sustainable transport planning"
},
{
"Alpha2": "PS",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_time",
"QuestionDefinition": "Time frame",
"QuestionText": "Time frame",
"Sector": "Transport",
"SubSector": "Transport: General"
},
{
"Alpha2": "PS",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_time",
"QuestionDefinition": "Time frame",
"QuestionText": "Time frame",
"Sector": "Urban",
"SubSector": "Waste management"
},
{
"Alpha2": "PS",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_time",
"QuestionDefinition": "Time frame",
"QuestionText": "Time frame",
"Sector": "Energy",
"SubSector": "Renewable Energy: Waste"
}
],
[
{
"Alpha2": "PS",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Urban",
"SubSector": "Waste management"
}
]
] |
[
0,
4
] | {
"label": "en-US",
"score": 0.9999349117
} | [
4,
0
] | PSE | Palestine | [
4,
0
] | [
[
null,
null
],
[
null,
null
]
] | [
"CW"
] | [
0,
4
] | Reduce the amount of waste for final disposal in landfill sites by 30% by 2030 and by 50% by 2040. Increase the amount of waste reused or recycled by 30% by 2030 and by 40% by 2040. Increase the amount of waste collected to 90% by 2030 and to 100% | Reduce the amount of waste for final disposal in landfill sites by 30% by 2030 and by 50% by 2040. Increase the amount of waste reused or recycled by 30% by 2030 and by 40% by 2040. Increase the amount of waste collected to 90% by 2030 and to 100% by 2040. Modernise (replacement of working equipment) 70% of the collection system by 2030 and by 100% by 2040. | [
0,
4
] | [
"Revised First NDC"
] | [
"\"Increase the amount of waste collected to 90% by 2030 and to 100% by 2040.\"",
"\"Increase the amount of waste reused or recycled by 30% by 2030 and by 40% by 2040\""
] | [
[
{
"Alpha2": "PS",
"OverviewCategory": "Sectoral Mitigation Targets",
"QuestionCode": "M_SecTar1",
"QuestionDefinition": "Targets at the sectoral level",
"QuestionText": "Sectoral targets on",
"Sector": "Waste",
"SubSector": "Waste: General"
},
{
"Alpha2": "PS",
"OverviewCategory": "Sectoral Mitigation Targets",
"QuestionCode": "M_SecTar10",
"QuestionDefinition": "Conditional part of the mitigation target for a given sectoral target ",
"QuestionText": "Conditional part of mitigation target",
"Sector": "Waste",
"SubSector": "Waste: General"
}
],
[
{
"Alpha2": "PS",
"OverviewCategory": "Sectoral Mitigation Targets",
"QuestionCode": "M_SecTar1",
"QuestionDefinition": "Targets at the sectoral level",
"QuestionText": "Sectoral targets on",
"Sector": "Waste",
"SubSector": "Recycling, Reuse, Reduce"
},
{
"Alpha2": "PS",
"OverviewCategory": "Sectoral Mitigation Targets",
"QuestionCode": "M_SecTar10",
"QuestionDefinition": "Conditional part of the mitigation target for a given sectoral target ",
"QuestionText": "Conditional part of mitigation target",
"Sector": "Waste",
"SubSector": "Recycling, Reuse, Reduce"
}
]
] |
[
0,
8
] | {
"label": "en-US",
"score": 0.9999389648
} | [
0,
8
] | STP | Sao Tome and Principe | [
0,
8
] | [
[
null,
null,
null,
null
],
[
null
],
[
null
],
[
null
],
[
null
]
] | [
"CW"
] | [
8,
0
] | Reduce the illegal and indiscriminate felling of trees by 15%, by 2030;. II. Develop scientific and technical research on adaptation of new productive crop varieties with a broad spectrum of tolerance to adverse climate impacts by 2030;. III. Promote forestry / planting of species resistant to dry and low rainfall | Reduce the illegal and indiscriminate felling of trees by 15%, by 2030;. II. Develop scientific and technical research on adaptation of new productive crop varieties with a broad spectrum of tolerance to adverse climate impacts by 2030;. III. Promote forestry / planting of species resistant to dry and low rainfall by 2030;. IV. | [
4,
4
] | [
"First NDC",
"INDC"
] | [
"By 2030",
"“Develop scientific and technical research on adaptation of new productive crop varieties with a broad spectrum of tolerance to adverse climate impacts by 2030",
"“Promote forestry / planting of species resistant to dry and low rainfall by 2030",
"Develop scientific and technical research on adaptation of new productive crop varieties with a broad spectrum of tolerance to adverse climate impacts by 2030",
"Promote forestry / planting of species resistant to dry and low rainfall by 2030"
] | [
[
{
"Alpha2": "ST",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_time",
"QuestionDefinition": "Time frame",
"QuestionText": "Time frame",
"Sector": "Agriculture",
"SubSector": "Climate smart agriculture"
},
{
"Alpha2": "ST",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_time",
"QuestionDefinition": "Time frame",
"QuestionText": "Time frame",
"Sector": "Agriculture",
"SubSector": "Livestock"
},
{
"Alpha2": "ST",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_time",
"QuestionDefinition": "Time frame",
"QuestionText": "Time frame",
"Sector": "LULUCF/Forestry",
"SubSector": "Sustainable forest management"
},
{
"Alpha2": "ST",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_time",
"QuestionDefinition": "Time frame",
"QuestionText": "Time frame",
"Sector": "LULUCF/Forestry",
"SubSector": "Sustainable land management"
}
],
[
{
"Alpha2": "ST",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Agriculture",
"SubSector": "Climate smart agriculture"
}
],
[
{
"Alpha2": "ST",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "LULUCF/Forestry",
"SubSector": "Sustainable land management"
}
],
[
{
"Alpha2": "ST",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "A_Sc_ConAct",
"QuestionDefinition": "Condition actions of the sectoral level",
"QuestionText": "Sectoral Conditional Actions",
"Sector": "Agriculture",
"SubSector": "Crops"
}
],
[
{
"Alpha2": "ST",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "A_Sc_ConAct",
"QuestionDefinition": "Condition actions of the sectoral level",
"QuestionText": "Sectoral Conditional Actions",
"Sector": "LULUCF/Forestry",
"SubSector": "Sustainable forest management"
}
]
] |
[
0,
2
] | {
"label": "en-US",
"score": 0.9999388456
} | [
0,
2
] | MDA | Moldova | [
0,
2
] | [
[
null,
null
]
] | [
"CW"
] | [
2,
0
] | Reduce the incidence of energy poverty, mainly through the implementation of measures that contribute to reducing energy costs and making energy consumption more efficient;. -. Promote the development of "green" energy. Stimulate the interest for "green" energy production and consumption by capitalizing on renewable energy sources (wind turbines and hydraulic | Reduce the incidence of energy poverty, mainly through the implementation of measures that contribute to reducing energy costs and making energy consumption more efficient;. -. Promote the development of "green" energy. Stimulate the interest for "green" energy production and consumption by capitalizing on renewable energy sources (wind turbines and hydraulic installations, photovoltaic solar systems, solar panels for heating and hot water production), including the use of efficient and clean biomass production technologies, as well as facilitating the connection of production facilities to existing distribution capacities;. -. | [
2,
0
] | [
"Revised First NDC"
] | [
"Measure: \"Promote the development of \"green\" energy. Stimulate the interest for \"green\" energy production and consumption by capitalizing on renewable energy sources (wind turbines and hydraulic installations, photovoltaic solar systems, solar panels for heating and hot water production), including the use of efficient and clean biomass production technologies, as well as facilitating the connection of production facilities to existing distribution capacities"
] | [
[
{
"Alpha2": "MD",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Energy",
"SubSector": "Renewable energy"
},
{
"Alpha2": "MD",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Energy",
"SubSector": "Biomass energy"
}
]
] |
[
0,
4
] | {
"label": "en-US",
"score": 0.9999381304
} | [
0,
4
] | MNG | Mongolia | [
4,
0
] | [
[
null
],
[
null
],
[
null
],
[
null
]
] | [
"CW"
] | [
0,
4
] | Reduce the internal use of combined heat and power plants (CHPP). Improve the efficiency of power plants. Improve the heat supply in cities and towns (improving the efficiency of heat only boilers). 8,340.5. 1.2 Energy sector (consumption). Transportation:. Switch to Euro-5 standard fuel. Switch the coal export transportation to rail | Reduce the internal use of combined heat and power plants (CHPP). Improve the efficiency of power plants. Improve the heat supply in cities and towns (improving the efficiency of heat only boilers). 8,340.5. 1.2 Energy sector (consumption). Transportation:. Switch to Euro-5 standard fuel. Switch the coal export transportation to rail transport from auto transportation. Switch the heating of passenger train to electric heating. 1,048.8. Construction:. | [
4,
0
] | [
"Revised First NDC"
] | [
"\"Improve the heat supply in cities and towns (improving the efficiency of heat only boilers)\"",
"\"Switch to Euro-5 standard fuel",
"Switch the coal export transportation to rail transport from auto transportation",
"Switch the heating of passenger train to electric heating\""
] | [
[
{
"Alpha2": "MN",
"OverviewCategory": "Sectoral Mitigation Actions",
"QuestionCode": "M_SecAct2",
"QuestionDefinition": "Sectoral downstream actions to be undertaken as part of the NDC contribution",
"QuestionText": "Downstream actions",
"Sector": "Energy",
"SubSector": "Clean Cooking and Heating"
}
],
[
{
"Alpha2": "MN",
"OverviewCategory": "Sectoral Mitigation Actions",
"QuestionCode": "M_SecAct2",
"QuestionDefinition": "Sectoral downstream actions to be undertaken as part of the NDC contribution",
"QuestionText": "Downstream actions",
"Sector": "Transport",
"SubSector": "Transportation Fuels"
}
],
[
{
"Alpha2": "MN",
"OverviewCategory": "Sectoral Mitigation Actions",
"QuestionCode": "M_SecAct2",
"QuestionDefinition": "Sectoral downstream actions to be undertaken as part of the NDC contribution",
"QuestionText": "Downstream actions",
"Sector": "Transport",
"SubSector": "Transportation Fuels"
}
],
[
{
"Alpha2": "MN",
"OverviewCategory": "Sectoral Mitigation Actions",
"QuestionCode": "M_SecAct2",
"QuestionDefinition": "Sectoral downstream actions to be undertaken as part of the NDC contribution",
"QuestionText": "Downstream actions",
"Sector": "Transport",
"SubSector": "Transportation Fuels"
}
]
] |
[
0,
7
] | {
"label": "en-US",
"score": 0.9999364614
} | [
0,
7
] | PER | Peru | [
0,
7
] | [
[
null
],
[
null
],
[
null,
null
],
[
null
],
[
null
],
[
null
]
] | [
"CW"
] | [
7,
0
] | Reduce the negative impact ofclimate change on the agrarian activity (agriculture, livestock and forestry). Reduce the vulnerability of the fishery andaquaculture sector to Climate Change. Promote comprehensive land management with a landscape approach, oriented to increase forests resilience to CC, and reduce the vulnerability of local populations. Reduce vulnerability and | Reduce the negative impact ofclimate change on the agrarian activity (agriculture, livestock and forestry). Reduce the vulnerability of the fishery andaquaculture sector to Climate Change. Promote comprehensive land management with a landscape approach, oriented to increase forests resilience to CC, and reduce the vulnerability of local populations. Reduce vulnerability and increase the population resilience to the health effects of climate change. Crosscutting areas/Goals. 1. Disaster Risk Management[15]. | [
7,
0
] | [
"First NDC",
"INDC"
] | [
"Fisheries: \"Reduce the vulnerability of the fishery and aquaculture sector to Climate Change\" (10)",
"Forestry : \"Promote comprehensive landmanagement with a landscape approach, oriented to increase forests resilience to CC, and reduce the vulnerability of local populations\" (10).",
"Health: \"Reduce vulnerability and increase the population resilience to the health effects of climate change\" (10).",
"Promote comprehensive land management with a landscape approach, oriented to increase forests' resilience to climate change, and reduce the vulnerability of local populations",
"Reduce the vulnerability of the fishery and aquaculture sector to Climate Change.",
"Reduce vulnerability and increase the population resilience to the health effects of climate change"
] | [
[
{
"Alpha2": "PE",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Agriculture",
"SubSector": "Fisheries and aquaculture"
}
],
[
{
"Alpha2": "PE",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "LULUCF/Forestry",
"SubSector": "Sustainable land management"
}
],
[
{
"Alpha2": "PE",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Health",
"SubSector": "Health: General"
},
{
"Alpha2": "PE",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Disaster Risk Management (DRM)",
"SubSector": "Disaster preparedness"
}
],
[
{
"Alpha2": "PE",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "A_Sc_UncAct",
"QuestionDefinition": "Unconditional sectoral actions",
"QuestionText": "Sectoral Unconditional Actions",
"Sector": "LULUCF/Forestry",
"SubSector": "Sustainable land management"
}
],
[
{
"Alpha2": "PE",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "A_Sc_UncAct",
"QuestionDefinition": "Unconditional sectoral actions",
"QuestionText": "Sectoral Unconditional Actions",
"Sector": "Agriculture",
"SubSector": "Fisheries and aquaculture"
}
],
[
{
"Alpha2": "PE",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "A_Sc_UncAct",
"QuestionDefinition": "Unconditional sectoral actions",
"QuestionText": "Sectoral Unconditional Actions",
"Sector": "Health",
"SubSector": "Health: General"
}
]
] |
[
0,
6
] | {
"label": "en-US",
"score": 0.9999277592
} | [
0,
6
] | MEX | Mexico | [
0,
6
] | [
[
null,
null
],
[
null
],
[
null
],
[
null
],
[
null
]
] | [
"CW"
] | [
6,
0
] | Reduce the population´s vulnerability and increase its adaptive capacity through early warning systems, risk management, as well as hydrometeorological monitoring, at every level of government. Strengthen the adaptive capacity of the population through transparent and inclusive mechanisms of social participation, designed with a gender and human rights approach. | Reduce the population´s vulnerability and increase its adaptive capacity through early warning systems, risk management, as well as hydrometeorological monitoring, at every level of government. Strengthen the adaptive capacity of the population through transparent and inclusive mechanisms of social participation, designed with a gender and human rights approach. | [
6,
0
] | [
"First NDC",
"INDC"
] | [
"Adaptation to climate change for the social sector: \"Reduce the population´s vulnerability and increase its adaptive capacity through early warning systems, risk management, as well as hydrometeorological monitoring, at every level of government.” (p. 7)",
"Adaptation to climate change for the social sector: \"Strengthen the adaptive capacity of the population through transparent and inclusive mechanisms of social participation, designed with a gender and human rights approach.” (p. 7)",
"Reduce the population Ìs vulnerability and increase its adaptive capacity through early warning systems, risk management at every level of government.",
"Reduce the population Ìs vulnerability and increase its adaptive capacity through hydrometeorological monitoring at every level of government.",
"Strengthen the adaptive capacity of the population through transparent and inclusive mechanisms of social participation, designed with a gender and human rights approach."
] | [
[
{
"Alpha2": "MX",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Disaster Risk Management (DRM)",
"SubSector": "Disaster Risk Management (DRM): General"
},
{
"Alpha2": "MX",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Disaster Risk Management (DRM)",
"SubSector": "Early warning system"
}
],
[
{
"Alpha2": "MX",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Social Development",
"SubSector": "Gender"
}
],
[
{
"Alpha2": "MX",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "A_Sc_UncAct",
"QuestionDefinition": "Unconditional sectoral actions",
"QuestionText": "Sectoral Unconditional Actions",
"Sector": "Cross-Cutting Area",
"SubSector": "Climate risk management"
}
],
[
{
"Alpha2": "MX",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "A_Sc_UncAct",
"QuestionDefinition": "Unconditional sectoral actions",
"QuestionText": "Sectoral Unconditional Actions",
"Sector": "Cross-Cutting Area",
"SubSector": "Climate services"
}
],
[
{
"Alpha2": "MX",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "A_Sc_UncAct",
"QuestionDefinition": "Unconditional sectoral actions",
"QuestionText": "Sectoral Unconditional Actions",
"Sector": "Social Development",
"SubSector": "Gender"
}
]
] |
[
0,
2
] | {
"label": "en-US",
"score": 0.999937892
} | [
0,
2
] | SSD | South Sudan | [
0,
2
] | [
[
null,
null
]
] | [
"CW"
] | [
2,
0
] | Reduce the rate of deforestation by promoting alternative sources of energy. The government will develop suitable regulations and measures for reducing the deforestation rate by increasing access to electricity, introducing alternative sources of energy and strengthening land-use management policies and planning. Assess available energy sources. Yet to be implemented. Short | Reduce the rate of deforestation by promoting alternative sources of energy. The government will develop suitable regulations and measures for reducing the deforestation rate by increasing access to electricity, introducing alternative sources of energy and strengthening land-use management policies and planning. Assess available energy sources. Yet to be implemented. Short to long term. Select suitable energy sources that can be sustainably used by communities that are currently dependent on fuel wood. Develop a roadmap and implementation plan for introducing alternative energy sources. Monitor and evaluate project performance. | [
2,
0
] | [
"Second NDC"
] | [
"Biodiversity, ecosystem, and sustainable wetland management: “Reduce the rate of deforestation by promoting alternative sources of energy.” (p. 91)"
] | [
[
{
"Alpha2": "SS",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "LULUCF/Forestry",
"SubSector": "Sustainable forest management"
},
{
"Alpha2": "SS",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Energy",
"SubSector": "Energy: General"
}
]
] |
[
0,
3
] | {
"label": "en-US",
"score": 0.999938488
} | [
0,
3
] | COG | Republic of Congo | [
0,
3
] | [
[
null
],
[
null,
null
]
] | [
"CW"
] | [
3,
0
] | Reduce the risk of intense and frequent forest fires through the development of fire prevention measures and early warning systems;. Managing pest and disease outbreaks to protect forests and forest resources. Adaptation priority 3. Structure and develop sustainable water services, including irrigation, in order to improve the living conditions of | Reduce the risk of intense and frequent forest fires through the development of fire prevention measures and early warning systems;. Managing pest and disease outbreaks to protect forests and forest resources. Adaptation priority 3. Structure and develop sustainable water services, including irrigation, in order to improve the living conditions of populations. 2022-2025. The gender dimension is taken into account. 1, 3, 8, 9, 11, 12, 15. Mitigation co-benefit. | [
3,
0
] | [
"Revised First NDC"
] | [
"Action 2.6: \"Manage pest and disease outbreaks to protect forests and forest resources.\" (p. 30)",
"Priority 3: \"Structure and develop sustainable water services, including irrigation, in order to improve the living conditions of the populations\" (p. 30)"
] | [
[
{
"Alpha2": "CG",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "LULUCF/Forestry",
"SubSector": "Sustainable forest management"
}
],
[
{
"Alpha2": "CG",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Water",
"SubSector": "Water management"
},
{
"Alpha2": "CG",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Agriculture",
"SubSector": "Irrigation"
}
]
] |
[
0,
2
] | {
"label": "en-US",
"score": 0.9999383688
} | [
0,
2
] | GIN | Guinea | [
0,
2
] | [
[
null
],
[
null
]
] | [
"CW"
] | [
2,
0
] | Reduce the sources of mangrove degradation;. Include adaptation in local development plans and spatial planning tools;. Enhance scientific knowledge of the coast as a whole;. Develop rice production by improving yields through use of varieties better able to cope with the impact of climate change (particularly ingress of salt water). | Reduce the sources of mangrove degradation;. Include adaptation in local development plans and spatial planning tools;. Enhance scientific knowledge of the coast as a whole;. Develop rice production by improving yields through use of varieties better able to cope with the impact of climate change (particularly ingress of salt water). | [
1,
1
] | [
"First NDC",
"INDC"
] | [
"Using local knowledge and building local capacities",
"Develop rice production by growing salt tolerant rice variety"
] | [
[
{
"Alpha2": "GN",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "GCA_subsector",
"QuestionDefinition": "GCA_subsector",
"QuestionText": "Adapt Now subsector",
"Sector": "Economy-wide",
"SubSector": "Economy-wide: General"
}
],
[
{
"Alpha2": "GN",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "A_Sc_ConAct",
"QuestionDefinition": "Condition actions of the sectoral level",
"QuestionText": "Sectoral Conditional Actions",
"Sector": "Agriculture",
"SubSector": "Crops"
}
]
] |
[
0,
10
] | {
"label": "en-US",
"score": 0.9999294281
} | [
0,
10
] | CAF | Central African Republic | [
0,
10
] | [
[
null,
null,
null,
null,
null,
null,
null,
null,
null,
null
]
] | [
"CW"
] | [
10,
0
] | Reduce the use of fluorinated gas appliances by 25% in 2025 and 50% in 2030. Reduce fluorinated gas emissions. The implementation of actions by 2025 and 2030 will enable the CAR to reduce greenhouse gas emissions, in particular hydrofluorocarbons (HFCs), according to the unconditional scenario of -3.91% and -6, 04% | Reduce the use of fluorinated gas appliances by 25% in 2025 and 50% in 2030. Reduce fluorinated gas emissions. The implementation of actions by 2025 and 2030 will enable the CAR to reduce greenhouse gas emissions, in particular hydrofluorocarbons (HFCs), according to the unconditional scenario of -3.91% and -6, 04% respectively in 2025 and 2030; and according to the conditional scenario of -15.65% and -24.16% respectively in 2025 and 2030 compared to the trend scenario (see figure and table below). | [
0,
10
] | [
"Revised First NDC"
] | [
"2025"
] | [
[
{
"Alpha2": "CF",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_time",
"QuestionDefinition": "Time frame",
"QuestionText": "Time frame",
"Sector": "Cross-Cutting Area",
"SubSector": "Capacity building and knowledge transfer"
},
{
"Alpha2": "CF",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_time",
"QuestionDefinition": "Time frame",
"QuestionText": "Time frame",
"Sector": "Education",
"SubSector": "Education: General"
},
{
"Alpha2": "CF",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_time",
"QuestionDefinition": "Time frame",
"QuestionText": "Time frame",
"Sector": "Health",
"SubSector": "Health: General"
},
{
"Alpha2": "CF",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_time",
"QuestionDefinition": "Time frame",
"QuestionText": "Time frame",
"Sector": "LULUCF/Forestry",
"SubSector": "LULUCF/Forestry: General"
},
{
"Alpha2": "CF",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_time",
"QuestionDefinition": "Time frame",
"QuestionText": "Time frame",
"Sector": "Energy",
"SubSector": "Biomass energy"
},
{
"Alpha2": "CF",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_time",
"QuestionDefinition": "Time frame",
"QuestionText": "Time frame",
"Sector": "LULUCF/Forestry",
"SubSector": "Sustainable land management"
},
{
"Alpha2": "CF",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_time",
"QuestionDefinition": "Time frame",
"QuestionText": "Time frame",
"Sector": "Water",
"SubSector": "Wastewater treatment"
},
{
"Alpha2": "CF",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_time",
"QuestionDefinition": "Time frame",
"QuestionText": "Time frame",
"Sector": "Water",
"SubSector": "Water management"
},
{
"Alpha2": "CF",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_time",
"QuestionDefinition": "Time frame",
"QuestionText": "Time frame",
"Sector": "Water",
"SubSector": "Water quality"
},
{
"Alpha2": "CF",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_time",
"QuestionDefinition": "Time frame",
"QuestionText": "Time frame",
"Sector": "Water",
"SubSector": "Water: General"
}
]
] |
[
0,
1
] | {
"label": "en-US",
"score": 0.9999375343
} | [
0,
1
] | STP | Sao Tome and Principe | [
0,
1
] | [
[
null
]
] | [
"CW"
] | [
1,
0
] | Reduce the use of nitrogen fertilizers in agriculture by 2030. 4. Reporting on current and planned adaptation undertakings and support. To achieve the objectives of the above mentioned actions in paragraph 3, 17 specific projects were identified and listed in the NAPA, which implementation require external financial support in addition | Reduce the use of nitrogen fertilizers in agriculture by 2030. 4. Reporting on current and planned adaptation undertakings and support. To achieve the objectives of the above mentioned actions in paragraph 3, 17 specific projects were identified and listed in the NAPA, which implementation require external financial support in addition to technological support and capacity building. 5. Gaps and Barriers. Financial Barriers:I. Difficult access to finance;. II. | [
1,
0
] | [
"First NDC"
] | [
"“Reduce the use of nitrogen fertilizers in agriculture by 2030.” (p. 5) (Conditional)"
] | [
[
{
"Alpha2": "ST",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Agriculture",
"SubSector": "Climate smart agriculture"
}
]
] |
[
0,
1
] | {
"label": "en-US",
"score": 0.9999366999
} | [
0,
1
] | PSE | Palestine | [
1,
0
] | [
[
null
]
] | [
"CW"
] | [
0,
1
] | Reduce the volume of leachate by 50% by 2030 from suitable landfill sites. 16,140,000. 16,037,000. Reduce the amount of waste for final disposal in landfill sites by 30% by 2030 and by 50% by 2040. Increase the amount of waste re-used or recycled by 30% by 2030 and by 40% | Reduce the volume of leachate by 50% by 2030 from suitable landfill sites. 16,140,000. 16,037,000. Reduce the amount of waste for final disposal in landfill sites by 30% by 2030 and by 50% by 2040. Increase the amount of waste re-used or recycled by 30% by 2030 and by 40% by 2040. 6,651,000. 6,398,000. Increase the amount of waste collected to 90% by 2030 and to 100% by 2040. | [
0,
1
] | [
"Revised First NDC"
] | [
"\"Reduce the amount of waste for final disposal in landfill sites by 30% by 2030 and by 50% by 2040\", \"Increase the amount of waste re-used or recycled by 30% by 2030 and by 40% by 2040.\": 6.651 million USD"
] | [
[
{
"Alpha2": "PS",
"OverviewCategory": "Sectoral Mitigation Targets",
"QuestionCode": "M_SecTar5",
"QuestionDefinition": "Estimated total cost of implementation for a given sectoral target",
"QuestionText": "Estimated total costs for implementation",
"Sector": "Waste",
"SubSector": "Waste: General"
}
]
] |
[
0,
4
] | {
"label": "en-US",
"score": 0.999938488
} | [
0,
4
] | MMR | Myanmar | [
0,
4
] | [
[
null
],
[
null,
null
],
[
null
]
] | [
"CW"
] | [
4,
0
] | Reduce the volume of solid waste that goes to landfills by increasing recycling rates and encouraging the repurposing of urban and agricultural organic waste (incl. landfill gas capture techniques for methane). Assess the impacts of and rationalize the management of Fecal Solid Waste that is currently discharged as untreated sewage | Reduce the volume of solid waste that goes to landfills by increasing recycling rates and encouraging the repurposing of urban and agricultural organic waste (incl. landfill gas capture techniques for methane). Assess the impacts of and rationalize the management of Fecal Solid Waste that is currently discharged as untreated sewage into nature, with potential circular economy opportunities to improve agricultural productivity, generate power, and even promote forest growth. | [
3,
1
] | [
"Revised First NDC"
] | [
"Increasing climate-resilient investments and capture value from adaptation benefits",
"Integrated Waste Management: “Assess the impacts of and rationalize the management of Fecal Solid Waste that is currently discharged as untreated sewage into nature, with potential circular economy opportunities to improve agricultural productivity, generate power, and even promote forest growth.” (p. 41)",
"Integrated Waste Management: “Reduce the volume of solid waste that goes to landfills by increasing recycling rates and encouraging the repurposing of urban and agricultural organic waste (incl. landfill gas capture techniques for methane).” (p. 41)"
] | [
[
{
"Alpha2": "MM",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "GCA_subsector",
"QuestionDefinition": "GCA_subsector",
"QuestionText": "Adapt Now subsector",
"Sector": "Urban",
"SubSector": "Waste management"
}
],
[
{
"Alpha2": "MM",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Urban",
"SubSector": "Waste management"
},
{
"Alpha2": "MM",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Cross-Cutting Area",
"SubSector": "Capacity building and knowledge transfer"
}
],
[
{
"Alpha2": "MM",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Urban",
"SubSector": "Waste management"
}
]
] |
[
0,
2
] | {
"label": "en-US",
"score": 0.9999359846
} | [
2,
0
] | COL | Colombia | [
0,
2
] | [
[
null,
null
]
] | [
"CW"
] | [
2,
0
] | Reduce the vulnerability of blue carbon ecosystems, with an emphasis on mangroves, through preservation, sustainable use and restoration strategies , as well as the formulation and implementation of management instruments, as measures that contribute to adaptation to the climate change. Environment. 28. Adoption and implementation of 100% of the Plans | Reduce the vulnerability of blue carbon ecosystems, with an emphasis on mangroves, through preservation, sustainable use and restoration strategies , as well as the formulation and implementation of management instruments, as measures that contribute to adaptation to the climate change. Environment. 28. Adoption and implementation of 100% of the Plans for the Integrated Management and Management of Coastal Environmental Units (POMIUAC) with ecosystem-based adaptation actions (EbA) on mangroves and seagrasses, and other coastal ecosystems. | [
0,
2
] | [
"Revised First NDC"
] | [
"100% adoption"
] | [
[
{
"Alpha2": "CO",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_tar",
"QuestionDefinition": "Measurable targets or indicators",
"QuestionText": "Targets",
"Sector": "Coastal Zone",
"SubSector": "Coastal Zone: General"
},
{
"Alpha2": "CO",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_tar",
"QuestionDefinition": "Measurable targets or indicators",
"QuestionText": "Targets",
"Sector": "Coastal Zone",
"SubSector": "Mangroves"
}
]
] |
[
0,
6
] | {
"label": "en-US",
"score": 0.9999390841
} | [
0,
6
] | LBN | Lebanon | [
0,
6
] | [
[
null
],
[
null,
null
],
[
null
],
[
null,
null
]
] | [
"CW"
] | [
6,
0
] | Reduce the vulnerability of climate change impacts on coastal zones, especially in cities. Most relevant SDGs. SDGs 6, 9, 10 and 14. Key activities. Assess the sea-water intrusion in the major coastal aquifers;. Enhance the Artificial Recharge of some selected aquifers;. Refresh the water budgeting of all aquifers progressively;. Perform | Reduce the vulnerability of climate change impacts on coastal zones, especially in cities. Most relevant SDGs. SDGs 6, 9, 10 and 14. Key activities. Assess the sea-water intrusion in the major coastal aquifers;. Enhance the Artificial Recharge of some selected aquifers;. Refresh the water budgeting of all aquifers progressively;. Perform the modelling of the karstic, saline and porous aquifer;. | [
6,
0
] | [
"Revised First NDC"
] | [
"Adaptation priority 5 (key activities): “Assess the sea-water intrusion in the major coastal aquifers",
"Adaptation priority 5 (key activities): “Enhance the Artificial Recharge of some selected aquifers",
"Adaptation priority 5 (key activities): “Perform the modelling of the karstic, saline and porous aquifer",
"Adaptation priority 5 (key activities): “Refresh the water budgeting of all aquifers progressively"
] | [
[
{
"Alpha2": "LB",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Coastal Zone",
"SubSector": "Sea-level rise protection"
}
],
[
{
"Alpha2": "LB",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Coastal Zone",
"SubSector": "Coastal management"
},
{
"Alpha2": "LB",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Environment",
"SubSector": "Watershed and river basin management"
}
],
[
{
"Alpha2": "LB",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Cross-Cutting Area",
"SubSector": "Capacity building and knowledge transfer"
}
],
[
{
"Alpha2": "LB",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Coastal Zone",
"SubSector": "Coastal management"
},
{
"Alpha2": "LB",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Environment",
"SubSector": "Watershed and river basin management"
}
]
] |
[
0,
5
] | {
"label": "en-US",
"score": 0.9999377728
} | [
0,
5
] | BEN | Benin | [
0,
5
] | [
[
null
],
[
null
],
[
null
],
[
null
],
[
null
]
] | [
"CW"
] | [
5,
0
] | Reduce the vulnerability of communities to the degradation of forest ecosystems. Promote agroforestry. Develop mangrove ecosystems (forest formations characteristic of the coastline). Littoral. Horizon 2020. Ensure the protection of the coastline against the risk of sea level rise that may exacerbate the phenomenon of coastal erosion;. Sanitize the banks of | Reduce the vulnerability of communities to the degradation of forest ecosystems. Promote agroforestry. Develop mangrove ecosystems (forest formations characteristic of the coastline). Littoral. Horizon 2020. Ensure the protection of the coastline against the risk of sea level rise that may exacerbate the phenomenon of coastal erosion;. Sanitize the banks of lakes and lagoons in the coastal environment. Horizon 2030. Reduce the vulnerability of human settlements and coastal resources to sea level rise;. Ensure ongoing protection of marine and lagoon ecosystems. V. STRATEGIES, PROGRAMS, PROJECTS AND INSTITUTIONAL FRAMEWORK FOR IMPLEMENTATION. 5.1. | [
5,
0
] | [
"First NDC"
] | [
"Shoreline: “Cleaning up the banks of lakes and lagoons located in the vacinity of the shoreline” (p. 19)",
"Shoreline: “Ensuring continuously the protection of marine and lagoonal ecosystems.” (p. 19)",
"Shoreline: “Ensuring the protection of the shoreline against the risk of sea-level rise which can exacerbate the phenomenon of coastal erosion",
"Shoreline: “Reducing the vulnerability of human settlements and resources located in the coastal area to sea-level rise",
"“Shoreline protection project as regards sea -level rise / coastal erosion” (p. 38)"
] | [
[
{
"Alpha2": "BJ",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Environment",
"SubSector": "Watershed and river basin management"
}
],
[
{
"Alpha2": "BJ",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Environment",
"SubSector": "Ecosystem and biodiversity"
}
],
[
{
"Alpha2": "BJ",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Coastal Zone",
"SubSector": "Sea-level rise protection"
}
],
[
{
"Alpha2": "BJ",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Coastal Zone",
"SubSector": "Sea-level rise protection"
}
],
[
{
"Alpha2": "BJ",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Coastal Zone",
"SubSector": "Sea-level rise protection"
}
]
] |
[
0,
5
] | {
"label": "en-US",
"score": 0.9999372959
} | [
0,
5
] | CUB | Cuba | [
0,
5
] | [
[
null,
null,
null,
null,
null
]
] | [
"CW"
] | [
5,
0
] | Reduce the vulnerability of the country to the effects of climate change through the gradual execution of the State Plan to confront it. Specific objective 11. Increase energy efficiency and the development of renewable energy sources (FRE), which contributes, among other benefits, to reducing the generation of greenhouse gases, mitigating | Reduce the vulnerability of the country to the effects of climate change through the gradual execution of the State Plan to confront it. Specific objective 11. Increase energy efficiency and the development of renewable energy sources (FRE), which contributes, among other benefits, to reducing the generation of greenhouse gases, mitigating climate change and promoting less intense economic development in carbon. Specific objective 12. | [
0,
5
] | [
"Revised First NDC"
] | [
"Reducing long-term vulnerability and exposure"
] | [
[
{
"Alpha2": "CU",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "GCA_Subsector_3",
"QuestionDefinition": "GCA_Subsector_3",
"QuestionText": "Adapt Now subsector (3)",
"Sector": "Agriculture",
"SubSector": "Food security"
},
{
"Alpha2": "CU",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "GCA_Subsector_2",
"QuestionDefinition": "GCA_Subsector_2",
"QuestionText": "Adapt Now subsector (2)",
"Sector": "Cross-Cutting Area",
"SubSector": "Capacity building and knowledge transfer"
},
{
"Alpha2": "CU",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "GCA_Subsector_2",
"QuestionDefinition": "GCA_Subsector_2",
"QuestionText": "Adapt Now subsector (2)",
"Sector": "Disaster Risk Management (DRM)",
"SubSector": "Disaster preparedness"
},
{
"Alpha2": "CU",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "GCA_Subsector_3",
"QuestionDefinition": "GCA_Subsector_3",
"QuestionText": "Adapt Now subsector (3)",
"Sector": "Urban",
"SubSector": "Sustainable urban planning"
},
{
"Alpha2": "CU",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "GCA_Subsector_3",
"QuestionDefinition": "GCA_Subsector_3",
"QuestionText": "Adapt Now subsector (3)",
"Sector": "Coastal Zone",
"SubSector": "Sea-level rise protection"
}
]
] |
[
2,
1
] | {
"label": "en-US",
"score": 0.9999189377
} | [
1,
2
] | KHM | Cambodia | [
3,
0
] | [
[
null,
null
],
[
null
]
] | [
"CW"
] | [
0,
3
] | Reduce traffic accident, injury and fatality. 4. Reduce air pollution and GHG. Technology is unavailable and costly; however, the originated country is seeking for/requiring assistant from foreign country. Lack of experts and staffs need to be trained. Conditional. 3, 5, 8, 9. 31. E-mobility. Transport. Ministry of Public. Works and. | Reduce traffic accident, injury and fatality. 4. Reduce air pollution and GHG. Technology is unavailable and costly; however, the originated country is seeking for/requiring assistant from foreign country. Lack of experts and staffs need to be trained. Conditional. 3, 5, 8, 9. 31. E-mobility. Transport. Ministry of Public. Works and. Transport. (MPWT). Baseline: 09 vehicles(battery vehicle) are registered by 2020;. Conditional. 3, 5, 8, 9. 32. Establish green belts along major roads for climate change mitigation. Transport. Ministry of Public. Works and. Transport. (MPWT). 3, 5, 8, 9. 33. | [
0,
3
] | [
"Revised First NDC"
] | [
"\"E-mobility\"",
"\"Establish green belts along major roads for climate change mitigation\""
] | [
[
{
"Alpha2": "KH",
"OverviewCategory": "Sectoral Mitigation Plans",
"QuestionCode": "M_SecGen3",
"QuestionDefinition": "Information on sectoral plans",
"QuestionText": "Sectoral plans on",
"Sector": "Transport",
"SubSector": "Vehicle Fleet"
},
{
"Alpha2": "KH",
"OverviewCategory": "Sectoral Mitigation Plans",
"QuestionCode": "M_SecGen10",
"QuestionDefinition": "Conditional part of mitigation target for a given sectoral plan",
"QuestionText": "Conditional part of mitigation target",
"Sector": "Transport",
"SubSector": "Vehicle Fleet"
}
],
[
{
"Alpha2": "KH",
"OverviewCategory": "Sectoral Mitigation Plans",
"QuestionCode": "M_SecGen3",
"QuestionDefinition": "Information on sectoral plans",
"QuestionText": "Sectoral plans on",
"Sector": "Transport",
"SubSector": "Transportation Planning"
}
]
] |
[
2,
4
] | {
"label": "en-US",
"score": 0.9999322891
} | [
0,
6
] | LKA | Sri Lanka | [
6,
0
] | [
[
null
],
[
null,
null
],
[
null
],
[
null
],
[
null
]
] | [
"CW"
] | [
0,
6
] | Reduce unproductive vehicles by 25% in 2025 with unconditionally and this could increase 50% with conditions. Development of Urban Transport Master Plans (UTMP) to improve transport system in line with Megapolis Plan that currently being finalized into other main urban areas of the country. Shifting of passengers from private to | Reduce unproductive vehicles by 25% in 2025 with unconditionally and this could increase 50% with conditions. Development of Urban Transport Master Plans (UTMP) to improve transport system in line with Megapolis Plan that currently being finalized into other main urban areas of the country. Shifting of passengers from private to public transport mode. Introduce Park & Ride system. Introduce the BRT system for Galle Road Corridor. Rehabilitation of Kalani valley Railway line. Enhancing the efficiency and quality of public transport and Economic instruments to environment friendly transport modes. | [
4,
2
] | [
"INDC"
] | [
"Development of Urban Transport Master Plans (UTMP).",
"Introduce the BRT system for Galle Road Corridor.",
"Introduce Park & Ride system.",
"Rehabilitation of Kalani valley Railway line.",
"Shifting of passengers from private to public transport modes."
] | [
[
{
"Alpha2": "LK",
"OverviewCategory": "Sectoral Mitigation Plans",
"QuestionCode": "M_SecGen3",
"QuestionDefinition": "Information on sectoral plans",
"QuestionText": "Sectoral plans on",
"Sector": "Transport",
"SubSector": "Transportation Planning"
}
],
[
{
"Alpha2": "LK",
"OverviewCategory": "Sectoral Mitigation Actions",
"QuestionCode": "M_SecAct2",
"QuestionDefinition": "Sectoral downstream actions to be undertaken as part of the NDC contribution",
"QuestionText": "Downstream actions",
"Sector": "Transport",
"SubSector": "BRT"
},
{
"Alpha2": "LK",
"OverviewCategory": "Sectoral Mitigation Actions",
"QuestionCode": "M_SecAct2",
"QuestionDefinition": "Sectoral downstream actions to be undertaken as part of the NDC contribution",
"QuestionText": "Downstream actions",
"Sector": "Transport",
"SubSector": "Public Transport"
}
],
[
{
"Alpha2": "LK",
"OverviewCategory": "Sectoral Mitigation Actions",
"QuestionCode": "M_SecAct2",
"QuestionDefinition": "Sectoral downstream actions to be undertaken as part of the NDC contribution",
"QuestionText": "Downstream actions",
"Sector": "Transport",
"SubSector": "Public Transport"
}
],
[
{
"Alpha2": "LK",
"OverviewCategory": "Sectoral Mitigation Actions",
"QuestionCode": "M_SecAct2",
"QuestionDefinition": "Sectoral downstream actions to be undertaken as part of the NDC contribution",
"QuestionText": "Downstream actions",
"Sector": "Transport",
"SubSector": "Public Transport"
}
],
[
{
"Alpha2": "LK",
"OverviewCategory": "Sectoral Mitigation Plans",
"QuestionCode": "M_SecGen3",
"QuestionDefinition": "Information on sectoral plans",
"QuestionText": "Sectoral plans on",
"Sector": "Transport",
"SubSector": "Public Transport"
}
]
] |
[
0,
3
] | {
"label": "en-US",
"score": 0.9999345541
} | [
0,
3
] | CIV | Ivory Coast | [
0,
3
] | [
[
null,
null
],
[
null
]
] | [
"CW"
] | [
3,
0
] | Reduce vulnerability and increase resilience. Improve silvicultural species, promote agroforestry, restore degraded lands. Promote sustainable land management through improved soil and water conservation (SWC) techniques. Develop the landscape approach for sustainable land management and water and soil conservation. Poverty alleviation (exploitation of non-timber forest products, improvement of agricultural yields, use | Reduce vulnerability and increase resilience. Improve silvicultural species, promote agroforestry, restore degraded lands. Promote sustainable land management through improved soil and water conservation (SWC) techniques. Develop the landscape approach for sustainable land management and water and soil conservation. Poverty alleviation (exploitation of non-timber forest products, improvement of agricultural yields, use of traditional pharmacopoeia). Preservation of terrestrial fauna and flora diversity. Durability of soil quality. | [
3,
0
] | [
"First NDC"
] | [
"Fight against deforestation and land degradation: \"Develop the landscape approach for the sustainable management of land and the conservation of water and soil\" (13).",
"Fight against deforestation and land degradation: \"Promote sustainable land management through soil and water conservation improvement techniques (CES)\" (13)."
] | [
[
{
"Alpha2": "CI",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Cross-Cutting Area",
"SubSector": "Landscape management"
},
{
"Alpha2": "CI",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Agriculture",
"SubSector": "Land and soil management"
}
],
[
{
"Alpha2": "CI",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Cross-Cutting Area",
"SubSector": "Landscape management"
}
]
] |
[
0,
5
] | {
"label": "en-US",
"score": 0.9999371767
} | [
0,
5
] | PER | Peru | [
0,
5
] | [
[
null,
null
],
[
null
],
[
null
],
[
null
]
] | [
"CW"
] | [
5,
0
] | Reduce vulnerability and increase the population resilience to the health effects of climate change. Crosscutting areas/Goals. 1. Disaster Risk Management[15]. Increase the number of prioritized districts, due to hydro-meteorological and climate events, that are monitored. Increase the number of people with education and knowledge in disaster risk management and adaptation | Reduce vulnerability and increase the population resilience to the health effects of climate change. Crosscutting areas/Goals. 1. Disaster Risk Management[15]. Increase the number of prioritized districts, due to hydro-meteorological and climate events, that are monitored. Increase the number of people with education and knowledge in disaster risk management and adaptation to climate change. 2. Resilient Public Infrastructure - Climate Shield of the National Public Investment System (SNIP in Spanish). | [
5,
0
] | [
"First NDC",
"INDC"
] | [
"Disaster risk management: \" Increase the number of people with education and knowledge in disaster risk management and adaptation to climate change.\" (10)",
"Disaster risk management: \"Increase the number of prioritized districts, due to hydro-meteorological and climate events, that are monitored.\" (10)",
"Increase the number of people with education and knowledge in disaster risk management and adaptation to climate change.",
"Increase the number of prioritized districts, due to hydro-meteorological and climate events, that are monitored."
] | [
[
{
"Alpha2": "PE",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Disaster Risk Management (DRM)",
"SubSector": "Disaster Risk Management (DRM): General"
},
{
"Alpha2": "PE",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Cross-Cutting Area",
"SubSector": "Capacity building and knowledge transfer"
}
],
[
{
"Alpha2": "PE",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Disaster Risk Management (DRM)",
"SubSector": "Monitoring and Evaluation System"
}
],
[
{
"Alpha2": "PE",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "A_Sc_UncAct",
"QuestionDefinition": "Unconditional sectoral actions",
"QuestionText": "Sectoral Unconditional Actions",
"Sector": "Disaster Risk Management (DRM)",
"SubSector": "Disaster Risk Management (DRM): General"
}
],
[
{
"Alpha2": "PE",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "A_Sc_UncAct",
"QuestionDefinition": "Unconditional sectoral actions",
"QuestionText": "Sectoral Unconditional Actions",
"Sector": "Disaster Risk Management (DRM)",
"SubSector": "Monitoring and Evaluation System"
}
]
] |
[
0,
2
] | {
"label": "en-US",
"score": 0.9999364614
} | [
0,
2
] | MNG | Mongolia | [
0,
2
] | [
[
null,
null
]
] | [
"CW"
] | [
2,
0
] | Reduce vulnerability by diversifying economic activities, increasing income, expanding income sources and supporting sustainable livelihoods;. Ensure equality for the vulnerable groups and increase employment by providing knowledge and education. E. Needs for Support. Financial Support. The financial needs for the NDC implementation are estimated initially as US$11.5 billion, of which | Reduce vulnerability by diversifying economic activities, increasing income, expanding income sources and supporting sustainable livelihoods;. Ensure equality for the vulnerable groups and increase employment by providing knowledge and education. E. Needs for Support. Financial Support. The financial needs for the NDC implementation are estimated initially as US$11.5 billion, of which US$6.3 billion for mitigation, and US$5.2 billion for adaptation. Technology Transfer. | [
2,
0
] | [
"Revised First NDC"
] | [
"Livelihood and social safeguard: \"Ensure equality for the vulnerable groups and increase employment by providing knowledge and education.\" (p. 8)"
] | [
[
{
"Alpha2": "MN",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Education",
"SubSector": "Education: General"
},
{
"Alpha2": "MN",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Social Development",
"SubSector": "Social Development: General"
}
]
] |
[
0,
2
] | {
"label": "en-US",
"score": 0.9999239445
} | [
0,
2
] | CUB | Cuba | [
0,
2
] | [
[
null,
null
]
] | [
"CW"
] | [
2,
0
] | Reduce vulnerability in the health sector, based on a better understanding and understanding of the relationships between climate variability, climate change and human health, in two essential areas: infectious diseases and the Surveillance System And Early Warning of the sector. Sustaining and developing research to protect, conserve and rehabilitate the | Reduce vulnerability in the health sector, based on a better understanding and understanding of the relationships between climate variability, climate change and human health, in two essential areas: infectious diseases and the Surveillance System And Early Warning of the sector. Sustaining and developing research to protect, conserve and rehabilitate the environment and adapt environmental policy to new projections of the economic and social environment. | [
0,
2
] | [
"First NDC"
] | [
"Boosting efforts to warn, respond, and protect"
] | [
[
{
"Alpha2": "CU",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "GCA_Subsector_2",
"QuestionDefinition": "GCA_Subsector_2",
"QuestionText": "Adapt Now subsector (2)",
"Sector": "Health",
"SubSector": "Disease surveillance and control"
},
{
"Alpha2": "CU",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "GCA_Subsector_2",
"QuestionDefinition": "GCA_Subsector_2",
"QuestionText": "Adapt Now subsector (2)",
"Sector": "Disaster Risk Management (DRM)",
"SubSector": "Early warning system"
}
]
] |
[
0,
1
] | {
"label": "en-US",
"score": 0.9999370575
} | [
0,
1
] | TLS | Timor-Leste | [
0,
1
] | [
[
null
]
] | [
"CW"
] | [
1,
0
] | Reduce vulnerability of farmers and pastoralists to increased drought and flood events by improving their capacity to plan for and respond to future climatic conditions and improve national food production:<br>Improve physical infrastructure/civil engineering and natural vegetation methods to prevent landslides in hill sites, roads and river banks.<br>Build climate proofed and | Reduce vulnerability of farmers and pastoralists to increased drought and flood events by improving their capacity to plan for and respond to future climatic conditions and improve national food production:<br>Improve physical infrastructure/civil engineering and natural vegetation methods to prevent landslides in hill sites, roads and river banks.<br>Build climate proofed and environmentally sustainable infrastructure to protect water sources (springs, streams, wells, etc.) in order to provide safe water access for food production, sanitary uses, ecosystems and industry development, and water supplies during climate change extreme event periods.<br>Enhance government and community strategies to respond co drought exacerbated by climate change.<br>Establish health cluster in order to prepare and response for any emergency events and disasters.<br>Protect offshore Infrastructure against strong wave damage that impacts the distribution of gas and oil, and reduce accidents and destruction of offshore oil and gas infrastructure | [
1,
0
] | [
"INDC"
] | [
"Reduce vulnerability of farmers and pastoralists to increased drought and flood events by improving their capacity to plan for and respond to future climatic conditions and improve national food production:<br>Improve physical infrastructure/civil engineering and natural vegetation methods to prevent landslides in hill sites, roads and river banks.<br>Build climate proofed and environmentally sustainable infrastructure to protect water sources (springs, streams, wells, etc.) in order to provide safe water access for food production, sanitary uses, ecosystems and industry development, and water supplies during climate change extreme event periods.<br>Enhance government and community strategies to respond co drought exacerbated by climate change.<br>Establish health cluster in order to prepare and response for any emergency events and disasters.<br>Protect offshore Infrastructure against strong wave damage that impacts the distribution of gas and oil, and reduce accidents and destruction of offshore oil and gas infrastructure"
] | [
[
{
"Alpha2": "TL",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "A_Sc_ConAct",
"QuestionDefinition": "Condition actions of the sectoral level",
"QuestionText": "Sectoral Conditional Actions",
"Sector": "Disaster Risk Management (DRM)",
"SubSector": "Disaster preparedness"
}
]
] |
[
0,
9
] | {
"label": "en-US",
"score": 0.9999343157
} | [
0,
9
] | SSD | South Sudan | [
0,
9
] | [
[
null,
null
],
[
null
],
[
null
],
[
null
],
[
null
],
[
null
],
[
null
],
[
null
]
] | [
"CW"
] | [
9,
0
] | Reduce vulnerability of population by integrating climate change considerations into land use planning. vii. Increase investments in disaster prevention mechanisms, such as early warning systems, rather than disaster response mechanisms. viii. Improve environmental health-related infrastructure to reduce the spread of water-borne diseases which will be exacerbated by climate change. ix. | Reduce vulnerability of population by integrating climate change considerations into land use planning. vii. Increase investments in disaster prevention mechanisms, such as early warning systems, rather than disaster response mechanisms. viii. Improve environmental health-related infrastructure to reduce the spread of water-borne diseases which will be exacerbated by climate change. ix. Create buffer zones and relocate vulnerable communities away from flood-prone areas. Forests, Biodiversity and Ecosystems. | [
9,
0
] | [
"First NDC",
"INDC"
] | [
"Adapting Vulnerable Communities to Climate Change and reduce vulnerability of the population: \"Create buffer zones and relocate vulnerable communities away from flood-prone areas\" (5).",
"Adapting Vulnerable Communities to Climate Change and reduce vulnerability of the population: \"Improve environmental health-related infrastructure to reduce the spread of water-borne diseases which will be exacerbated by climate change\" (5).",
"Adapting Vulnerable Communities to Climate Change and reduce vulnerability of the population: \"Increase investments in disaster prevention mechanisms, such as early warning systems, rather than disaster response mechanisms\" (5).",
"Adapting Vulnerable Communities to Climate Change and reduce vulnerability of the population: \"Reduce vulnerability of population by integrating climate change considerations into land use planning\" (5).",
"Forests, biodiversity and ecosystems: \"Improve the enforcement of environmental regulations\" (6).",
"Improve environmental health-related infrastructure to reduce the spread of water-borne diseases which will be exacerbated by climate change",
"Increase investments in disaster prevention mechanisms, such as Early warning systems, rather than disaster response mechanisms",
"Reduce vulnerability of population by integrating climate change considerations into land use planning"
] | [
[
{
"Alpha2": "SS",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Urban",
"SubSector": "Sustainable urban planning"
},
{
"Alpha2": "SS",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Disaster Risk Management (DRM)",
"SubSector": "Disaster preparedness"
}
],
[
{
"Alpha2": "SS",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Health",
"SubSector": "Disease surveillance and control"
}
],
[
{
"Alpha2": "SS",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Disaster Risk Management (DRM)",
"SubSector": "Early warning system"
}
],
[
{
"Alpha2": "SS",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Cross-Cutting Area",
"SubSector": "Landscape management"
}
],
[
{
"Alpha2": "SS",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Environment",
"SubSector": "Environment: General"
}
],
[
{
"Alpha2": "SS",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "A_Sc_ConAct",
"QuestionDefinition": "Condition actions of the sectoral level",
"QuestionText": "Sectoral Conditional Actions",
"Sector": "Health",
"SubSector": "Disease surveillance and control"
}
],
[
{
"Alpha2": "SS",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "A_Sc_ConAct",
"QuestionDefinition": "Condition actions of the sectoral level",
"QuestionText": "Sectoral Conditional Actions",
"Sector": "Disaster Risk Management (DRM)",
"SubSector": "Early warning system"
}
],
[
{
"Alpha2": "SS",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "A_Sc_ConAct",
"QuestionDefinition": "Condition actions of the sectoral level",
"QuestionText": "Sectoral Conditional Actions",
"Sector": "Urban",
"SubSector": "Sustainable urban planning"
}
]
] |
[
0,
2
] | {
"label": "en-US",
"score": 0.9999322891
} | [
0,
2
] | SWZ | Eswatini | [
0,
2
] | [
[
null
],
[
null
]
] | [
"CW"
] | [
2,
0
] | Reduce vulnerability to the impacts of climate change by building adaptive capacity and resilience. This will be achieved through integrated water resource management, climate smart agriculture, cross-cutting themes of early warning systems, disaster risk management, improving emergency preparedness and response capacities, energy efficiency and energy security, biodiversity conservation and sustainable | Reduce vulnerability to the impacts of climate change by building adaptive capacity and resilience. This will be achieved through integrated water resource management, climate smart agriculture, cross-cutting themes of early warning systems, disaster risk management, improving emergency preparedness and response capacities, energy efficiency and energy security, biodiversity conservation and sustainable land management. | [
2,
0
] | [
"First NDC",
"INDC"
] | [
"NAP: \"Reduce vulnerability to the impacts of climate change by building adaptive capacity and resilience. This will be achieved through integrated water resource management, climate smart agriculture, cross-cutting themes of early warning systems, disaster risk management, improving emergency preparedness and response capacities, energy efficiency and energy security, biodiversity conservation and sustainable land management\" (2)",
"Fire management"
] | [
[
{
"Alpha2": "SZ",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Disaster Risk Management (DRM)",
"SubSector": "Disaster Risk Management (DRM): General"
}
],
[
{
"Alpha2": "SZ",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "A_Sc_ConAct",
"QuestionDefinition": "Condition actions of the sectoral level",
"QuestionText": "Sectoral Conditional Actions",
"Sector": "Disaster Risk Management (DRM)",
"SubSector": "Monitoring and Evaluation System"
}
]
] |
[
0,
25
] | {
"label": "en-US",
"score": 0.9999359846
} | [
0,
25
] | CAF | Central African Republic | [
0,
25
] | [
[
null,
null,
null,
null,
null,
null,
null,
null,
null,
null,
null,
null,
null,
null,
null,
null,
null,
null,
null,
null,
null,
null,
null,
null,
null
]
] | [
"CW"
] | [
25,
0
] | Reduce wildfires by 25% in 2025 and 60% in 2030. See NDC unconditional. Restore 50% of post-mining sites annually in 2030. See NDC unconditional. Preserve 80% of the sequestration capacities of APDS and PNMB in 2030. See NDC unconditional. | Reduce wildfires by 25% in 2025 and 60% in 2030. See NDC unconditional. Restore 50% of post-mining sites annually in 2030. See NDC unconditional. Preserve 80% of the sequestration capacities of APDS and PNMB in 2030. See NDC unconditional. | [
0,
25
] | [
"Revised First NDC"
] | [
"2030"
] | [
[
{
"Alpha2": "CF",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_time",
"QuestionDefinition": "Time frame",
"QuestionText": "Time frame",
"Sector": "Agriculture",
"SubSector": "Agriculture: General"
},
{
"Alpha2": "CF",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_time",
"QuestionDefinition": "Time frame",
"QuestionText": "Time frame",
"Sector": "Cross-Cutting Area",
"SubSector": "Capacity building and knowledge transfer"
},
{
"Alpha2": "CF",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_time",
"QuestionDefinition": "Time frame",
"QuestionText": "Time frame",
"Sector": "Cross-Cutting Area",
"SubSector": "Climate services"
},
{
"Alpha2": "CF",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_time",
"QuestionDefinition": "Time frame",
"QuestionText": "Time frame",
"Sector": "Agriculture",
"SubSector": "Climate smart agriculture"
},
{
"Alpha2": "CF",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_time",
"QuestionDefinition": "Time frame",
"QuestionText": "Time frame",
"Sector": "Social Development",
"SubSector": "Gender"
},
{
"Alpha2": "CF",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_time",
"QuestionDefinition": "Time frame",
"QuestionText": "Time frame",
"Sector": "Agriculture",
"SubSector": "Land and soil management"
},
{
"Alpha2": "CF",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_time",
"QuestionDefinition": "Time frame",
"QuestionText": "Time frame",
"Sector": "LULUCF/Forestry",
"SubSector": "Land degradation"
},
{
"Alpha2": "CF",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_time",
"QuestionDefinition": "Time frame",
"QuestionText": "Time frame",
"Sector": "Agriculture",
"SubSector": "Livestock"
},
{
"Alpha2": "CF",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_time",
"QuestionDefinition": "Time frame",
"QuestionText": "Time frame",
"Sector": "Water",
"SubSector": "Water management"
},
{
"Alpha2": "CF",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_time",
"QuestionDefinition": "Time frame",
"QuestionText": "Time frame",
"Sector": "Cross-Cutting Area",
"SubSector": "Climate risk management"
},
{
"Alpha2": "CF",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_time",
"QuestionDefinition": "Time frame",
"QuestionText": "Time frame",
"Sector": "Disaster Risk Management (DRM)",
"SubSector": "Disaster relief and recovery"
},
{
"Alpha2": "CF",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_time",
"QuestionDefinition": "Time frame",
"QuestionText": "Time frame",
"Sector": "Health",
"SubSector": "Awareness raising and behavior change"
},
{
"Alpha2": "CF",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_time",
"QuestionDefinition": "Time frame",
"QuestionText": "Time frame",
"Sector": "Health",
"SubSector": "Disease surveillance and control"
},
{
"Alpha2": "CF",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_time",
"QuestionDefinition": "Time frame",
"QuestionText": "Time frame",
"Sector": "Health",
"SubSector": "Health: General"
},
{
"Alpha2": "CF",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_time",
"QuestionDefinition": "Time frame",
"QuestionText": "Time frame",
"Sector": "LULUCF/Forestry",
"SubSector": "LULUCF/Forestry: General"
},
{
"Alpha2": "CF",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_time",
"QuestionDefinition": "Time frame",
"QuestionText": "Time frame",
"Sector": "Energy",
"SubSector": "Biomass energy"
},
{
"Alpha2": "CF",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_time",
"QuestionDefinition": "Time frame",
"QuestionText": "Time frame",
"Sector": "LULUCF/Forestry",
"SubSector": "Reforestation"
},
{
"Alpha2": "CF",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_time",
"QuestionDefinition": "Time frame",
"QuestionText": "Time frame",
"Sector": "Energy",
"SubSector": "Energy: General"
},
{
"Alpha2": "CF",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_time",
"QuestionDefinition": "Time frame",
"QuestionText": "Time frame",
"Sector": "LULUCF/Forestry",
"SubSector": "Sustainable forest management"
},
{
"Alpha2": "CF",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_time",
"QuestionDefinition": "Time frame",
"QuestionText": "Time frame",
"Sector": "Energy",
"SubSector": "Renewable energy"
},
{
"Alpha2": "CF",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_time",
"QuestionDefinition": "Time frame",
"QuestionText": "Time frame",
"Sector": "Agriculture",
"SubSector": "Agroforestry"
},
{
"Alpha2": "CF",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_time",
"QuestionDefinition": "Time frame",
"QuestionText": "Time frame",
"Sector": "Agriculture",
"SubSector": "Food security"
},
{
"Alpha2": "CF",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_time",
"QuestionDefinition": "Time frame",
"QuestionText": "Time frame",
"Sector": "Social Development",
"SubSector": "Social Development: General"
},
{
"Alpha2": "CF",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_time",
"QuestionDefinition": "Time frame",
"QuestionText": "Time frame",
"Sector": "Water",
"SubSector": "Infrastructure"
},
{
"Alpha2": "CF",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_time",
"QuestionDefinition": "Time frame",
"QuestionText": "Time frame",
"Sector": "Urban",
"SubSector": "Sustainable urban planning"
}
]
] |
[
0,
3
] | {
"label": "en-US",
"score": 0.9999017715
} | [
0,
3
] | PSE | Palestine | [
0,
3
] | [
[
null
],
[
null
],
[
null
]
] | [
"CW"
] | [
3,
0
] | Reduce, re-use, recycle. 2,000,000. Finance, technology, capacity building. Water(West Bank). Condition of infrastructure. Rehabilitate water sources: wells, canals and springs. 4,400,000. Finance, capacity building. Condition of infrastructure. Control of leakage from distribution systems. 16,500,000. Finance, capacity building. Groundwater supply. Allocate transboundary water resources equitably and reasonably between Israel and the | Reduce, re-use, recycle. 2,000,000. Finance, technology, capacity building. Water(West Bank). Condition of infrastructure. Rehabilitate water sources: wells, canals and springs. 4,400,000. Finance, capacity building. Condition of infrastructure. Control of leakage from distribution systems. 16,500,000. Finance, capacity building. Groundwater supply. Allocate transboundary water resources equitably and reasonably between Israel and the State of Palestine. 117,600,000. Finance. Groundwater supply. Enhance the use of additional and alternative water resources for non-domestic purposes. | [
3,
0
] | [
"First NDC"
] | [
"Water (West Bank): \"Condition of infrastructure - Control of leakage from distribution systems\" (26).",
"Water (West Bank): \"Condition of infrastructure - Rehabilitate water sources: wells, canals and springs\" (26).",
"Water (West Bank): \"Groundwater supply - Allocate transboundary water resources equitably and reasonably between Israel and the State of Palestine\" (26)."
] | [
[
{
"Alpha2": "PS",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Water",
"SubSector": "Infrastructure"
}
],
[
{
"Alpha2": "PS",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Water",
"SubSector": "Infrastructure"
}
],
[
{
"Alpha2": "PS",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Water",
"SubSector": "Water supply"
}
]
] |
[
2,
2
] | {
"label": "en-US",
"score": 0.999925971
} | [
0,
4
] | ZMB | Zambia | [
4,
0
] | [
[
null
],
[
null
],
[
null
],
[
null
]
] | [
"CW"
] | [
0,
4
] | Reduced GHG emissions due to reduced fertilizer use and less turning of soil. Biodiversity preservation due to reduced tillage. Improved soil productivity leading to improved crop productivity. Soil carbon sequestration. Reduced indoor air pollution due to cleaner energy use. Renewable Energy and Energy Efficiency. Program involves implementing. Fuel switch (diesel/HFO | Reduced GHG emissions due to reduced fertilizer use and less turning of soil. Biodiversity preservation due to reduced tillage. Improved soil productivity leading to improved crop productivity. Soil carbon sequestration. Reduced indoor air pollution due to cleaner energy use. Renewable Energy and Energy Efficiency. Program involves implementing. Fuel switch (diesel/HFO to biodiesel). Fuel switch (coal to biomass). Switch from existing isolated diesel to mini-hydro. | [
2,
2
] | [
"First NDC",
"INDC"
] | [
"Renewable Energy and Energy Efficiency program",
"diesel to biodiesel",
"Renewable Energy and Energy Efficiency program",
"diesel to biodiesel"
] | [
[
{
"Alpha2": "ZM",
"OverviewCategory": "Sectoral Mitigation Actions",
"QuestionCode": "M_SecAct2",
"QuestionDefinition": "Sectoral downstream actions to be undertaken as part of the NDC contribution",
"QuestionText": "Downstream actions",
"Sector": "Energy",
"SubSector": "Renewable Energy"
}
],
[
{
"Alpha2": "ZM",
"OverviewCategory": "Sectoral Mitigation Plans",
"QuestionCode": "M_SecGen3",
"QuestionDefinition": "Information on sectoral plans",
"QuestionText": "Sectoral plans on",
"Sector": "Energy",
"SubSector": "Supply-side Efficiency: Power generation efficiency improvement: Fuel switching"
}
],
[
{
"Alpha2": "ZM",
"OverviewCategory": "Sectoral Mitigation Actions",
"QuestionCode": "M_SecAct2",
"QuestionDefinition": "Sectoral downstream actions to be undertaken as part of the NDC contribution",
"QuestionText": "Downstream actions",
"Sector": "Energy",
"SubSector": "Renewable Energy"
}
],
[
{
"Alpha2": "ZM",
"OverviewCategory": "Sectoral Mitigation Plans",
"QuestionCode": "M_SecGen3",
"QuestionDefinition": "Information on sectoral plans",
"QuestionText": "Sectoral plans on",
"Sector": "Energy",
"SubSector": "Supply-side Efficiency: Power generation efficiency improvement: Fuel switching"
}
]
] |
[
0,
6
] | {
"label": "en-US",
"score": 0.9999347925
} | [
4,
2
] | RWA | Rwanda | [
0,
6
] | [
[
null
],
[
null,
null
],
[
null,
null
],
[
null
]
] | [
"CW"
] | [
6,
0
] | Reduced GHG emissions from community- based DRR programs such as improved farming techniques. Number of effective city contingency plans developed. ✔. ✔. B. 22. Establish an integrated early warning system, and disaster response plans. Percentage of extreme weather events for which advance warning was provided at least 30 minutes in | Reduced GHG emissions from community- based DRR programs such as improved farming techniques. Number of effective city contingency plans developed. ✔. ✔. B. 22. Establish an integrated early warning system, and disaster response plans. Percentage of extreme weather events for which advance warning was provided at least 30 minutes in advance. ✔. ✔. A. 10 million USD. 23. Institutional capacity building and development for cross-sector NDC implementation. Number of staff who acquired technical skills to effectively coordinate and report on NDC implementation. MoE (REMA and other NDC participating sectors). ✔. | [
2,
4
] | [
"Revised First NDC"
] | [
"\"Number of staff who acquired technical skills to effectively coordinate and report on NDC implementation\" (p. 54)",
"\"Percentage of extreme weather events for which advance warning was provided at least 30 minutes in advance\" (p. 54)",
"Cross-cutting: \"Establish an integrated early warning system, and disaster response plans\" (p. 54)",
"Number of effective city contingency plans developed\" (p. 54)"
] | [
[
{
"Alpha2": "RW",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_tar",
"QuestionDefinition": "Measurable targets or indicators",
"QuestionText": "Targets",
"Sector": "Cross-Cutting Area",
"SubSector": "Capacity building and knowledge transfer"
}
],
[
{
"Alpha2": "RW",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_tar",
"QuestionDefinition": "Measurable targets or indicators",
"QuestionText": "Targets",
"Sector": "Disaster Risk Management (DRM)",
"SubSector": "Early warning system"
},
{
"Alpha2": "RW",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_tar",
"QuestionDefinition": "Measurable targets or indicators",
"QuestionText": "Targets",
"Sector": "Disaster Risk Management (DRM)",
"SubSector": "Disaster relief and recovery"
}
],
[
{
"Alpha2": "RW",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Disaster Risk Management (DRM)",
"SubSector": "Early warning system"
},
{
"Alpha2": "RW",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Disaster Risk Management (DRM)",
"SubSector": "Disaster relief and recovery"
}
],
[
{
"Alpha2": "RW",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_tar",
"QuestionDefinition": "Measurable targets or indicators",
"QuestionText": "Targets",
"Sector": "Disaster Risk Management (DRM)",
"SubSector": "Disaster Risk Management (DRM): General"
}
]
] |
[
0,
3
] | {
"label": "en-US",
"score": 0.999928236
} | [
0,
3
] | RWA | Rwanda | [
0,
3
] | [
[
null,
null
],
[
null
]
] | [
"CW"
] | [
3,
0
] | Reduced GHG emissions from enteric fermentation. 1.5 Soil conservation and land husbandry. 90% of Rwanda’s crop land is on slopes ranging from 5 to 50% which makes it vulnerable to climate change impacts like soil erosion leading to permanent fertility loss. | Reduced GHG emissions from enteric fermentation. 1.5 Soil conservation and land husbandry. 90% of Rwanda’s crop land is on slopes ranging from 5 to 50% which makes it vulnerable to climate change impacts like soil erosion leading to permanent fertility loss. | [
3,
0
] | [
"First NDC",
"INDC"
] | [
"\"1.5 Soil conservation and land husbandry\" (p. 5)",
"Soil conservation and land husbandry"
] | [
[
{
"Alpha2": "RW",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Agriculture",
"SubSector": "Agroforestry"
},
{
"Alpha2": "RW",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Agriculture",
"SubSector": "Land and soil management"
}
],
[
{
"Alpha2": "RW",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "A_Sc_ConAct",
"QuestionDefinition": "Condition actions of the sectoral level",
"QuestionText": "Sectoral Conditional Actions",
"Sector": "Agriculture",
"SubSector": "Land and soil management"
}
]
] |
[
0,
2
] | {
"label": "en-US",
"score": 0.9999306202
} | [
0,
2
] | RWA | Rwanda | [
0,
2
] | [
[
null
],
[
null
]
] | [
"CW"
] | [
2,
0
] | Reduced GHG emissions through sequestration. Tourism. Programme of action. Actions. Description and goals/targets. Mitigation benefits. 4.Ecotourism, Conservation and Payment for Ecosystem Services Promotion in Protected Areas. 4.1 Maximise business tourism (the largest source of export revenues) through strategic conference management in order maximise the distribution and volume of business travellers | Reduced GHG emissions through sequestration. Tourism. Programme of action. Actions. Description and goals/targets. Mitigation benefits. 4.Ecotourism, Conservation and Payment for Ecosystem Services Promotion in Protected Areas. 4.1 Maximise business tourism (the largest source of export revenues) through strategic conference management in order maximise the distribution and volume of business travellers throughout the year. Rwanda will promote business conferences in efforts to maximize the distribution and volume of business travelers throughout the year. | [
2,
0
] | [
"First NDC",
"INDC"
] | [
"\"4.1 Maximise business tourism (the largest source of export revenues) through strategic conference management in order maximise the distribution and volume of business travellers throughout the year\" (p. 8)",
"Maximise business tourism (the largest source of export revenues) through strategic conference management in order maximise the distribution and volume of business travellers thoughout the year"
] | [
[
{
"Alpha2": "RW",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Tourism",
"SubSector": "Tourism: General"
}
],
[
{
"Alpha2": "RW",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "A_Sc_ConAct",
"QuestionDefinition": "Condition actions of the sectoral level",
"QuestionText": "Sectoral Conditional Actions",
"Sector": "Tourism",
"SubSector": "Tourism: General"
}
]
] |
[
1,
0
] | {
"label": "en-US",
"score": 0.9999351501
} | [
0,
1
] | KHM | Cambodia | [
1,
0
] | [
[
null
]
] | [
"CW"
] | [
0,
1
] | Reduced GHG emissions – climate-friendly solutions to cooling buildings reduces the reliance on ACs which are a source of GHGs. 2. Improved living conditions – as temperatures rise, cooling of buildings in a necessity to avoid heat stress and the subsequent health risks. USD 67 million. 5, 7, 8, 9, | Reduced GHG emissions – climate-friendly solutions to cooling buildings reduces the reliance on ACs which are a source of GHGs. 2. Improved living conditions – as temperatures rise, cooling of buildings in a necessity to avoid heat stress and the subsequent health risks. USD 67 million. 5, 7, 8, 9, 11. 24. Promote sustainable energy practices in manufacturing. Energy. Ministry of. Industry, Science,. Technology and. Innovation. (MISTI). The National Policy, Strategy and Action Plan on Energy Efficiency in. Cambodia (MIME 2013),. Basic Energy Plan. | [
0,
1
] | [
"Revised First NDC"
] | [
"\"Promote sustainable energy practices in manufacturing\""
] | [
[
{
"Alpha2": "KH",
"OverviewCategory": "Sectoral Mitigation Plans",
"QuestionCode": "M_SecGen3",
"QuestionDefinition": "Information on sectoral plans",
"QuestionText": "Sectoral plans on",
"Sector": "Energy",
"SubSector": "Demand-side Efficiency: Industries"
}
]
] |
[
0,
8
] | {
"label": "en-US",
"score": 0.9999027252
} | [
8,
0
] | ZWE | Zimbabwe | [
8,
0
] | [
[
null,
null
],
[
null,
null
],
[
null,
null
],
[
null,
null
]
] | [
"CW"
] | [
0,
8
] | Reduced Transmission and Distribution losses from 18% in 2020 to 11% in 2025. National Development Strategy. 1.01%. 760. $1,088.99. 2. Expansion of Solar: 300 MW in 2025. System Development Plan 2017. 0.61%. 460. $304.83. 3. Expansion of microgrids: Additional of 2.098 MW of capacity added through microgrids by 2028. Rural | Reduced Transmission and Distribution losses from 18% in 2020 to 11% in 2025. National Development Strategy. 1.01%. 760. $1,088.99. 2. Expansion of Solar: 300 MW in 2025. System Development Plan 2017. 0.61%. 460. $304.83. 3. Expansion of microgrids: Additional of 2.098 MW of capacity added through microgrids by 2028. Rural Energy Masterplan 2021. 0.004%. 3.27. $2.96. 4. 4.1 MW biogas capacity added in 2024. | [
0,
8
] | [
"Revised First NDC"
] | [
"\"4.1 MW biogas capacity added in 2024",
"\"Expansion of Solar: 300 MW in 2025\"",
"\"Expansion of microgrids: Additional of 2.098 MW of capacity added through microgrids by 2028\"",
"\"Reduced Transmission and Distribution losses from 18% in 2020 to 11% in 2025\""
] | [
[
{
"Alpha2": "ZW",
"OverviewCategory": "Sectoral Mitigation Targets",
"QuestionCode": "M_SecTar1",
"QuestionDefinition": "Targets at the sectoral level",
"QuestionText": "Sectoral targets on",
"Sector": "Energy",
"SubSector": "Renewable Energy: Biofuels"
},
{
"Alpha2": "ZW",
"OverviewCategory": "Sectoral Mitigation Targets",
"QuestionCode": "M_SecTar10",
"QuestionDefinition": "Conditional part of the mitigation target for a given sectoral target ",
"QuestionText": "Conditional part of mitigation target",
"Sector": "Energy",
"SubSector": "Renewable Energy: Biofuels"
}
],
[
{
"Alpha2": "ZW",
"OverviewCategory": "Sectoral Mitigation Targets",
"QuestionCode": "M_SecTar1",
"QuestionDefinition": "Targets at the sectoral level",
"QuestionText": "Sectoral targets on",
"Sector": "Energy",
"SubSector": "Renewable energy: Solar"
},
{
"Alpha2": "ZW",
"OverviewCategory": "Sectoral Mitigation Targets",
"QuestionCode": "M_SecTar10",
"QuestionDefinition": "Conditional part of the mitigation target for a given sectoral target ",
"QuestionText": "Conditional part of mitigation target",
"Sector": "Energy",
"SubSector": "Renewable energy: Solar"
}
],
[
{
"Alpha2": "ZW",
"OverviewCategory": "Sectoral Mitigation Targets",
"QuestionCode": "M_SecTar1",
"QuestionDefinition": "Targets at the sectoral level",
"QuestionText": "Sectoral targets on",
"Sector": "Energy",
"SubSector": "Mini-Grids"
},
{
"Alpha2": "ZW",
"OverviewCategory": "Sectoral Mitigation Targets",
"QuestionCode": "M_SecTar10",
"QuestionDefinition": "Conditional part of the mitigation target for a given sectoral target ",
"QuestionText": "Conditional part of mitigation target",
"Sector": "Energy",
"SubSector": "Mini-Grids"
}
],
[
{
"Alpha2": "ZW",
"OverviewCategory": "Sectoral Mitigation Targets",
"QuestionCode": "M_SecTar1",
"QuestionDefinition": "Targets at the sectoral level",
"QuestionText": "Sectoral targets on",
"Sector": "Energy",
"SubSector": "Supply-side Efficiency: Grid/energy loss reduction"
},
{
"Alpha2": "ZW",
"OverviewCategory": "Sectoral Mitigation Targets",
"QuestionCode": "M_SecTar10",
"QuestionDefinition": "Conditional part of the mitigation target for a given sectoral target ",
"QuestionText": "Conditional part of mitigation target",
"Sector": "Energy",
"SubSector": "Supply-side Efficiency: Grid/energy loss reduction"
}
]
] |
[
0,
2
] | {
"label": "en-US",
"score": 0.999925375
} | [
1,
1
] | MWI | Malawi | [
2,
0
] | [
[
null,
null
]
] | [
"CW"
] | [
0,
2
] | Reduced demand for traditional biomass, which helps to reduce pressure on forestry resources with associated reduced impacts from extreme rainfall events. ✔. ✔. ✔. Improved firewood cookstoves - rural households (b) Introduction of 2 million improved high efficiency stoves, resulting in carbon sink preservation through reduction in use of unsustainable | Reduced demand for traditional biomass, which helps to reduce pressure on forestry resources with associated reduced impacts from extreme rainfall events. ✔. ✔. ✔. Improved firewood cookstoves - rural households (b) Introduction of 2 million improved high efficiency stoves, resulting in carbon sink preservation through reduction in use of unsustainable biomass fuel. MOE (Department of Energy Affairs). District Councils, NGOs, Area and Village Development Committees. US$ 18 million. 100% unconditional. | [
1,
1
] | [
"Revised First NDC"
] | [
"Improved firewood cookstoves - rural households (b)--Introduction of 2 million improved high efficiency stoves, resulting in carbon sink preservation through reduction in use of unsustainable biomass fuel.\""
] | [
[
{
"Alpha2": "MW",
"OverviewCategory": "Sectoral Mitigation Actions",
"QuestionCode": "M_SecAct2",
"QuestionDefinition": "Sectoral downstream actions to be undertaken as part of the NDC contribution",
"QuestionText": "Downstream actions",
"Sector": "Energy",
"SubSector": "Clean Cooking and Heating: Efficient cookstoves"
},
{
"Alpha2": "MW",
"OverviewCategory": "Sectoral Mitigation Actions",
"QuestionCode": "M_SecAct9",
"QuestionDefinition": "Unconditional part of mitigation target for a given sectoral downstream action",
"QuestionText": "Unconditional part of mitigation target",
"Sector": "Energy",
"SubSector": "Clean Cooking and Heating: Efficient cookstoves"
}
]
] |
[
0,
2
] | {
"label": "en-US",
"score": 0.99990201
} | [
1,
1
] | MWI | Malawi | [
2,
0
] | [
[
null,
null
]
] | [
"CW"
] | [
0,
2
] | Reduced dependence of farmers on traditional biomass fuels, which is vulnerable to climate variability. Reduced pressure on forests resources, with reduced impacts from extreme rainfall events. ✔. ✔. ✔. Conservation tillage within for commercial crop farming. Use of conservation or zero tillage farming, resulting in avoided GHG emissions from diesel | Reduced dependence of farmers on traditional biomass fuels, which is vulnerable to climate variability. Reduced pressure on forests resources, with reduced impacts from extreme rainfall events. ✔. ✔. ✔. Conservation tillage within for commercial crop farming. Use of conservation or zero tillage farming, resulting in avoided GHG emissions from diesel use in tractors used in ploughing and tilling before crop planting. MOA. District Agriculture Development Offices, NGOs. US$ 1 million. | [
1,
1
] | [
"Revised First NDC"
] | [
"Conservation tillage within for commercial crop farming--Use of conservation or zero tillage farming, resulting in avoided GHG emissions from diesel use in tractors used in ploughing and tilling before crop planting.\""
] | [
[
{
"Alpha2": "MW",
"OverviewCategory": "Sectoral Mitigation Actions",
"QuestionCode": "M_SecAct9",
"QuestionDefinition": "Unconditional part of mitigation target for a given sectoral downstream action",
"QuestionText": "Unconditional part of mitigation target",
"Sector": "Agriculture",
"SubSector": "Agriculture: General"
},
{
"Alpha2": "MW",
"OverviewCategory": "Sectoral Mitigation Actions",
"QuestionCode": "M_SecAct2",
"QuestionDefinition": "Sectoral downstream actions to be undertaken as part of the NDC contribution",
"QuestionText": "Downstream actions",
"Sector": "Agriculture",
"SubSector": "Agriculture: General"
}
]
] |
[
2,
6
] | {
"label": "en-US",
"score": 0.9999289513
} | [
2,
6
] | RWA | Rwanda | [
8,
0
] | [
[
null,
null,
null,
null
],
[
null,
null,
null,
null
]
] | [
"CW"
] | [
0,
8
] | Reduced dependence on availability of traditional biomass fuels, which is vulnerable to climate variability. Reduced pressure on forests resources, with reduced impacts from extreme rainfall events. Solar pumping for irrigation. Use of solar water pumping systems for irrigation within agricultural production to replace diesel pumps, displacing fossil fuel use and | Reduced dependence on availability of traditional biomass fuels, which is vulnerable to climate variability. Reduced pressure on forests resources, with reduced impacts from extreme rainfall events. Solar pumping for irrigation. Use of solar water pumping systems for irrigation within agricultural production to replace diesel pumps, displacing fossil fuel use and associated GHG emissions. ✔. ✔. MININFRA, MINAGRI (RAB, RWRB). 285 million USD. Reduced dependence on imported energy and increased food security. Conditional measures. Electricity. Solar mini-grids. | [
0,
8
] | [
"Revised First NDC"
] | [
"\"Solar pumping for irrigation Use of solar water pumping systems for irrigation within agricultural production to replace diesel pumps, displacing fossil fuel use and associated GHG emissions.\"",
"\"Solar pumping for irrigation Use of solar water pumping systems for irrigation within agricultural production to replace diesel pumps, displacing fossil fuel use and associated GHG emissions.\": 285 million USD."
] | [
[
{
"Alpha2": "RW",
"OverviewCategory": "Sectoral Mitigation Plans",
"QuestionCode": "M_SecGen3",
"QuestionDefinition": "Information on sectoral plans",
"QuestionText": "Sectoral plans on",
"Sector": "Energy",
"SubSector": "Renewable Energy: Solar"
},
{
"Alpha2": "RW",
"OverviewCategory": "Sectoral Mitigation Plans",
"QuestionCode": "M_SecGen8",
"QuestionDefinition": "Unconditional part of mitigation target for a given sectoral plan",
"QuestionText": "Unconditional part of mitigation target",
"Sector": "Energy",
"SubSector": "Renewable Energy: Solar"
},
{
"Alpha2": "RW",
"OverviewCategory": "Sectoral Mitigation Plans",
"QuestionCode": "M_SecGen3",
"QuestionDefinition": "Information on sectoral plans",
"QuestionText": "Sectoral plans on",
"Sector": "Agriculture",
"SubSector": "Agriculture: General"
},
{
"Alpha2": "RW",
"OverviewCategory": "Sectoral Mitigation Plans",
"QuestionCode": "M_SecGen8",
"QuestionDefinition": "Unconditional part of mitigation target for a given sectoral plan",
"QuestionText": "Unconditional part of mitigation target",
"Sector": "Agriculture",
"SubSector": "Agriculture: General"
}
],
[
{
"Alpha2": "RW",
"OverviewCategory": "Sectoral Mitigation Plans",
"QuestionCode": "M_SecGen5",
"QuestionDefinition": "Estimated total costs of implementation for a given sectoral plan",
"QuestionText": "Estimated total costs for implementation",
"Sector": "Energy",
"SubSector": "Renewable Energy: Solar"
},
{
"Alpha2": "RW",
"OverviewCategory": "Sectoral Mitigation Plans",
"QuestionCode": "M_SecGen9",
"QuestionDefinition": "Estimated cost of implementation for the unconditional part of a given sectoral plan",
"QuestionText": "Estimated costs for implementation (unconditional)",
"Sector": "Energy",
"SubSector": "Renewable Energy: Solar"
},
{
"Alpha2": "RW",
"OverviewCategory": "Sectoral Mitigation Plans",
"QuestionCode": "M_SecGen5",
"QuestionDefinition": "Estimated total costs of implementation for a given sectoral plan",
"QuestionText": "Estimated total costs for implementation",
"Sector": "Agriculture",
"SubSector": "Agriculture: General"
},
{
"Alpha2": "RW",
"OverviewCategory": "Sectoral Mitigation Plans",
"QuestionCode": "M_SecGen9",
"QuestionDefinition": "Estimated cost of implementation for the unconditional part of a given sectoral plan",
"QuestionText": "Estimated costs for implementation (unconditional)",
"Sector": "Agriculture",
"SubSector": "Agriculture: General"
}
]
] |
[
0,
2
] | {
"label": "en-US",
"score": 0.9999142885
} | [
1,
1
] | MWI | Malawi | [
2,
0
] | [
[
null,
null
]
] | [
"CW"
] | [
0,
2
] | Reduced dependence on fossil fuels including imported liquid fuels, the supply and distribution of which are vulnerable to climate impacts both globally and regionally. ✔. ✔. ✔. Grid connected wind power. Displacement of GHG emissions from fossil fuel power generation, including coal-fired, diesel and HFO generation. MOE. (Department of Energy | Reduced dependence on fossil fuels including imported liquid fuels, the supply and distribution of which are vulnerable to climate impacts both globally and regionally. ✔. ✔. ✔. Grid connected wind power. Displacement of GHG emissions from fossil fuel power generation, including coal-fired, diesel and HFO generation. MOE. (Department of Energy Affairs). MERA, EGENCO, ESCOM. US$ 479 million. 100% conditional. | [
1,
1
] | [
"Revised First NDC"
] | [
"\"Grid connected wind power--Displacement of GHG emissions from fossil fuel power generation, including coal-fired, diesel and HFO generation.\""
] | [
[
{
"Alpha2": "MW",
"OverviewCategory": "Sectoral Mitigation Actions",
"QuestionCode": "M_SecAct2",
"QuestionDefinition": "Sectoral downstream actions to be undertaken as part of the NDC contribution",
"QuestionText": "Downstream actions",
"Sector": "Energy",
"SubSector": "Renewable Energy: Wind"
},
{
"Alpha2": "MW",
"OverviewCategory": "Sectoral Mitigation Actions",
"QuestionCode": "M_SecAct11",
"QuestionDefinition": "Conditional part of mitigation target for a given sectoral downstream actions",
"QuestionText": "Conditional part of mitigation target",
"Sector": "Energy",
"SubSector": "Renewable Energy: Wind"
}
]
] |
[
0,
10
] | {
"label": "en-US",
"score": 0.9999302626
} | [
5,
5
] | RWA | Rwanda | [
10,
0
] | [
[
null,
null,
null,
null,
null
],
[
null,
null
],
[
null,
null,
null
]
] | [
"CW"
] | [
0,
10
] | Reduced dependence on imported energy and increased food security. Conditional measures. Electricity. Solar mini-grids. 68 MWp of solar mini-grids to be installed in off-grid rural areas by 2030, as reflected in the Rural Electrification Strategy. Displacement of traditional biomass fuels, diesel and kerosene for domestic energy use. ✔. ✔. ✔. | Reduced dependence on imported energy and increased food security. Conditional measures. Electricity. Solar mini-grids. 68 MWp of solar mini-grids to be installed in off-grid rural areas by 2030, as reflected in the Rural Electrification Strategy. Displacement of traditional biomass fuels, diesel and kerosene for domestic energy use. ✔. ✔. ✔. MININFRA (REG, EDCL). Total costs est. 206 million USD (incl. battery replacements). Reduced dependence on availability of traditional biomass fuels, which is vulnerable to climate variability. Reduced pressure on forests and forest biodiversity. | [
0,
10
] | [
"Revised First NDC"
] | [
"\"Solar mini-grids 68 MWp of solar mini-grids to be installed in off-grid rural areas by 2030, as reflected in the Rural Electrification Strategy. Displacement of traditional biomass fuels, diesel and kerosene for domestic energy use.\"",
"\"Solar mini-grids 68 MWp of solar mini-grids to be installed in off-grid rural areas by 2030, as reflected in the Rural Electrification Strategy. Displacement of traditional biomass fuels, diesel and kerosene for domestic energy use.\": \"Total costs est. 206 million USD (incl. battery replace\u0002ments)\"",
"\"Solar mini-grids 68 MWp of solar mini-grids to be installed in off-grid rural areas by 2030, as reflected in the Rural Electrification Strategy. Displacement of traditional biomass fuels, diesel and kerosene for domestic energy use.\": \"Total costs est. 206 million USD (incl. battery replacements)\""
] | [
[
{
"Alpha2": "RW",
"OverviewCategory": "Sectoral Mitigation Targets",
"QuestionCode": "M_SecTar1",
"QuestionDefinition": "Targets at the sectoral level",
"QuestionText": "Sectoral targets on",
"Sector": "Energy",
"SubSector": "Mini-Grids"
},
{
"Alpha2": "RW",
"OverviewCategory": "Sectoral Mitigation Targets",
"QuestionCode": "M_SecTar10",
"QuestionDefinition": "Conditional part of the mitigation target for a given sectoral target ",
"QuestionText": "Conditional part of mitigation target",
"Sector": "Energy",
"SubSector": "Mini-Grids"
},
{
"Alpha2": "RW",
"OverviewCategory": "Sectoral Mitigation Targets",
"QuestionCode": "M_SecTar1",
"QuestionDefinition": "Targets at the sectoral level",
"QuestionText": "Sectoral targets on",
"Sector": "Energy",
"SubSector": "Renewable Energy: Solar"
},
{
"Alpha2": "RW",
"OverviewCategory": "Sectoral Mitigation Targets",
"QuestionCode": "M_SecTar1",
"QuestionDefinition": "Targets at the sectoral level",
"QuestionText": "Sectoral targets on",
"Sector": "Energy",
"SubSector": "Renewable Energy: Solar: Off-Grid"
},
{
"Alpha2": "RW",
"OverviewCategory": "Sectoral Mitigation Targets",
"QuestionCode": "M_SecTar10",
"QuestionDefinition": "Conditional part of the mitigation target for a given sectoral target ",
"QuestionText": "Conditional part of mitigation target",
"Sector": "Energy",
"SubSector": "Renewable Energy: Solar: Off-Grid"
}
],
[
{
"Alpha2": "RW",
"OverviewCategory": "Sectoral Mitigation Targets",
"QuestionCode": "M_SecTar5",
"QuestionDefinition": "Estimated total cost of implementation for a given sectoral target",
"QuestionText": "Estimated total costs for implementation",
"Sector": "Energy",
"SubSector": "Mini-Grids"
},
{
"Alpha2": "RW",
"OverviewCategory": "Sectoral Mitigation Targets",
"QuestionCode": "M_SecTar11",
"QuestionDefinition": "Estimated cost of implementation for the conditional mitigation part of a given sectoral target",
"QuestionText": "Estimated costs for implementation (conditional)",
"Sector": "Energy",
"SubSector": "Mini-Grids"
}
],
[
{
"Alpha2": "RW",
"OverviewCategory": "Sectoral Mitigation Targets",
"QuestionCode": "M_SecTar5",
"QuestionDefinition": "Estimated total cost of implementation for a given sectoral target",
"QuestionText": "Estimated total costs for implementation",
"Sector": "Energy",
"SubSector": "Renewable Energy: Solar"
},
{
"Alpha2": "RW",
"OverviewCategory": "Sectoral Mitigation Targets",
"QuestionCode": "M_SecTar5",
"QuestionDefinition": "Estimated total cost of implementation for a given sectoral target",
"QuestionText": "Estimated total costs for implementation",
"Sector": "Energy",
"SubSector": "Renewable Energy: Solar: Off-Grid"
},
{
"Alpha2": "RW",
"OverviewCategory": "Sectoral Mitigation Targets",
"QuestionCode": "M_SecTar11",
"QuestionDefinition": "Estimated cost of implementation for the conditional mitigation part of a given sectoral target",
"QuestionText": "Estimated costs for implementation (conditional)",
"Sector": "Energy",
"SubSector": "Renewable Energy: Solar: Off-Grid"
}
]
] |
[
0,
16
] | {
"label": "en-US",
"score": 0.9999216795
} | [
4,
12
] | RWA | Rwanda | [
16,
0
] | [
[
null,
null,
null,
null,
null,
null,
null,
null
],
[
null,
null,
null,
null,
null,
null,
null,
null
]
] | [
"CW"
] | [
0,
16
] | Reduced dependence on imported energy and increased resilience and energy security of buildings, households and companies. Solar water heater (SWH) programme. Installation of solar thermal water heaters within urban residential buildings supported by use of loans and grants to subsidise purchase costs, as part of the National Green Building Code | Reduced dependence on imported energy and increased resilience and energy security of buildings, households and companies. Solar water heater (SWH) programme. Installation of solar thermal water heaters within urban residential buildings supported by use of loans and grants to subsidise purchase costs, as part of the National Green Building Code minium compliance system. MININFRA (RHA, EDCL). SWH costs est. 52 million USD. Support programme est. 8 million USD. Improved climate resilience of buildings and reduced reliance on material and energy consumption, including energy imports. Promotion of on-farm biogas for energy. | [
4,
12
] | [
"Revised First NDC"
] | [
"\"Solar water heater (SWH) programme Installation of solar thermal water heaters within urban residential buildings supported by use of loans and grants to subsidise purchase costs, as part of the National Green Building Code minium compliance system.\"",
"\"Solar water heater (SWH) programme Installation of solar thermal water heaters within urban residential buildings supported by use of loans and grants to subsidise purchase costs, as part of the National Green Building Code minium compliance system.\": \"SWH costs est. 52 million USD. Support programme est. 8 million USD.\""
] | [
[
{
"Alpha2": "RW",
"OverviewCategory": "Sectoral Mitigation Actions",
"QuestionCode": "M_SecAct2",
"QuestionDefinition": "Sectoral downstream actions to be undertaken as part of the NDC contribution",
"QuestionText": "Downstream actions",
"Sector": "Energy",
"SubSector": "Renewable Energy: Solar"
},
{
"Alpha2": "RW",
"OverviewCategory": "Sectoral Mitigation Actions",
"QuestionCode": "M_SecAct11",
"QuestionDefinition": "Conditional part of mitigation target for a given sectoral downstream actions",
"QuestionText": "Conditional part of mitigation target",
"Sector": "Energy",
"SubSector": "Renewable Energy: Solar"
},
{
"Alpha2": "RW",
"OverviewCategory": "Sectoral Mitigation Actions",
"QuestionCode": "M_SecAct2",
"QuestionDefinition": "Sectoral downstream actions to be undertaken as part of the NDC contribution",
"QuestionText": "Downstream actions",
"Sector": "Energy",
"SubSector": "Demand-side Efficiency: Buildings"
},
{
"Alpha2": "RW",
"OverviewCategory": "Sectoral Mitigation Actions",
"QuestionCode": "M_SecAct11",
"QuestionDefinition": "Conditional part of mitigation target for a given sectoral downstream actions",
"QuestionText": "Conditional part of mitigation target",
"Sector": "Energy",
"SubSector": "Demand-side Efficiency: Buildings"
},
{
"Alpha2": "RW",
"OverviewCategory": "Sectoral Mitigation Actions",
"QuestionCode": "M_SecAct2",
"QuestionDefinition": "Sectoral downstream actions to be undertaken as part of the NDC contribution",
"QuestionText": "Downstream actions",
"Sector": "Buildings",
"SubSector": "Buildings: General"
},
{
"Alpha2": "RW",
"OverviewCategory": "Sectoral Mitigation Actions",
"QuestionCode": "M_SecAct11",
"QuestionDefinition": "Conditional part of mitigation target for a given sectoral downstream actions",
"QuestionText": "Conditional part of mitigation target",
"Sector": "Buildings",
"SubSector": "Buildings: General"
},
{
"Alpha2": "RW",
"OverviewCategory": "Sectoral Mitigation Actions",
"QuestionCode": "M_SecAct2",
"QuestionDefinition": "Sectoral downstream actions to be undertaken as part of the NDC contribution",
"QuestionText": "Downstream actions",
"Sector": "Energy",
"SubSector": "Renewable Energy: Solar: Off-Grid"
},
{
"Alpha2": "RW",
"OverviewCategory": "Sectoral Mitigation Actions",
"QuestionCode": "M_SecAct11",
"QuestionDefinition": "Conditional part of mitigation target for a given sectoral downstream actions",
"QuestionText": "Conditional part of mitigation target",
"Sector": "Energy",
"SubSector": "Renewable Energy: Solar: Off-Grid"
}
],
[
{
"Alpha2": "RW",
"OverviewCategory": "Sectoral Mitigation Actions",
"QuestionCode": "M_SecAct6",
"QuestionDefinition": "Estimated total cost of implementation for a given sectoral downstream action (mitigation and adaptation)",
"QuestionText": "Estimated total costs for implementation",
"Sector": "Energy",
"SubSector": "Renewable Energy: Solar"
},
{
"Alpha2": "RW",
"OverviewCategory": "Sectoral Mitigation Actions",
"QuestionCode": "M_SecAct12",
"QuestionDefinition": "Estimated cost of implementation for the conditional part of a given sectoral downstream action ",
"QuestionText": "Estimated costs for implementation (conditional)",
"Sector": "Energy",
"SubSector": "Renewable Energy: Solar"
},
{
"Alpha2": "RW",
"OverviewCategory": "Sectoral Mitigation Actions",
"QuestionCode": "M_SecAct6",
"QuestionDefinition": "Estimated total cost of implementation for a given sectoral downstream action (mitigation and adaptation)",
"QuestionText": "Estimated total costs for implementation",
"Sector": "Energy",
"SubSector": "Demand-side Efficiency: Buildings"
},
{
"Alpha2": "RW",
"OverviewCategory": "Sectoral Mitigation Actions",
"QuestionCode": "M_SecAct12",
"QuestionDefinition": "Estimated cost of implementation for the conditional part of a given sectoral downstream action ",
"QuestionText": "Estimated costs for implementation (conditional)",
"Sector": "Energy",
"SubSector": "Demand-side Efficiency: Buildings"
},
{
"Alpha2": "RW",
"OverviewCategory": "Sectoral Mitigation Actions",
"QuestionCode": "M_SecAct6",
"QuestionDefinition": "Estimated total cost of implementation for a given sectoral downstream action (mitigation and adaptation)",
"QuestionText": "Estimated total costs for implementation",
"Sector": "Buildings",
"SubSector": "Buildings: General"
},
{
"Alpha2": "RW",
"OverviewCategory": "Sectoral Mitigation Actions",
"QuestionCode": "M_SecAct12",
"QuestionDefinition": "Estimated cost of implementation for the conditional part of a given sectoral downstream action ",
"QuestionText": "Estimated costs for implementation (conditional)",
"Sector": "Buildings",
"SubSector": "Buildings: General"
},
{
"Alpha2": "RW",
"OverviewCategory": "Sectoral Mitigation Actions",
"QuestionCode": "M_SecAct6",
"QuestionDefinition": "Estimated total cost of implementation for a given sectoral downstream action (mitigation and adaptation)",
"QuestionText": "Estimated total costs for implementation",
"Sector": "Energy",
"SubSector": "Renewable Energy: Solar: Off-Grid"
},
{
"Alpha2": "RW",
"OverviewCategory": "Sectoral Mitigation Actions",
"QuestionCode": "M_SecAct12",
"QuestionDefinition": "Estimated cost of implementation for the conditional part of a given sectoral downstream action ",
"QuestionText": "Estimated costs for implementation (conditional)",
"Sector": "Energy",
"SubSector": "Renewable Energy: Solar: Off-Grid"
}
]
] |
[
0,
2
] | {
"label": "en-US",
"score": 0.9999258518
} | [
1,
1
] | MWI | Malawi | [
2,
0
] | [
[
null,
null
]
] | [
"CW"
] | [
0,
2
] | Reduced dependence on imported fossil fuels for use in clinker production and promotion of indigenous resources. Increased resilience of the sector through a potential reduction of cement production costs and exposure to energy price volatility. ✔. ✔. ✔. Earth stabilised blocks (ESBs) as building materials Wider promotion of ESBs as | Reduced dependence on imported fossil fuels for use in clinker production and promotion of indigenous resources. Increased resilience of the sector through a potential reduction of cement production costs and exposure to energy price volatility. ✔. ✔. ✔. Earth stabilised blocks (ESBs) as building materials Wider promotion of ESBs as materials within institutional and domestic building projects to replace cement stabilised blocks within construction, reducing emissions from cement production. | [
1,
1
] | [
"Revised First NDC"
] | [
"Earth stabilised blocks (ESBs) as building materials Wider promotion of ESBs as materials within institutional and domestic building projects to replace cement stabilised blocks within construction, reducing emissions from cement production."
] | [
[
{
"Alpha2": "MW",
"OverviewCategory": "Sectoral Mitigation Actions",
"QuestionCode": "M_SecAct2",
"QuestionDefinition": "Sectoral downstream actions to be undertaken as part of the NDC contribution",
"QuestionText": "Downstream actions",
"Sector": "Industries",
"SubSector": "Cement"
},
{
"Alpha2": "MW",
"OverviewCategory": "Sectoral Mitigation Actions",
"QuestionCode": "M_SecAct11",
"QuestionDefinition": "Conditional part of mitigation target for a given sectoral downstream actions",
"QuestionText": "Conditional part of mitigation target",
"Sector": "Industries",
"SubSector": "Cement"
}
]
] |
[
0,
4
] | {
"label": "en-US",
"score": 0.9999301434
} | [
2,
2
] | RWA | Rwanda | [
4,
0
] | [
[
null,
null
],
[
null,
null
]
] | [
"CW"
] | [
0,
4
] | Reduced household expenditure on energy enhances resilience. Efficient cook stoves. Dissemination of modern efficient cook stoves to 80% of the rural population and 50% of the urban population by 2030, achieving a more sustainable balance between supply and demand of biomass, and reducing firewood and fossil energy consumption for cooking. | Reduced household expenditure on energy enhances resilience. Efficient cook stoves. Dissemination of modern efficient cook stoves to 80% of the rural population and 50% of the urban population by 2030, achieving a more sustainable balance between supply and demand of biomass, and reducing firewood and fossil energy consumption for cooking. ✔. ✔. ✔. MININFRA, MOE (EDCL, RFA, FONERWA). 380 million USD (new stoves, training and scheme monitoring). Reduced dependence on availability of traditional biomass fuels, which is vulnerable to climate variability. | [
0,
4
] | [
"Revised First NDC"
] | [
"\"380 million USD (new stoves, training and scheme monitor\u0002ing)\"",
"\"Efficient cook stoves Dissemination of modern efficient cook stoves to 80% of the rural population and 50% of the urban population by 2030, achieving a more sustainable balance between supply and demand of biomass, and reducing firewood and fossil energy consumption for cooking.\""
] | [
[
{
"Alpha2": "RW",
"OverviewCategory": "Sectoral Mitigation Targets",
"QuestionCode": "M_SecTar5",
"QuestionDefinition": "Estimated total cost of implementation for a given sectoral target",
"QuestionText": "Estimated total costs for implementation",
"Sector": "Energy",
"SubSector": "Clean Cooking and Heating: Efficient cookstoves"
},
{
"Alpha2": "RW",
"OverviewCategory": "Sectoral Mitigation Targets",
"QuestionCode": "M_SecTar9",
"QuestionDefinition": "Estimated cost of implementation for the unconditional part of a given sectoral target",
"QuestionText": "Estimated costs for implementation (unconditional)",
"Sector": "Energy",
"SubSector": "Clean Cooking and Heating: Efficient cookstoves"
}
],
[
{
"Alpha2": "RW",
"OverviewCategory": "Sectoral Mitigation Targets",
"QuestionCode": "M_SecTar1",
"QuestionDefinition": "Targets at the sectoral level",
"QuestionText": "Sectoral targets on",
"Sector": "Energy",
"SubSector": "Clean Cooking and Heating: Efficient cookstoves"
},
{
"Alpha2": "RW",
"OverviewCategory": "Sectoral Mitigation Targets",
"QuestionCode": "M_SecTar8",
"QuestionDefinition": "Unconditional part of the mitigation effort for a given sectoral target",
"QuestionText": "Unconditional part of mitigation target",
"Sector": "Energy",
"SubSector": "Clean Cooking and Heating: Efficient cookstoves"
}
]
] |
[
3,
7
] | {
"label": "en-US",
"score": 0.9999312162
} | [
0,
10
] | ZMB | Zambia | [
0,
10
] | [
[
null,
null
],
[
null
],
[
null
],
[
null
],
[
null
],
[
null
],
[
null
],
[
null
],
[
null
]
] | [
"CW"
] | [
10,
0
] | Reduced human safety hazards through disaster prevention. Reduced maintenance costs for infrastructure. Increased poverty reduction and more balanced national development. 5.Mainstream climate change in the National Health Policy, Environmental Health (EH) Policy, and Water and Sanitation Policy. 5.1 Identify entry points for mainstreaming climate change adaptation into the three policies | Reduced human safety hazards through disaster prevention. Reduced maintenance costs for infrastructure. Increased poverty reduction and more balanced national development. 5.Mainstream climate change in the National Health Policy, Environmental Health (EH) Policy, and Water and Sanitation Policy. 5.1 Identify entry points for mainstreaming climate change adaptation into the three policies (e.g., policy formation and revision, national planning processes, resource allocation processes, etc.) | [
5,
5
] | [
"First NDC",
"INDC"
] | [
"Embedding NbS into adaptation planning and policy",
"Mainstream climate change in the National Health Policy, Environmental Health (EH) Policy, and Water and Sanitation Policy: “Conduct mainstreaming awareness programes.” (p. 9)",
"Mainstream climate change in the National Health Policy, Environmental Health (EH) Policy, and Water and Sanitation Policy: “Establish an inter-departmental and sectoral coordination mechanism” (p. 9)",
"Mainstream climate change in the National Health Policy, Environmental Health (EH) Policy, and Water and Sanitation Policy: “Finalize the EH policy” (p. 9)",
"Mainstream climate change in the National Health Policy, Environmental Health (EH) Policy, and Water and Sanitation Policy: “Identify entry points for mainstreaming climate change adaptation into the three policies (e.g., policy formation and revision, national planning processes, resource allocation processes, etc.)” (p. 9)",
"Mainstream climate change in the National Health Policy, Environmental Health (EH) Policy, and Water and Sanitation Policy: “Strengthen health surveillance at all levels” (p. 9)",
"Environmental Health (EH) Policy",
"National Health Policy",
"Water and Sanitation Policy"
] | [
[
{
"Alpha2": "ZM",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "GCA_subsector",
"QuestionDefinition": "GCA_subsector",
"QuestionText": "Adapt Now subsector",
"Sector": "Environment",
"SubSector": "Ecosystem and biodiversity"
},
{
"Alpha2": "ZM",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "GCA_subsector",
"QuestionDefinition": "GCA_subsector",
"QuestionText": "Adapt Now subsector",
"Sector": "Environment",
"SubSector": "Watershed and river basin management"
}
],
[
{
"Alpha2": "ZM",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Health",
"SubSector": "Awareness raising and behavior change"
}
],
[
{
"Alpha2": "ZM",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Health",
"SubSector": "Health: General"
}
],
[
{
"Alpha2": "ZM",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Health",
"SubSector": "Health services and assessment"
}
],
[
{
"Alpha2": "ZM",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Health",
"SubSector": "Health services and assessment"
}
],
[
{
"Alpha2": "ZM",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Health",
"SubSector": "Disease surveillance and control"
}
],
[
{
"Alpha2": "ZM",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "A_Sc_Pol",
"QuestionDefinition": "Sectoral plans and strategies for adaptation.",
"QuestionText": "Sectoral Policies",
"Sector": "Environment",
"SubSector": "Ecosystem and biodiversity"
}
],
[
{
"Alpha2": "ZM",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "A_Sc_Pol",
"QuestionDefinition": "Sectoral plans and strategies for adaptation.",
"QuestionText": "Sectoral Policies",
"Sector": "Health",
"SubSector": "Disease surveillance and control"
}
],
[
{
"Alpha2": "ZM",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "A_Sc_Pol",
"QuestionDefinition": "Sectoral plans and strategies for adaptation.",
"QuestionText": "Sectoral Policies",
"Sector": "Water",
"SubSector": "Water sanitation"
}
]
] |
[
0,
2
] | {
"label": "en-US",
"score": 0.9999345541
} | [
0,
2
] | KGZ | Kyrgyzstan | [
0,
2
] | [
[
null
],
[
null
]
] | [
"CW"
] | [
2,
0
] | Reduced morbidity and mortality of the population from the negative effects of climate change. Measure 4.3.2 Reducing the prevalence of diseases associated with poor nutritional status of the population due to climate change. Measure 4.3.3. Reducing the vulnerability of the population to food poisoning due to climate change factors. Measure | Reduced morbidity and mortality of the population from the negative effects of climate change. Measure 4.3.2 Reducing the prevalence of diseases associated with poor nutritional status of the population due to climate change. Measure 4.3.3. Reducing the vulnerability of the population to food poisoning due to climate change factors. Measure 4.3.4. Reducing the prevalence of infectious, parasitic and vector-borne diseases. Measure 4.3.5. | [
2,
0
] | [
"Revised First NDC"
] | [
"Health care: “Reducing the prevalence of diseases associated with poor nutritional status of the population due to climate change” (p. 34)",
"Health care: “Reducing the vulnerability of the population to food poisoning due to climate change factors” (p. 34)"
] | [
[
{
"Alpha2": "KG",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Health",
"SubSector": "Malnutrition"
}
],
[
{
"Alpha2": "KG",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Health",
"SubSector": "Health: General"
}
]
] |
[
2,
2
] | {
"label": "en-US",
"score": 0.9999316931
} | [
0,
4
] | KHM | Cambodia | [
4,
0
] | [
[
null,
null
],
[
null,
null
]
] | [
"CW"
] | [
0,
4
] | Reduced odour nuisance 3. Local organic fertilizer production (bioslurry). Less leachate leakage from landfill. less landfill space required. Implementation of National 3R strategy. MoE. Achieving a recycle process with an environmental and economic purpose contributes to the goal of the environment and sustainability. Centralized recycling facility for industrial waste from | Reduced odour nuisance 3. Local organic fertilizer production (bioslurry). Less leachate leakage from landfill. less landfill space required. Implementation of National 3R strategy. MoE. Achieving a recycle process with an environmental and economic purpose contributes to the goal of the environment and sustainability. Centralized recycling facility for industrial waste from the garment sector. MISTI. | [
2,
2
] | [
"Revised First NDC"
] | [
"\"Centralized recycling facility for industrial waste from the garment sector\"",
"\"Implementation of National 3R strategy\""
] | [
[
{
"Alpha2": "KH",
"OverviewCategory": "Sectoral Mitigation Actions",
"QuestionCode": "M_SecAct2",
"QuestionDefinition": "Sectoral downstream actions to be undertaken as part of the NDC contribution",
"QuestionText": "Downstream actions",
"Sector": "Industries",
"SubSector": "Industries: General"
},
{
"Alpha2": "KH",
"OverviewCategory": "Sectoral Mitigation Actions",
"QuestionCode": "M_SecAct2",
"QuestionDefinition": "Sectoral downstream actions to be undertaken as part of the NDC contribution",
"QuestionText": "Downstream actions",
"Sector": "Waste",
"SubSector": "Recycling, Reuse, Reduce"
}
],
[
{
"Alpha2": "KH",
"OverviewCategory": "Sectoral Mitigation Policies",
"QuestionCode": "M_SecPol3",
"QuestionDefinition": "Information on upstream policies for a given sector",
"QuestionText": "Upstream policies on",
"Sector": "Waste",
"SubSector": "Recycling, Reuse, Reduce"
},
{
"Alpha2": "KH",
"OverviewCategory": "Sectoral Mitigation Policies",
"QuestionCode": "M_SecPol3",
"QuestionDefinition": "Information on upstream policies for a given sector",
"QuestionText": "Upstream policies on",
"Sector": "Waste",
"SubSector": "Solid Waste"
}
]
] |
[
0,
2
] | {
"label": "en-US",
"score": 0.9999027252
} | [
1,
1
] | MWI | Malawi | [
2,
0
] | [
[
null,
null
]
] | [
"CW"
] | [
0,
2
] | Reduced pressure on forests resources, with reduced impacts from extreme rainfall events. ✔. ✔. ✔. Clean Coal technology - high efficiency coal-fired power plant Installation of highly efficient super ultracritical coal plant, resultsing in reduced GHG emissions from coal use in electricity generation. MOE (Department of Energy Affairs). MERA, EGENCO, | Reduced pressure on forests resources, with reduced impacts from extreme rainfall events. ✔. ✔. ✔. Clean Coal technology - high efficiency coal-fired power plant Installation of highly efficient super ultracritical coal plant, resultsing in reduced GHG emissions from coal use in electricity generation. MOE (Department of Energy Affairs). MERA, EGENCO, ESCOM, IPPs,. Department of Mines, private sector (mining companies). US$ 7.5 billion. 100% conditional. | [
1,
1
] | [
"Revised First NDC"
] | [
"\"Clean Coal technology-high efficiency coal-fired power plant--Installation of highly efficient super ultracritical coal plan, resulting in reduced GHG emissions from coal use in electricity generation\""
] | [
[
{
"Alpha2": "MW",
"OverviewCategory": "Sectoral Mitigation Actions",
"QuestionCode": "M_SecAct2",
"QuestionDefinition": "Sectoral downstream actions to be undertaken as part of the NDC contribution",
"QuestionText": "Downstream actions",
"Sector": "Energy",
"SubSector": "Supply-side Efficiency: Power generation efficiency improvement"
},
{
"Alpha2": "MW",
"OverviewCategory": "Sectoral Mitigation Actions",
"QuestionCode": "M_SecAct11",
"QuestionDefinition": "Conditional part of mitigation target for a given sectoral downstream actions",
"QuestionText": "Conditional part of mitigation target",
"Sector": "Energy",
"SubSector": "Supply-side Efficiency: Power generation efficiency improvement"
}
]
] |
[
2,
4
] | {
"label": "en-US",
"score": 0.9999215603
} | [
2,
4
] | RWA | Rwanda | [
6,
0
] | [
[
null,
null
],
[
null,
null
],
[
null,
null
]
] | [
"CW"
] | [
0,
6
] | Reduced reliance on biomass energy and related air pollution. Reduced pressure on forests. Energy efficient cement production. Use of waste heat recovery (WHR) and increased use of rice husks as fuel within clinker production. ✔. ✔. MINICOM, MOE (REMA, CCL). 11 million USD. Increased resilience of cement industry. Reduced reliance | Reduced reliance on biomass energy and related air pollution. Reduced pressure on forests. Energy efficient cement production. Use of waste heat recovery (WHR) and increased use of rice husks as fuel within clinker production. ✔. ✔. MINICOM, MOE (REMA, CCL). 11 million USD. Increased resilience of cement industry. Reduced reliance on imported energy supply. Transport. Vehicle emissions standards. Measures introduced to increase vehicle emissions performance of national vehicle fleet, including tax incentives and scrappage of older vehicles, and inspection. Reduction of GHG and local emissions from gasoline and diesel use. | [
0,
6
] | [
"Revised First NDC"
] | [
"\"Energy efficient cement production Use of waste heat recovery (WHR) and increased use of rice husks as fuel within clinker production\"",
"\"Energy efficient cement production Use of waste heat recovery (WHR) and increased use of rice husks as fuel within clinker production\": 11 million USD",
"\"Vehicle emissions standards Measures introduced to increase vehicle emissions performance of national vehicle fleet, including tax incentives and scrappage of older vehicles, and inspection. Reduction of GHG and local emissions from gasoline and diesel use.\""
] | [
[
{
"Alpha2": "RW",
"OverviewCategory": "Sectoral Mitigation Plans",
"QuestionCode": "M_SecGen3",
"QuestionDefinition": "Information on sectoral plans",
"QuestionText": "Sectoral plans on",
"Sector": "Industries",
"SubSector": "Cement"
},
{
"Alpha2": "RW",
"OverviewCategory": "Sectoral Mitigation Plans",
"QuestionCode": "M_SecGen8",
"QuestionDefinition": "Unconditional part of mitigation target for a given sectoral plan",
"QuestionText": "Unconditional part of mitigation target",
"Sector": "Industries",
"SubSector": "Cement"
}
],
[
{
"Alpha2": "RW",
"OverviewCategory": "Sectoral Mitigation Plans",
"QuestionCode": "M_SecGen5",
"QuestionDefinition": "Estimated total costs of implementation for a given sectoral plan",
"QuestionText": "Estimated total costs for implementation",
"Sector": "Industries",
"SubSector": "Cement"
},
{
"Alpha2": "RW",
"OverviewCategory": "Sectoral Mitigation Plans",
"QuestionCode": "M_SecGen9",
"QuestionDefinition": "Estimated cost of implementation for the unconditional part of a given sectoral plan",
"QuestionText": "Estimated costs for implementation (unconditional)",
"Sector": "Industries",
"SubSector": "Cement"
}
],
[
{
"Alpha2": "RW",
"OverviewCategory": "Sectoral Mitigation Policies",
"QuestionCode": "M_SecPol3",
"QuestionDefinition": "Information on upstream policies for a given sector",
"QuestionText": "Upstream policies on",
"Sector": "Transport",
"SubSector": "Vehicle Fleet"
},
{
"Alpha2": "RW",
"OverviewCategory": "Sectoral Mitigation Policies",
"QuestionCode": "M_SecPol10",
"QuestionDefinition": "Unconditional part of mitigation target for a given upstream sectoral policy",
"QuestionText": "Unconditional part of mitigation target",
"Sector": "Transport",
"SubSector": "Vehicle Fleet"
}
]
] |
[
4,
6
] | {
"label": "en-US",
"score": 0.9999165535
} | [
4,
6
] | RWA | Rwanda | [
10,
0
] | [
[
null,
null,
null,
null
],
[
null,
null,
null,
null
],
[
null,
null
]
] | [
"CW"
] | [
0,
10
] | Reduced reliance on grid-based power generation and infrastructure, and imported energy. Manufacturing industry. Energy efficiency in agro-processing. A range of energy efficiency measures focused on reducing firewood and electricity consumption in the coffee and tea sector. ✔. ✔. MINICOM (NIRDA, NAEB). 2 million USD. Increased resilience of tea and. coffee | Reduced reliance on grid-based power generation and infrastructure, and imported energy. Manufacturing industry. Energy efficiency in agro-processing. A range of energy efficiency measures focused on reducing firewood and electricity consumption in the coffee and tea sector. ✔. ✔. MINICOM (NIRDA, NAEB). 2 million USD. Increased resilience of tea and. coffee plantations. Reduced pressure on forests resources, with reduced impacts from extreme rainfall events. Climate compatible mining. Phasing out of diesel gensets for on-site electricity consumption, to be replaced with grid and/or on-site renewable power production. MOE. (RMB, mining companies). | [
0,
10
] | [
"Revised First NDC"
] | [
"\"Climate compatible mining Phasing out of diesel gensets for on-site electricity consumption, to be replaced with grid and/or on-site renewable power production\"",
"\"Energy efficiency in agro-processing A range of energy efficiency measures focused on reducing firewood and electricity consumption in the coffee and tea sector.\"",
"\"Energy efficiency in agro-processing\": \"2 million USD\""
] | [
[
{
"Alpha2": "RW",
"OverviewCategory": "Sectoral Mitigation Plans",
"QuestionCode": "M_SecGen3",
"QuestionDefinition": "Information on sectoral plans",
"QuestionText": "Sectoral plans on",
"Sector": "Industries",
"SubSector": "Industries: General"
},
{
"Alpha2": "RW",
"OverviewCategory": "Sectoral Mitigation Plans",
"QuestionCode": "M_SecGen8",
"QuestionDefinition": "Unconditional part of mitigation target for a given sectoral plan",
"QuestionText": "Unconditional part of mitigation target",
"Sector": "Industries",
"SubSector": "Industries: General"
},
{
"Alpha2": "RW",
"OverviewCategory": "Sectoral Mitigation Plans",
"QuestionCode": "M_SecGen3",
"QuestionDefinition": "Information on sectoral plans",
"QuestionText": "Sectoral plans on",
"Sector": "Energy",
"SubSector": "Renewable Energy"
},
{
"Alpha2": "RW",
"OverviewCategory": "Sectoral Mitigation Plans",
"QuestionCode": "M_SecGen8",
"QuestionDefinition": "Unconditional part of mitigation target for a given sectoral plan",
"QuestionText": "Unconditional part of mitigation target",
"Sector": "Energy",
"SubSector": "Renewable Energy"
}
],
[
{
"Alpha2": "RW",
"OverviewCategory": "Sectoral Mitigation Plans",
"QuestionCode": "M_SecGen3",
"QuestionDefinition": "Information on sectoral plans",
"QuestionText": "Sectoral plans on",
"Sector": "Energy",
"SubSector": "Demand-side Efficiency: Industries"
},
{
"Alpha2": "RW",
"OverviewCategory": "Sectoral Mitigation Plans",
"QuestionCode": "M_SecGen8",
"QuestionDefinition": "Unconditional part of mitigation target for a given sectoral plan",
"QuestionText": "Unconditional part of mitigation target",
"Sector": "Energy",
"SubSector": "Demand-side Efficiency: Industries"
},
{
"Alpha2": "RW",
"OverviewCategory": "Sectoral Mitigation Plans",
"QuestionCode": "M_SecGen3",
"QuestionDefinition": "Information on sectoral plans",
"QuestionText": "Sectoral plans on",
"Sector": "Industries",
"SubSector": "Industries: General"
},
{
"Alpha2": "RW",
"OverviewCategory": "Sectoral Mitigation Plans",
"QuestionCode": "M_SecGen8",
"QuestionDefinition": "Unconditional part of mitigation target for a given sectoral plan",
"QuestionText": "Unconditional part of mitigation target",
"Sector": "Industries",
"SubSector": "Industries: General"
}
],
[
{
"Alpha2": "RW",
"OverviewCategory": "Sectoral Mitigation Plans",
"QuestionCode": "M_SecGen5",
"QuestionDefinition": "Estimated total costs of implementation for a given sectoral plan",
"QuestionText": "Estimated total costs for implementation",
"Sector": "Industries",
"SubSector": "Industries: General"
},
{
"Alpha2": "RW",
"OverviewCategory": "Sectoral Mitigation Plans",
"QuestionCode": "M_SecGen9",
"QuestionDefinition": "Estimated cost of implementation for the unconditional part of a given sectoral plan",
"QuestionText": "Estimated costs for implementation (unconditional)",
"Sector": "Industries",
"SubSector": "Industries: General"
}
]
] |
[
0,
2
] | {
"label": "en-US",
"score": 0.9999340773
} | [
1,
1
] | BOL | Bolivia | [
0,
2
] | [
[
null
],
[
null
]
] | [
"CW"
] | [
2,
0
] | Reduced the Unsatisfied Basic Needs (NBI) for electricity coverage from 14.6% in 2010 to 3% by 2025. Develop the export potential of electricity, generated mainly by renewable energies, reaching to export an estimated 8,930 MW by 2030, increasing energy state income. Reduce moderate poverty to 13.4% in 2030 and eradicated | Reduced the Unsatisfied Basic Needs (NBI) for electricity coverage from 14.6% in 2010 to 3% by 2025. Develop the export potential of electricity, generated mainly by renewable energies, reaching to export an estimated 8,930 MW by 2030, increasing energy state income. Reduce moderate poverty to 13.4% in 2030 and eradicated extreme poverty by 2025, according to impact, among others, of the generation and energy coverage, including growth, distribution and redistribution of energy income. | [
0,
2
] | [
"First NDC",
"INDC"
] | [
"2025",
"Develop the export potential of electricity, generated mainly by renewable energies, reaching to export an estimated 8,930 MW by 2030, increasing energy state income."
] | [
[
{
"Alpha2": "BO",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_time",
"QuestionDefinition": "Time frame",
"QuestionText": "Time frame",
"Sector": "Water",
"SubSector": "Infrastructure"
}
],
[
{
"Alpha2": "BO",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "A_Sc_Tar",
"QuestionDefinition": "Adaptation targets/ objectives at the sectoral level",
"QuestionText": "Sectoral Target",
"Sector": "Energy",
"SubSector": "Renewable energy"
}
]
] |
[
0,
2
] | {
"label": "en-US",
"score": 0.9999072552
} | [
2,
0
] | KHM | Cambodia | [
2,
0
] | [
[
null,
null
]
] | [
"CW"
] | [
0,
2
] | Reducing GHG emission though avoiding the extraction of the forest from Angkor conservation park and Kulen conservation park for housing, fire wood consumption, and agriculture land. 20 communes of Prasat Bakong district, Kulen District, Norkor. Krav District, and. Banteay Srey. District, of Siem Reap Province integration of climate change into. | Reducing GHG emission though avoiding the extraction of the forest from Angkor conservation park and Kulen conservation park for housing, fire wood consumption, and agriculture land. 20 communes of Prasat Bakong district, Kulen District, Norkor. Krav District, and. Banteay Srey. District, of Siem Reap Province integration of climate change into. financial. management,. institutional arrangement and policy reform by. 2030. 1. Improve knowledge of local governance on impact of climate change will lead to mitigate GHG emission 2. NCDD will also implement ESS, Gender, M&E along with climate action. | [
0,
2
] | [
"Revised First NDC"
] | [
"\"Eco-payment based on changing behavior on fire wood use of community in Angkor and Kulen Conservation Park\": \"20 communes of Prasat Bakong district, Kulen District, Norkor Krav District, and Banteay Srey District, of Siem Reap Province integration of climate change into financial management, institutional arrangement and policy reform by 2030\""
] | [
[
{
"Alpha2": "KH",
"OverviewCategory": "Sectoral Mitigation Targets",
"QuestionCode": "M_SecTar1",
"QuestionDefinition": "Targets at the sectoral level",
"QuestionText": "Sectoral targets on",
"Sector": "LULUCF/Forestry",
"SubSector": "REDD+"
},
{
"Alpha2": "KH",
"OverviewCategory": "Sectoral Mitigation Targets",
"QuestionCode": "M_SecTar1",
"QuestionDefinition": "Targets at the sectoral level",
"QuestionText": "Sectoral targets on",
"Sector": "LULUCF/Forestry",
"SubSector": "Conservation"
}
]
] |
[
1,
0
] | {
"label": "en-US",
"score": 0.9999343157
} | [
1,
1
] | BRN | Brunei | [
1,
1
] | [
[
"{'annex_type': 'Non-Annex I', 'IkiSheet': 'targets', 'page_number': nan, 'renewable_energy_target': nan, 'transport_target_type': nan, 'target_year': nan, 'country_netzero target_exists': nan, 'country_summary_transport_targets': nan, 'target_type': 'T_BAU', 'oecd': 'non-OECD', 'income_group': 'High-income', 'g7': 0, 'mena': 0, 'region': 'Asia', 'parameter': 'T_Economy_Unc', 'ice_phaseout': nan, 'country_long-term_target_exists': nan, 'ghg_total': 7.020439326907, 'ghg_transport_target_type': nan, 'g20': 0, 'target_scope': nan, 'ghg_transport': 1.52060336}"
],
[
null
]
] | [
"CW",
"IKITracs"
] | [
0,
2
] | Reducing GHG emissions contribution from the power sector would be achieved by increasing energy efficiency and conservation at both supply and demand side. Increasing the efficiency in power generation can be done through the reduction of partial load operation, improvement of transmission and distribution losses, implementation of minimum efficiency of | Reducing GHG emissions contribution from the power sector would be achieved by increasing energy efficiency and conservation at both supply and demand side. Increasing the efficiency in power generation can be done through the reduction of partial load operation, improvement of transmission and distribution losses, implementation of minimum efficiency of 48% for all new power plants, and reduction of gas consumption through the integration of renewable and alternative energy so as to meet domestic power demand. | [
0,
1
] | [
"First NDC"
] | [
"63% reduction in total energy consumption by 2035 BAU",
"\"Reducing GHG emissions contribution from the power sector would be achieved by increasing energy efficiency and conservation at both supply and demand side. Increasing the efficiency in power generation can be done through the reduction of partial load operation, improvement of transmission and distribution losses, implementation of minimum efficiency of 48% for all new power plants, and reduction of gas consumption through the integration of renewable and alternative energy so as to meet domestic power demand.\""
] | [
[
null
],
[
{
"Alpha2": "BN",
"OverviewCategory": "Sectoral Mitigation Plans",
"QuestionCode": "M_SecGen3",
"QuestionDefinition": "Information on sectoral plans",
"QuestionText": "Sectoral plans on",
"Sector": "Energy",
"SubSector": "Energy Efficiency"
}
]
] |
[
0,
11
] | {
"label": "en-US",
"score": 0.9999254942
} | [
0,
11
] | LSO | Lesotho | [
0,
11
] | [
[
null,
null,
null,
null,
null
],
[
null,
null,
null,
null,
null
],
[
null
]
] | [
"CW"
] | [
11,
0
] | Reducing Vulnerability from climate change in the Foothills, Lowlands and the Lower Senqu River Basin. 26,000. 8,400. GEF. Improvement of Early Warning System to Reduce Impacts of Climate Change and Capacity Building to Integrate Climate Change into Development Plans. 1,600. 1,800. GEF. Strengthening Capacity for climate change adaptation through support | Reducing Vulnerability from climate change in the Foothills, Lowlands and the Lower Senqu River Basin. 26,000. 8,400. GEF. Improvement of Early Warning System to Reduce Impacts of Climate Change and Capacity Building to Integrate Climate Change into Development Plans. 1,600. 1,800. GEF. Strengthening Capacity for climate change adaptation through support to integrated watershed management programme in Lesotho. 7,800. 3,600. GEF. Adaptation of Small-scale Agriculture Production. 13,000. 4,300. GEF. | [
1,
10
] | [
"INDC"
] | [
"GEF",
"Government, GEF",
"Strengthening Capacity for climate change adaptation through support to integrated watershed management programme in Lesotho"
] | [
[
{
"Alpha2": "LS",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "A_Sc_UncActDon",
"QuestionDefinition": "The funders for sectoral unconditional actions",
"QuestionText": "Funders for Sectoral Unconditional Actions",
"Sector": "Agriculture",
"SubSector": "Climate smart agriculture"
},
{
"Alpha2": "LS",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "A_Sc_UncActDon",
"QuestionDefinition": "The funders for sectoral unconditional actions",
"QuestionText": "Funders for Sectoral Unconditional Actions",
"Sector": "Agriculture",
"SubSector": "Food security"
},
{
"Alpha2": "LS",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "A_Sc_UncActDon",
"QuestionDefinition": "The funders for sectoral unconditional actions",
"QuestionText": "Funders for Sectoral Unconditional Actions",
"Sector": "Disaster Risk Management (DRM)",
"SubSector": "Early warning system"
},
{
"Alpha2": "LS",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "A_Sc_UncActDon",
"QuestionDefinition": "The funders for sectoral unconditional actions",
"QuestionText": "Funders for Sectoral Unconditional Actions",
"Sector": "Environment",
"SubSector": "Watershed and river basin management"
},
{
"Alpha2": "LS",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "A_Sc_UncActDon",
"QuestionDefinition": "The funders for sectoral unconditional actions",
"QuestionText": "Funders for Sectoral Unconditional Actions",
"Sector": "LULUCF/Forestry",
"SubSector": "Sustainable land management"
}
],
[
{
"Alpha2": "LS",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "A_Sc_UncActImp",
"QuestionDefinition": "The agency responsible for implementing the sectoral unconditional actions",
"QuestionText": "Implementing Agency for Sectoral Unconditional Actions",
"Sector": "Agriculture",
"SubSector": "Climate smart agriculture"
},
{
"Alpha2": "LS",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "A_Sc_UncActImp",
"QuestionDefinition": "The agency responsible for implementing the sectoral unconditional actions",
"QuestionText": "Implementing Agency for Sectoral Unconditional Actions",
"Sector": "Agriculture",
"SubSector": "Food security"
},
{
"Alpha2": "LS",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "A_Sc_UncActImp",
"QuestionDefinition": "The agency responsible for implementing the sectoral unconditional actions",
"QuestionText": "Implementing Agency for Sectoral Unconditional Actions",
"Sector": "Disaster Risk Management (DRM)",
"SubSector": "Early warning system"
},
{
"Alpha2": "LS",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "A_Sc_UncActImp",
"QuestionDefinition": "The agency responsible for implementing the sectoral unconditional actions",
"QuestionText": "Implementing Agency for Sectoral Unconditional Actions",
"Sector": "Environment",
"SubSector": "Watershed and river basin management"
},
{
"Alpha2": "LS",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "A_Sc_UncActImp",
"QuestionDefinition": "The agency responsible for implementing the sectoral unconditional actions",
"QuestionText": "Implementing Agency for Sectoral Unconditional Actions",
"Sector": "LULUCF/Forestry",
"SubSector": "Sustainable land management"
}
],
[
{
"Alpha2": "LS",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "A_Sc_UncAct",
"QuestionDefinition": "Unconditional sectoral actions",
"QuestionText": "Sectoral Unconditional Actions",
"Sector": "Environment",
"SubSector": "Watershed and river basin management"
}
]
] |
[
0,
7
] | {
"label": "en-US",
"score": 0.9999331236
} | [
0,
7
] | VNM | Vietnam | [
7,
0
] | [
[
null
],
[
null
],
[
null
],
[
null
],
[
null
],
[
null
],
[
null
]
] | [
"CW"
] | [
0,
7
] | Reducing clinker content and implementing other measures to reduce GHG emissions in cement production; and. Developing and using energy-saving construction materials and green materials in housing and commercial sectors. 2.4.2 Agriculture. Applying management and technology solutions in cultivation and husbandry; improving diets for animals; shifting crop production structures; changing land-use | Reducing clinker content and implementing other measures to reduce GHG emissions in cement production; and. Developing and using energy-saving construction materials and green materials in housing and commercial sectors. 2.4.2 Agriculture. Applying management and technology solutions in cultivation and husbandry; improving diets for animals; shifting crop production structures; changing land-use methods; and. Applying technology to treat and reuse by-products and waste in agriculture and livestock production; developing organic agriculture. 2.4.3 LULUCF. Protecting, conserving and sustainably using forests and forest land to increase carbon sequestration and forest certification;. | [
7,
0
] | [
"Revised First NDC"
] | [
"\"Applying management and technology solutions in cultivation and husbandry",
"\"Developing and using energy-saving construction materials and green materials in housing and commercial sectors\"",
"Applying technology to treat and reuse by-products and waste in agriculture and livestock production",
"changing land-use methods\"",
"developing organic agriculture.\"",
"improving diets for animals\"",
"shifting crop production structures"
] | [
[
{
"Alpha2": "VN",
"OverviewCategory": "Sectoral Mitigation Actions",
"QuestionCode": "M_SecAct2",
"QuestionDefinition": "Sectoral downstream actions to be undertaken as part of the NDC contribution",
"QuestionText": "Downstream actions",
"Sector": "Agriculture",
"SubSector": "Agriculture: General"
}
],
[
{
"Alpha2": "VN",
"OverviewCategory": "Sectoral Mitigation Actions",
"QuestionCode": "M_SecAct2",
"QuestionDefinition": "Sectoral downstream actions to be undertaken as part of the NDC contribution",
"QuestionText": "Downstream actions",
"Sector": "Energy",
"SubSector": "Demand-side Efficiency: Buildings"
}
],
[
{
"Alpha2": "VN",
"OverviewCategory": "Sectoral Mitigation Actions",
"QuestionCode": "M_SecAct2",
"QuestionDefinition": "Sectoral downstream actions to be undertaken as part of the NDC contribution",
"QuestionText": "Downstream actions",
"Sector": "Agriculture",
"SubSector": "Agricultural Waste"
}
],
[
{
"Alpha2": "VN",
"OverviewCategory": "Sectoral Mitigation Actions",
"QuestionCode": "M_SecAct2",
"QuestionDefinition": "Sectoral downstream actions to be undertaken as part of the NDC contribution",
"QuestionText": "Downstream actions",
"Sector": "Agriculture",
"SubSector": "Agriculture: General"
}
],
[
{
"Alpha2": "VN",
"OverviewCategory": "Sectoral Mitigation Actions",
"QuestionCode": "M_SecAct2",
"QuestionDefinition": "Sectoral downstream actions to be undertaken as part of the NDC contribution",
"QuestionText": "Downstream actions",
"Sector": "Agriculture",
"SubSector": "Agricultural Waste"
}
],
[
{
"Alpha2": "VN",
"OverviewCategory": "Sectoral Mitigation Actions",
"QuestionCode": "M_SecAct2",
"QuestionDefinition": "Sectoral downstream actions to be undertaken as part of the NDC contribution",
"QuestionText": "Downstream actions",
"Sector": "Agriculture",
"SubSector": "Livestock"
}
],
[
{
"Alpha2": "VN",
"OverviewCategory": "Sectoral Mitigation Actions",
"QuestionCode": "M_SecAct2",
"QuestionDefinition": "Sectoral downstream actions to be undertaken as part of the NDC contribution",
"QuestionText": "Downstream actions",
"Sector": "Agriculture",
"SubSector": "Agriculture: General"
}
]
] |
[
2,
1
] | {
"label": "en-US",
"score": 0.9999363422
} | [
1,
2
] | IDN | Indonesia | [
3,
0
] | [
[
null
],
[
null
],
[
null
]
] | [
"CW"
] | [
0,
3
] | Reducing emission from degraded peatland are carried out through rewetting and revegetation (peatland restoration). Under the BAU, it is assumed no restoration activities. Under CM1 and CM2, peat restoration will reach 2 million ha by 2030. Assumption for peatland restoration. Rate of peat decomposition is assumed to be zero in | Reducing emission from degraded peatland are carried out through rewetting and revegetation (peatland restoration). Under the BAU, it is assumed no restoration activities. Under CM1 and CM2, peat restoration will reach 2 million ha by 2030. Assumption for peatland restoration. Rate of peat decomposition is assumed to be zero in the restored peatland as the peat condition will be the same as/closed to natural condition. | [
0,
3
] | [
"Revised First NDC"
] | [
"\"Reducing emission from degraded peatland are carried out through rewetting and revegetation (peatland restoration). \"",
"\"Restoration of degraded mangroves and peatland \"",
"\"Under the BAU, it is assumed no restoration activities. Under CM1 and CM2, peat restoration will reach 2 million ha by 2030.\""
] | [
[
{
"Alpha2": "ID",
"OverviewCategory": "Sectoral Mitigation Plans",
"QuestionCode": "M_SecGen3",
"QuestionDefinition": "Information on sectoral plans",
"QuestionText": "Sectoral plans on",
"Sector": "LULUCF/Forestry",
"SubSector": "Peatlands"
}
],
[
{
"Alpha2": "ID",
"OverviewCategory": "Sectoral Mitigation Plans",
"QuestionCode": "M_SecGen3",
"QuestionDefinition": "Information on sectoral plans",
"QuestionText": "Sectoral plans on",
"Sector": "LULUCF/Forestry",
"SubSector": "Peatlands"
}
],
[
{
"Alpha2": "ID",
"OverviewCategory": "Sectoral Mitigation Targets",
"QuestionCode": "M_SecTar1",
"QuestionDefinition": "Targets at the sectoral level",
"QuestionText": "Sectoral targets on",
"Sector": "LULUCF/Forestry",
"SubSector": "Peatlands"
}
]
] |
[
0,
3
] | {
"label": "en-US",
"score": 0.999935627
} | [
0,
3
] | JOR | Jordan | [
0,
3
] | [
[
null
],
[
null,
null
]
] | [
"CW"
] | [
3,
0
] | Reducing emissions that are under the direct control of the health sector to reach net zero health sector emissions by 2050. 4.4.2 Enhancing the adaptive capacity of the health sector. Under current and future climate change conditions it is a high priority for the health sector in Jordan to complement | Reducing emissions that are under the direct control of the health sector to reach net zero health sector emissions by 2050. 4.4.2 Enhancing the adaptive capacity of the health sector. Under current and future climate change conditions it is a high priority for the health sector in Jordan to complement the national efforts to strengthen the capacity of the health sector to address the impacts of COVID-19 with additional knowledge and capacity to contain the current and expected health impacts resulting from climate change either through extreme weather impacts or the possibility of spreading of climate related infectious diseases. | [
1,
2
] | [
"Revised First NDC"
] | [
"Health 2: “Enhancing the adaptive capacity of the health sector” (p. 45)",
"Increasing investments in climate change and health (research, health adaptation for population health and health system resilience)"
] | [
[
{
"Alpha2": "JO",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Health",
"SubSector": "Health: General"
}
],
[
{
"Alpha2": "JO",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "GCA_subsector",
"QuestionDefinition": "GCA_subsector",
"QuestionText": "Adapt Now subsector",
"Sector": "Health",
"SubSector": "Disease surveillance and control"
},
{
"Alpha2": "JO",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "GCA_subsector",
"QuestionDefinition": "GCA_subsector",
"QuestionText": "Adapt Now subsector",
"Sector": "Health",
"SubSector": "Health: General"
}
]
] |
[
0,
0
] | {
"label": "en-US",
"score": 0.9999336004
} | [
0,
1
] | SGP | Singapore | [
1,
0
] | [
[
"{'mode_taxis': nan, 'IkiSheet': 'mitigation', 'page_number': 52, 'mode_inland_shipping': nan, 'mode_coastal_shipping': nan, 'g20': 0, 'mode_cycling': nan, 'mode_road': nan, 'geo_not_defined': nan, 'high_level_category': 'Mode shift and demand management', 'g7': 0, 'geo_inter-city': nan, 'mena': 0, 'mode_heavy_rail': nan, 'mode_walking': nan, 'mode_international_maritime': nan, 'mode_not_defined': nan, 'mode_aviation': nan, 'geo_urban': 'x', 'activity_type': 'E_Passenger', 'a_s_i': 'Shift', 'mode_high-speed_rail': nan, 'mode_cars': nan, 'indicator': 'General active mobility', 'mode_water': nan, 'mode_truck': nan, 'oecd': 'non-OECD', 'mode_two-/three-wheelers': nan, 'income_group': 'High-income', 'mode_bus': nan, 'mode_transit_rail': nan, 'geo_rural': nan, 'region': 'Asia', 'parameter': 'S_Activemobility', 'mode_private_cars': nan, 'category': 'Active mobility', 'mode_rail': nan, 'annex_type': 'Non-Annex I', 'mode_active_mobility': 'x'}"
]
] | [
"IKITracs"
] | [
0,
1
] | Reducing emissions through Walk-Cycle-Ride Increasing the public transport modal share has been a key strategy to reducing emissions in Singapore. We are a global pioneer in controlling vehicle population and reducing traffic congestion. By 2040, Singapore aims to establish WCR, comprising active mobility21 as well as public and shared transport | Reducing emissions through Walk-Cycle-Ride
Increasing the public transport modal share has been a key strategy to reducing emissions in Singapore. We are a global pioneer in controlling vehicle population and reducing traffic congestion.
By 2040, Singapore aims to establish WCR, comprising active mobility21 as well as public and shared transport modes, as the preferred way to travel. All journeys to the nearest neighbourhood centre using WCR modes of transport will take no more than 20 minutes, while nine in ten of peak period WCR journeys, such as between the home and workplace, will be completed in less than 45 minutes. By expanding and improving our transport infrastructure to reduce travel times and encourage more people to take WCR transport modes, we can reduce our vehicular emissions footprint further. | [
0,
0
] | [
"LTS"
] | [
"Reducing emissions through Walk-Cycle-Ride \nIncreasing the public transport modal share has been a key strategy to reducing emissions in Singapore. We are a global pioneer in controlling vehicle population and reducing traffic congestion.\nBy 2040, Singapore aims to establish WCR, comprising active mobility21 as well as public and shared transport modes, as the preferred way to travel. All journeys to the nearest neighbourhood centre using WCR modes of transport will take no more than 20 minutes, while nine in ten of peak period WCR journeys, such as between the home and workplace, will be completed in less than 45 minutes. By expanding and improving our transport infrastructure to reduce travel times and encourage more people to take WCR transport modes, we can reduce our vehicular emissions footprint further."
] | [
[
null
]
] |
[
2,
1
] | {
"label": "en-US",
"score": 0.9999355078
} | [
0,
3
] | SYC | Seychelles | [
2,
1
] | [
[
null
],
[
null
],
[
null
]
] | [
"CW"
] | [
1,
2
] | Reducing energy intensity and fostering energy efficiency. Increasing renewable energy targets. Lowering the carbon intensity of mobility. Shifting towards responsible tourism and circular economy. Key contributions of Seychelles to the Paris Agreement. Seychelles’ new key contributions include:. By 2030, Seychelles commits to reduce economy-wide GHG emissions by 26.4% below the | Reducing energy intensity and fostering energy efficiency. Increasing renewable energy targets. Lowering the carbon intensity of mobility. Shifting towards responsible tourism and circular economy. Key contributions of Seychelles to the Paris Agreement. Seychelles’ new key contributions include:. By 2030, Seychelles commits to reduce economy-wide GHG emissions by 26.4% below the BAU scenario. The 2030 commitments are set with the long-term goal of achieving a decarbonised net-zero emissions economy by 2050. | [
0,
3
] | [
"Revised First NDC"
] | [
"\"Lowering the carbon intensity of mobility\"",
"\"Shifting towards responsible tourism and circular economy",
"Shifting how investment decisions get made"
] | [
[
{
"Alpha2": "SC",
"OverviewCategory": "Sectoral Mitigation Plans",
"QuestionCode": "M_SecGen3",
"QuestionDefinition": "Information on sectoral plans",
"QuestionText": "Sectoral plans on",
"Sector": "Transport",
"SubSector": "Transport: General"
}
],
[
{
"Alpha2": "SC",
"OverviewCategory": "Sectoral Mitigation Plans",
"QuestionCode": "M_SecGen3",
"QuestionDefinition": "Information on sectoral plans",
"QuestionText": "Sectoral plans on",
"Sector": "Waste",
"SubSector": "Recycling, Reuse, Reduce"
}
],
[
{
"Alpha2": "SC",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "GCA_subsector",
"QuestionDefinition": "GCA_subsector",
"QuestionText": "Adapt Now subsector",
"Sector": "Tourism",
"SubSector": "Tourism: General"
}
]
] |
[
0,
1
] | {
"label": "en-US",
"score": 0.9999336004
} | [
0,
1
] | ALB | Albania | [
0,
1
] | [
[
null
]
] | [
"CW"
] | [
1,
0
] | Reducing exposure to risks at sea, such as storms and winds, can include training and provision of safety gear or GPS devices (it mainly includes lakes and marine fisheries). Fisheries. Medium. Increased resilience of aquaculture to reduced flow of water, changes in water physicochemical parameters, and occurrence/spread of fish and | Reducing exposure to risks at sea, such as storms and winds, can include training and provision of safety gear or GPS devices (it mainly includes lakes and marine fisheries). Fisheries. Medium. Increased resilience of aquaculture to reduced flow of water, changes in water physicochemical parameters, and occurrence/spread of fish and mussel’s diseases. Aquaculture. High. Preparedness and Response. Protect and preserve fisheries resources via a gradual transition from a fisheries management policy based on the control of fishing effort to an Ecosystem-Based management. Fisheries. Very High. | [
1,
0
] | [
"Revised First NDC"
] | [
"AFOLU, Aquaculture and Fisheries: “Increased resilience of aquaculture to reduced flow of water, changes in water physicochemical parameters, and occurrence/spread of fish and mussel’s diseases” (p. 75)"
] | [
[
{
"Alpha2": "AL",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Agriculture",
"SubSector": "Fisheries and aquaculture"
}
]
] |
[
0,
5
] | {
"label": "en-US",
"score": 0.9999281168
} | [
0,
5
] | JOR | Jordan | [
0,
5
] | [
[
null,
null
],
[
null
],
[
null,
null
]
] | [
"CW"
] | [
5,
0
] | Reducing non-revenue water loss in domestic and irrigation water supply systems through rehabilitation and maintenance of water networks and enforcement of law. Enhancing water storage capacity in natural dams and water retention systems. Reducing groundwater use for irrigation and enhancing water recharge technologies including managed and artificial groundwater recharge mechanisms. | Reducing non-revenue water loss in domestic and irrigation water supply systems through rehabilitation and maintenance of water networks and enforcement of law. Enhancing water storage capacity in natural dams and water retention systems. Reducing groundwater use for irrigation and enhancing water recharge technologies including managed and artificial groundwater recharge mechanisms. Continue with treated wastewater reuse in Jordan Valley and Highlands as a water augmentation tool to save freshwater. 4.1.3 Improving adaptive capacity of water utilities. | [
5,
0
] | [
"Revised First NDC"
] | [
"Water Resource Management 2.1: “Reducing non-revenue water loss in domestic and irrigation water supply systems through rehabilitation and maintenance of water networks and enforcement of law.” (p. 35)",
"Water Resource Management 2.2: “Enhancing water storage capacity in natural dams and water retention systems.” (p. 35)",
"Water Resource Management 2.3: “Reducing groundwater use for irrigation and enhancing water recharge technologies including managed and artificial groundwater recharge mechanisms” (p. 35)"
] | [
[
{
"Alpha2": "JO",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Water",
"SubSector": "Water efficiency"
},
{
"Alpha2": "JO",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Agriculture",
"SubSector": "Irrigation"
}
],
[
{
"Alpha2": "JO",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Water",
"SubSector": "Infrastructure"
}
],
[
{
"Alpha2": "JO",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Water",
"SubSector": "Water efficiency"
},
{
"Alpha2": "JO",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Agriculture",
"SubSector": "Irrigation"
}
]
] |
[
5,
0
] | {
"label": "en-US",
"score": 0.999932766
} | [
0,
5
] | KHM | Cambodia | [
5,
0
] | [
[
null,
null
],
[
null
],
[
null
],
[
null
]
] | [
"CW"
] | [
0,
5
] | Reducing of CO2e emission. 21.54 Mt CO2 e/year. 2, 15. Strengthen and scale up community-based forest management. Engage and encourage the private sector to implement alternative and sustainable supply chains from agro industrial plantations, and to reduce emissions Expand afforestation, reforestation and restoration activities. Enhance timber supply and wood-based energy | Reducing of CO2e emission. 21.54 Mt CO2 e/year. 2, 15. Strengthen and scale up community-based forest management. Engage and encourage the private sector to implement alternative and sustainable supply chains from agro industrial plantations, and to reduce emissions Expand afforestation, reforestation and restoration activities. Enhance timber supply and wood-based energy sourced from community-based forest management areas and private plantations to reduce pressure on forest areas. Promote effective, equitable, sustainable management and use of forests, forest lands and non-timber forest products. | [
0,
5
] | [
"Revised First NDC"
] | [
"\"Expand afforestation, reforestation and restoration activities\"",
"\"Promote effective, equitable, sustainable management and use of forests, forest lands and non-timber forest products\"",
"\"Strengthen and scale up community-based forest management\"",
"\"Strengthen implementation of sustainable forest management\""
] | [
[
{
"Alpha2": "KH",
"OverviewCategory": "Sectoral Mitigation Plans",
"QuestionCode": "M_SecGen3",
"QuestionDefinition": "Information on sectoral plans",
"QuestionText": "Sectoral plans on",
"Sector": "LULUCF/Forestry",
"SubSector": "Afforestation"
},
{
"Alpha2": "KH",
"OverviewCategory": "Sectoral Mitigation Plans",
"QuestionCode": "M_SecGen3",
"QuestionDefinition": "Information on sectoral plans",
"QuestionText": "Sectoral plans on",
"Sector": "LULUCF/Forestry",
"SubSector": "Reforestation"
}
],
[
{
"Alpha2": "KH",
"OverviewCategory": "Sectoral Mitigation Plans",
"QuestionCode": "M_SecGen3",
"QuestionDefinition": "Information on sectoral plans",
"QuestionText": "Sectoral plans on",
"Sector": "LULUCF/Forestry",
"SubSector": "Sustainable Forest Management"
}
],
[
{
"Alpha2": "KH",
"OverviewCategory": "Sectoral Mitigation Plans",
"QuestionCode": "M_SecGen3",
"QuestionDefinition": "Information on sectoral plans",
"QuestionText": "Sectoral plans on",
"Sector": "LULUCF/Forestry",
"SubSector": "Sustainable Forest Management"
}
],
[
{
"Alpha2": "KH",
"OverviewCategory": "Sectoral Mitigation Plans",
"QuestionCode": "M_SecGen3",
"QuestionDefinition": "Information on sectoral plans",
"QuestionText": "Sectoral plans on",
"Sector": "LULUCF/Forestry",
"SubSector": "Sustainable Forest Management"
}
]
] |
[
2,
0
] | {
"label": "en-US",
"score": 0.9999355078
} | [
0,
2
] | TZA | United Republic of Tanzania | [
2,
0
] | [
[
null
],
[
null
]
] | [
"CW"
] | [
0,
2
] | Reducing the consumption of charcoal in urban and rural areas by promoting affordable alternative energy sources through a regulation policy for charcoal production and use. Transport. Promoting low emission transport systems through deployment of mass rapid transport system and investments in rail, maritime and road infrastructures, including high quality transport | Reducing the consumption of charcoal in urban and rural areas by promoting affordable alternative energy sources through a regulation policy for charcoal production and use. Transport. Promoting low emission transport systems through deployment of mass rapid transport system and investments in rail, maritime and road infrastructures, including high quality transport system and expansion/scaling up of BRT infrastructures. Promoting the use of renewable (clean) energy in transportation systems. | [
0,
2
] | [
"Revised First NDC"
] | [
"\"Promoting low emission transport systems through deployment of mass rapid transport system and investments in rail, maritime and road infrastructures, including high quality transport system and expansion/scaling up of BRT infrastructures\"",
"\"Promoting the use of renewable (clean) energy in transportation systems.\""
] | [
[
{
"Alpha2": "TZ",
"OverviewCategory": "Sectoral Mitigation Plans",
"QuestionCode": "M_SecGen3",
"QuestionDefinition": "Information on sectoral plans",
"QuestionText": "Sectoral plans on",
"Sector": "Transport",
"SubSector": "BRT"
}
],
[
{
"Alpha2": "TZ",
"OverviewCategory": "Sectoral Mitigation Plans",
"QuestionCode": "M_SecGen3",
"QuestionDefinition": "Information on sectoral plans",
"QuestionText": "Sectoral plans on",
"Sector": "Transport",
"SubSector": "Transport: General"
}
]
] |
[
2,
0
] | {
"label": "en-US",
"score": 0.9999363422
} | [
0,
2
] | TUR | Turkey | [
2,
0
] | [
[
null
],
[
null
]
] | [
"CW"
] | [
0,
2
] | Reducing the consumption of primary energy sources of new and existing buildings by means of design, technological equipment, building materials, development of channels that promote the use of renewable energy sources (loans, tax reduction, etc.). Dissemination of Green Building, passive energy, zero-energy house design in order to minimize the energy | Reducing the consumption of primary energy sources of new and existing buildings by means of design, technological equipment, building materials, development of channels that promote the use of renewable energy sources (loans, tax reduction, etc.). Dissemination of Green Building, passive energy, zero-energy house design in order to minimize the energy demand and to ensure local production of energy. Agriculture. Fuel savings by land consolidation in agricultural areas. | [
0,
2
] | [
"First NDC",
"INDC"
] | [
"Green Building, passive energy, zero-energy house design",
"Green Building, passive energy, zero-energy house design"
] | [
[
{
"Alpha2": "TR",
"OverviewCategory": "Sectoral Mitigation Plans",
"QuestionCode": "M_SecGen3",
"QuestionDefinition": "Information on sectoral plans",
"QuestionText": "Sectoral plans on",
"Sector": "Buildings",
"SubSector": "Buildings: General"
}
],
[
{
"Alpha2": "TR",
"OverviewCategory": "Sectoral Mitigation Plans",
"QuestionCode": "M_SecGen3",
"QuestionDefinition": "Information on sectoral plans",
"QuestionText": "Sectoral plans on",
"Sector": "Buildings",
"SubSector": "Buildings: General"
}
]
] |
[
0,
1
] | {
"label": "en-US",
"score": 0.9999357462
} | [
0,
1
] | ETH | Ethiopia | [
0,
1
] | [
[
null
]
] | [
"CW"
] | [
1,
0
] | Reducing the cost of countering vulnerability and ensuring adaptation to protect the population – especially in rural areas – from adverse effects of global warming; and. Safeguarding economic development in order to ensure that Ethiopia will attain middle-income status by 2025, despite the current and anticipated climate change. The most | Reducing the cost of countering vulnerability and ensuring adaptation to protect the population – especially in rural areas – from adverse effects of global warming; and. Safeguarding economic development in order to ensure that Ethiopia will attain middle-income status by 2025, despite the current and anticipated climate change. The most vulnerable sectors to climate shocks include health, agriculture, water, energy, buildings and transport. | [
0,
1
] | [
"First NDC"
] | [
"Increasing investments in climate change and health (research, health adaptation for population health and health system resilience)"
] | [
[
{
"Alpha2": "ET",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "GCA_subsector",
"QuestionDefinition": "GCA_subsector",
"QuestionText": "Adapt Now subsector",
"Sector": "Health",
"SubSector": "Disease surveillance and control"
}
]
] |
[
0,
6
] | {
"label": "en-US",
"score": 0.9999351501
} | [
2,
4
] | AGO | Angola | [
6,
0
] | [
[
null,
null
],
[
null
],
[
null,
null
],
[
null
]
] | [
"CW"
] | [
0,
6
] | Reducing the demand for firewood is, therefore, an important strategy to reduce drivers of deforestation and an exhaustion of Angola s natural resources. Considering that about 1 million tons of charcoal may be used annually in the country, the potential emission reduction from the production of charcoal is estimated at | Reducing the demand for firewood is, therefore, an important strategy to reduce drivers of deforestation and an exhaustion of Angola s natural resources. Considering that about 1 million tons of charcoal may be used annually in the country, the potential emission reduction from the production of charcoal is estimated at more than 750,000 tCO2/year and at approximate cost of around 300 million USD[4]. | [
0,
6
] | [
"First NDC",
"INDC"
] | [
"$300 million",
"Charcoal production",
"$300 million",
"Charcoal production"
] | [
[
{
"Alpha2": "AO",
"OverviewCategory": "Sectoral Mitigation Plans",
"QuestionCode": "M_SecGen11",
"QuestionDefinition": "Estimated cost of implementation for the conditional part of a given sectoral plan",
"QuestionText": "Estimated costs for implementation (conditional)",
"Sector": "Energy",
"SubSector": "Renewable Energy: Biofuels"
},
{
"Alpha2": "AO",
"OverviewCategory": "Sectoral Mitigation Plans",
"QuestionCode": "M_SecGen5",
"QuestionDefinition": "Estimated total costs of implementation for a given sectoral plan",
"QuestionText": "Estimated total costs for implementation",
"Sector": "Energy",
"SubSector": "Renewable Energy: Biofuels"
}
],
[
{
"Alpha2": "AO",
"OverviewCategory": "Sectoral Mitigation Plans",
"QuestionCode": "M_SecGen10",
"QuestionDefinition": "Conditional part of mitigation target for a given sectoral plan",
"QuestionText": "Conditional part of mitigation target",
"Sector": "Energy",
"SubSector": "Renewable Energy: Biofuels"
}
],
[
{
"Alpha2": "AO",
"OverviewCategory": "Sectoral Mitigation Plans",
"QuestionCode": "M_SecGen11",
"QuestionDefinition": "Estimated cost of implementation for the conditional part of a given sectoral plan",
"QuestionText": "Estimated costs for implementation (conditional)",
"Sector": "Energy",
"SubSector": "Renewable Energy: Biofuels"
},
{
"Alpha2": "AO",
"OverviewCategory": "Sectoral Mitigation Plans",
"QuestionCode": "M_SecGen5",
"QuestionDefinition": "Estimated total costs of implementation for a given sectoral plan",
"QuestionText": "Estimated total costs for implementation",
"Sector": "Energy",
"SubSector": "Renewable Energy: Biofuels"
}
],
[
{
"Alpha2": "AO",
"OverviewCategory": "Sectoral Mitigation Plans",
"QuestionCode": "M_SecGen10",
"QuestionDefinition": "Conditional part of mitigation target for a given sectoral plan",
"QuestionText": "Conditional part of mitigation target",
"Sector": "Energy",
"SubSector": "Renewable Energy: Biofuels"
}
]
] |
[
0,
1
] | {
"label": "en-US",
"score": 0.9999219179
} | [
0,
1
] | PSE | Palestine | [
0,
1
] | [
[
null
]
] | [
"CW"
] | [
1,
0
] | Reducing the emissions of the passenger vehicle fleet by 8% by 2030, and 24% by 2040. Scrapping 60% of vehicles older than 20 years by 2030 and scrapping all vehicles older than 20 years by 2040. Conducting statutory tests on 30% of on-road vehicles by 2030, and 60% by 2040. | Reducing the emissions of the passenger vehicle fleet by 8% by 2030, and 24% by 2040. Scrapping 60% of vehicles older than 20 years by 2030 and scrapping all vehicles older than 20 years by 2040. Conducting statutory tests on 30% of on-road vehicles by 2030, and 60% by 2040. Transport: Promoting sustainable road usage. Encourage the use of public transport, in addition to bus rapid transport. Modal shift programmes. | [
1,
0
] | [
"Revised First NDC"
] | [
"Transport: “Conducting statutory tests on 30% of on-road vehicles by 2030, and 60% by 2040” (p. 14)"
] | [
[
{
"Alpha2": "PS",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Transport",
"SubSector": "Transport: General"
}
]
] |
[
0,
4
] | {
"label": "en-US",
"score": 0.9999375343
} | [
0,
4
] | COG | Republic of Congo | [
0,
4
] | [
[
null
],
[
null
],
[
null,
null
]
] | [
"CW"
] | [
4,
0
] | Reducing the gap between Congo s ecological footprint and biocapacity means achieving a state of equality;. Put in place effective measures to control the introduction and spread of non-native biodiversity in the environment;. Identify ecosystems vulnerable to climate change and develop and implement appropriate adaptation plans;. Implement rehabilitation plans in | Reducing the gap between Congo s ecological footprint and biocapacity means achieving a state of equality;. Put in place effective measures to control the introduction and spread of non-native biodiversity in the environment;. Identify ecosystems vulnerable to climate change and develop and implement appropriate adaptation plans;. Implement rehabilitation plans in at least 20% of degraded sites so that they can ensure the sustainable provision of ecosystem services. Adaptation priority 5. | [
4,
0
] | [
"Revised First NDC"
] | [
"Action 4.6: \"Put in place effective measures to control the introduction and spread of non-native biodiversity in the environment",
"Action 4.7: \"Identify ecosystems vulnerable to climate change and develop and implement appropriate adaptation plans",
"Action 4.8: \"Implement rehabilitation plans in at least 20% of degraded sites so that they can ensure the sustainable provision of ecosystem services.\" (p. 31)"
] | [
[
{
"Alpha2": "CG",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Environment",
"SubSector": "Ecosystem and biodiversity"
}
],
[
{
"Alpha2": "CG",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Environment",
"SubSector": "Ecosystem and biodiversity"
}
],
[
{
"Alpha2": "CG",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Environment",
"SubSector": "Ecosystem and biodiversity"
},
{
"Alpha2": "CG",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "LULUCF/Forestry",
"SubSector": "Land degradation"
}
]
] |
[
0,
8
] | {
"label": "en-US",
"score": 0.9999332428
} | [
0,
8
] | ETH | Ethiopia | [
0,
8
] | [
[
null,
null
],
[
null
],
[
null,
null,
null,
null
],
[
null
]
] | [
"CW"
] | [
8,
0
] | Reducing the incidence and impact of fire and pest epidemics on livelihoods and ecosystems through integrated pest management, early warning systems, harvesting adjustments, thinning, patrols and wider public participation. Effective early warning systems and disaster risk management policies to improve resilience to extreme weather events. | Reducing the incidence and impact of fire and pest epidemics on livelihoods and ecosystems through integrated pest management, early warning systems, harvesting adjustments, thinning, patrols and wider public participation. Effective early warning systems and disaster risk management policies to improve resilience to extreme weather events. | [
4,
4
] | [
"First NDC",
"INDC"
] | [
"Cross-cutting \"2. Reducing the incidence and impact of fire and pest epidemics on livelihoods and ecosystems through integrated pest management, early warning systems, harvesting adjustments, thinning, patrols and wider public participation.\" (7)",
"Cross-cutting \"3. Effective early warning systems and disaster risk management policies to improve resilience to extreme weather events.\" (7)",
"Increasing capacities to absorb and recover from extreme events",
"Develop Early warning systems"
] | [
[
{
"Alpha2": "ET",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Disaster Risk Management (DRM)",
"SubSector": "Disaster Risk Management (DRM): General"
},
{
"Alpha2": "ET",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Agriculture",
"SubSector": "Livestock"
}
],
[
{
"Alpha2": "ET",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Disaster Risk Management (DRM)",
"SubSector": "Early warning system"
}
],
[
{
"Alpha2": "ET",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "GCA_Subsector_3",
"QuestionDefinition": "GCA_Subsector_3",
"QuestionText": "Adapt Now subsector (3)",
"Sector": "Agriculture",
"SubSector": "Food security"
},
{
"Alpha2": "ET",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "GCA_Subsector_3",
"QuestionDefinition": "GCA_Subsector_3",
"QuestionText": "Adapt Now subsector (3)",
"Sector": "Disaster Risk Management (DRM)",
"SubSector": "Disaster preparedness"
},
{
"Alpha2": "ET",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "GCA_Subsector_3",
"QuestionDefinition": "GCA_Subsector_3",
"QuestionText": "Adapt Now subsector (3)",
"Sector": "Disaster Risk Management (DRM)",
"SubSector": "Disaster Risk Management (DRM): General"
},
{
"Alpha2": "ET",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "GCA_Subsector_3",
"QuestionDefinition": "GCA_Subsector_3",
"QuestionText": "Adapt Now subsector (3)",
"Sector": "Agriculture",
"SubSector": "Agriculture: General"
}
],
[
{
"Alpha2": "ET",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "A_Sc_ConAct",
"QuestionDefinition": "Condition actions of the sectoral level",
"QuestionText": "Sectoral Conditional Actions",
"Sector": "Disaster Risk Management (DRM)",
"SubSector": "Early warning system"
}
]
] |
[
1,
0
] | {
"label": "en-US",
"score": 0.9999279976
} | [
0,
1
] | IRQ | Iraq | [
1,
0
] | [
[
null
]
] | [
"CW"
] | [
0,
1
] | Reducing the levels of associated gas flaring and investing it in oil and natural gas extraction processes. Investing in and developing the petroleum industries to reduce resource depletion and reduce emissions simultaneously, in particular improving and monitoring associated gas flaring technology to reduce methane emissions and avoid gas “venting” through | Reducing the levels of associated gas flaring and investing it in oil and natural gas extraction processes. Investing in and developing the petroleum industries to reduce resource depletion and reduce emissions simultaneously, in particular improving and monitoring associated gas flaring technology to reduce methane emissions and avoid gas “venting” through good design, including through gas recovery and recycling . | [
0,
1
] | [
"First NDC"
] | [
"\"Investing in and developing the petroleum industries to reduce resource depletion and reduce emissions at the same time , in particular improving and monitoring associated gas flaring technology to reduce methane emissions and avoid gas “venting” through good design, including through gas recovery and recycling.\""
] | [
[
{
"Alpha2": "IQ",
"OverviewCategory": "Sectoral Mitigation Plans",
"QuestionCode": "M_SecGen3",
"QuestionDefinition": "Information on sectoral plans",
"QuestionText": "Sectoral plans on",
"Sector": "Energy",
"SubSector": "Gas"
}
]
] |
[
0,
3
] | {
"label": "en-US",
"score": 0.9999357462
} | [
2,
1
] | KGZ | Kyrgyzstan | [
0,
3
] | [
[
null
],
[
null,
null
]
] | [
"CW"
] | [
3,
0
] | Reducing the loss of ecosystem services from forests and biodiversity. Measure 6.2.2. Strengthening climate resilience of biodiversity. Measure 6.2.3. Expansion of the network of specially protected natural areas, including through the inclusion of some glaciers. 3. Reducing vulnerability to the negative effects of climate change. Measure 6.3.1. Introduction of mechanisms | Reducing the loss of ecosystem services from forests and biodiversity. Measure 6.2.2. Strengthening climate resilience of biodiversity. Measure 6.2.3. Expansion of the network of specially protected natural areas, including through the inclusion of some glaciers. 3. Reducing vulnerability to the negative effects of climate change. Measure 6.3.1. Introduction of mechanisms to reduce the vulnerability of forest ecosystems and biodiversity from climate change. | [
1,
2
] | [
"Revised First NDC"
] | [
"Forest and biodiversity: “Expansion of the network of specially protected natural areas, including through the inclusion of some glaciers” (p. 36)",
"Reducing the loss of ecosystem services from forests and biodiversity"
] | [
[
{
"Alpha2": "KG",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Environment",
"SubSector": "Ecosystem and biodiversity"
}
],
[
{
"Alpha2": "KG",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_tar",
"QuestionDefinition": "Measurable targets or indicators",
"QuestionText": "Targets",
"Sector": "Environment",
"SubSector": "Ecosystem and biodiversity"
},
{
"Alpha2": "KG",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_tar",
"QuestionDefinition": "Measurable targets or indicators",
"QuestionText": "Targets",
"Sector": "LULUCF/Forestry",
"SubSector": "Sustainable forest management"
}
]
] |
[
0,
3
] | {
"label": "en-US",
"score": 0.9999195337
} | [
1,
2
] | BEN | Benin | [
0,
3
] | [
[
null
],
[
null
],
[
null
]
] | [
"CW"
] | [
3,
0
] | Reducing the vulnerability of populations and ecosystems near the Porto Novo lagoon Climate change. 25. 4,57. 75. 13,70. 18,27. Cotonou Rainwater Sanitation Project (2017-2021 PAG Project). Resolve durably the flood problems in Cotonou by setting up sanitation infrastructures (primary collectors). 30. 313,27. 70. 730,96. 1044,23. Coastal Protection Program against Coastal | Reducing the vulnerability of populations and ecosystems near the Porto Novo lagoon Climate change. 25. 4,57. 75. 13,70. 18,27. Cotonou Rainwater Sanitation Project (2017-2021 PAG Project). Resolve durably the flood problems in Cotonou by setting up sanitation infrastructures (primary collectors). 30. 313,27. 70. 730,96. 1044,23. Coastal Protection Program against Coastal Erosion (Cotonou-Siafato, Hilacondji-Bouche du Roy, Grand Popo-Ouidah)(PAG2017-2021 project). Protecting Benin s coast against the advancing sea. 60. 205,97. 40. 137,32. 343,29. 8. Program for Adaptation of Cities to Climate Change in Benin(2017-2021 MAP Project). | [
2,
1
] | [
"First NDC"
] | [
"“Addressing sustainably problems with flooding in Cotonou by providing sanitation facilities (primary rain water collectors)” (p. 39)",
"“Rainwater Sanitation Project in Cotonou” (p. 39)",
"“Shoreline protection program against coastal erosion (Cotonou -Siafato, Hilacondji - Bouche du roy , Grand - Popo -Ouidah)” (p. 39)"
] | [
[
{
"Alpha2": "BJ",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_tar",
"QuestionDefinition": "Measurable targets or indicators",
"QuestionText": "Targets",
"Sector": "Water",
"SubSector": "Water sanitation"
}
],
[
{
"Alpha2": "BJ",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Water",
"SubSector": "Water sanitation"
}
],
[
{
"Alpha2": "BJ",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Coastal Zone",
"SubSector": "Sea-level rise protection"
}
]
] |
[
0,
2
] | {
"label": "en-US",
"score": 0.9999291897
} | [
0,
2
] | BEN | Benin | [
0,
2
] | [
[
null
],
[
null
]
] | [
"CW"
] | [
2,
0
] | Reducing the vulnerability of pregnant women and children under five to climate-related diseases in Benin. Contribute to the reduction of morbidity and mortality due to malaria and other diseases related to climate risks in Benin. Measure identified under NAPA but not yet implemented. 2.08%. 0.05. 97.92%. 2.35. 2.40. 4. Protection | Reducing the vulnerability of pregnant women and children under five to climate-related diseases in Benin. Contribute to the reduction of morbidity and mortality due to malaria and other diseases related to climate risks in Benin. Measure identified under NAPA but not yet implemented. 2.08%. 0.05. 97.92%. 2.35. 2.40. 4. Protection of the coastal zone in the face of sea level rise / coastal erosion. Correct the sedimentary imbalance, the de-migrating and the recoil of the beach,. | [
2,
0
] | [
"INDC"
] | [
"Contributing to the reduction of morbidity and mortality due to malaria and other climate-related diseases in Benin.",
"Correct the erosion and sedimentary imbalance no the coastal area"
] | [
[
{
"Alpha2": "BJ",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "A_Sc_ConAct",
"QuestionDefinition": "Condition actions of the sectoral level",
"QuestionText": "Sectoral Conditional Actions",
"Sector": "Health",
"SubSector": "Disease surveillance and control"
}
],
[
{
"Alpha2": "BJ",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "A_Sc_ConAct",
"QuestionDefinition": "Condition actions of the sectoral level",
"QuestionText": "Sectoral Conditional Actions",
"Sector": "Coastal Zone",
"SubSector": "Coastal management"
}
]
] |
[
2,
0
] | {
"label": "en-US",
"score": 0.9999341965
} | [
0,
2
] | TLS | Timor-Leste | [
2,
0
] | [
[
null
],
[
null
]
] | [
"CW"
] | [
0,
2
] | Reducing unspecified treatment of MSW by increasing the amount of MSW brought to the landfill will increase GHG emission from 5WDS, therefore this action must be supported by development of managed landfill equipped with LEG (landfill gas) recovery system for flaring or utilization. Composting resource recovery and recycling. Reducing open | Reducing unspecified treatment of MSW by increasing the amount of MSW brought to the landfill will increase GHG emission from 5WDS, therefore this action must be supported by development of managed landfill equipped with LEG (landfill gas) recovery system for flaring or utilization. Composting resource recovery and recycling. Reducing open burning through composting and applying 3R will significantly decrease GHG emissions from open burning. Improved incineration technology. | [
0,
2
] | [
"First NDC",
"INDC"
] | [
"Reducing unspecified treatment of MSW by increasing the amount of MSW brought to the landfill will increase GHG emission from 5WDS<br>Reducing open burning through composting and applying 3R will significantly decrease GHG emissions from open burning.<br>Improve technology of old Incinerators (for clinical waste from the hospital)",
"Reducing unspecified treatment of MSW by increasing the amount of MSW brought to the landfill will increase GHG emission from 5WDS<br>Reducing open burning through composting and applying 3R will significantly decrease GHG emissions from open burning.<br>Improve technology of old Incinerators (for clinical waste from the hospital)"
] | [
[
{
"Alpha2": "TL",
"OverviewCategory": "Sectoral Mitigation Plans",
"QuestionCode": "M_SecGen3",
"QuestionDefinition": "Information on sectoral plans",
"QuestionText": "Sectoral plans on",
"Sector": "Waste",
"SubSector": "Solid Waste"
}
],
[
{
"Alpha2": "TL",
"OverviewCategory": "Sectoral Mitigation Plans",
"QuestionCode": "M_SecGen3",
"QuestionDefinition": "Information on sectoral plans",
"QuestionText": "Sectoral plans on",
"Sector": "Waste",
"SubSector": "Solid Waste"
}
]
] |
[
0,
0
] | {
"label": "es-ES",
"score": 0.9999581575
} | [
0,
2
] | AND | Andorra | [
2,
0
] | [
[
"{'mode_taxis': nan, 'IkiSheet': 'mitigation', 'page_number': 33, 'mode_inland_shipping': nan, 'mode_coastal_shipping': nan, 'g20': 0, 'mode_cycling': nan, 'mode_road': nan, 'geo_not_defined': 'x', 'high_level_category': 'Mode shift and demand management', 'g7': 0, 'geo_inter-city': nan, 'mena': 0, 'mode_heavy_rail': nan, 'mode_walking': nan, 'mode_international_maritime': nan, 'mode_not_defined': 'x', 'mode_aviation': nan, 'geo_urban': nan, 'activity_type': 'E_Notdefined', 'a_s_i': 'Shift', 'mode_high-speed_rail': nan, 'mode_cars': nan, 'indicator': 'General public transport improvement', 'mode_water': nan, 'mode_truck': nan, 'oecd': 'non-OECD', 'mode_two-/three-wheelers': nan, 'income_group': 'High-income', 'mode_bus': nan, 'mode_transit_rail': nan, 'geo_rural': nan, 'region': 'Europe', 'parameter': 'S_PublicTransport', 'mode_private_cars': nan, 'category': 'Public transport improvement', 'mode_rail': nan, 'annex_type': 'Non-Annex I', 'mode_active_mobility': nan}"
],
[
"{'mode_taxis': nan, 'IkiSheet': 'mitigation', 'page_number': 33, 'mode_inland_shipping': nan, 'mode_coastal_shipping': nan, 'g20': 0, 'mode_cycling': nan, 'mode_road': 'x', 'geo_not_defined': 'x', 'high_level_category': 'Mode shift and demand management', 'g7': 0, 'geo_inter-city': nan, 'mena': 0, 'mode_heavy_rail': nan, 'mode_walking': nan, 'mode_international_maritime': nan, 'mode_not_defined': nan, 'mode_aviation': nan, 'geo_urban': nan, 'activity_type': 'E_Notdefined', 'a_s_i': 'Avoid, Shift', 'mode_high-speed_rail': nan, 'mode_cars': nan, 'indicator': 'General transport demand management', 'mode_water': nan, 'mode_truck': nan, 'oecd': 'non-OECD', 'mode_two-/three-wheelers': nan, 'income_group': 'High-income', 'mode_bus': nan, 'mode_transit_rail': nan, 'geo_rural': nan, 'region': 'Europe', 'parameter': 'A_TDM', 'mode_private_cars': nan, 'category': 'Transport demand management', 'mode_rail': nan, 'annex_type': 'Non-Annex I', 'mode_active_mobility': nan}"
]
] | [
"IKITracs"
] | [
0,
2
] | Reducir el 84% de los desplazamientos con vehículo privado en el Valle Central y posicionar la movilidad a pue o vehículos de movilidad personal como los mayoritarios. Incrementar al máximo los usuarios del transporte público sin incrementar las emisiones de GEI a partir del 2030. | Reducir el 84% de los desplazamientos con vehículo privado en el Valle Central y posicionar la movilidad a pue o vehículos de movilidad personal como los mayoritarios. Incrementar al máximo los usuarios del transporte público sin incrementar las emisiones de GEI a partir del 2030. | [
0,
0
] | [
"Revised First NDC"
] | [
"Incrementar al máximo los usuarios del transporte público sin incrementar las emisiones de GEI a partir del 2030.",
"Reducir el 84% de los desplazamientos con vehículo privado en el Valle Central y posicionar la movilidad a pue o vehículos de movilidad personal como los mayoritarios. [2030]"
] | [
[
null
],
[
null
]
] |
[
0,
2
] | {
"label": "en-US",
"score": 0.9999319315
} | [
2,
0
] | BEN | Benin | [
2,
0
] | [
[
null
],
[
null
]
] | [
"CW"
] | [
0,
2
] | Reduction efforts in the agriculture sector would avoid cumulative GHG emissions of about 26.1 Mt CO2 compared to the business-as-usual scenario, a 31.1% reduction over the period from 2021 to 2030, including 25.3% conditional contribution and 5.8% unconditional contribution. In the LULUCF sector, the implementation of the measures could contribute | Reduction efforts in the agriculture sector would avoid cumulative GHG emissions of about 26.1 Mt CO2 compared to the business-as-usual scenario, a 31.1% reduction over the period from 2021 to 2030, including 25.3% conditional contribution and 5.8% unconditional contribution. In the LULUCF sector, the implementation of the measures could contribute to increasing Benin s cumulative sequestration capacity to 32 Mt E-CO2 compared to the scenario of maintaining the status quo in this sector in the 2021 period. | [
0,
2
] | [
"First NDC"
] | [
"-26.1 MtCO2e cumulative GHG emission from 2021-2030",
"Increase the cumulative cumulative sequestration capacity in the LULUCF sector by up to 32 MtCO2e compared to the status quo over the period from 2021 to 2030"
] | [
[
{
"Alpha2": "BJ",
"OverviewCategory": "Sectoral Mitigation Targets",
"QuestionCode": "M_SecTar4",
"QuestionDefinition": "emission reduction potential for a given sectoral target",
"QuestionText": "Emission reduction potential",
"Sector": "Agriculture",
"SubSector": "Agriculture: General"
}
],
[
{
"Alpha2": "BJ",
"OverviewCategory": "Sectoral Mitigation Targets",
"QuestionCode": "M_SecTar1",
"QuestionDefinition": "Targets at the sectoral level",
"QuestionText": "Sectoral targets on",
"Sector": "LULUCF/Forestry",
"SubSector": "LULUCF/Forestry: General"
}
]
] |
[
0,
0
] | {
"label": "en-US",
"score": 0.9999097586
} | [
0,
1
] | SLE | Sierra Leone | [
0,
1
] | [
[
"{'mode_taxis': nan, 'IkiSheet': 'adaptation', 'page_number': 30, 'mode_inland_shipping': nan, 'mode_coastal_shipping': nan, 'g20': 0, 'mode_cycling': nan, 'mode_road': 'x', 'geo_not_defined': 'x', 'g7': 0, 'geo_inter-city': nan, 'mena': 0, 'mode_heavy_rail': nan, 'mode_walking': nan, 'mode_international_maritime': nan, 'mode_not_defined': nan, 'mode_aviation': nan, 'geo_urban': nan, 'activity_type': 'E_Notdefined', 'mode_high-speed_rail': nan, 'mode_cars': nan, 'indicator': 'Resilient transport technologies ', 'mode_water': nan, 'mode_truck': nan, 'oecd': 'non-OECD', 'mode_two-/three-wheelers': nan, 'income_group': 'Low-income', 'mode_bus': nan, 'mode_transit_rail': nan, 'geo_rural': nan, 'region': 'Africa', 'parameter': 'R_Tech', 'mode_private_cars': nan, 'category': 'Structural and Technical', 'mode_rail': nan, 'annex_type': 'Non-Annex I', 'mode_active_mobility': nan}"
]
] | [
"IKITracs"
] | [
1,
0
] | Reduction in CH4 emissions, since methane-producing microbes are not active in the presence of oxygen. Sustainable management of water sheds and fresh water resources for human ecological benefits Enforcement of by-laws for land use management and water sheds (Local authorities and police) Established Watershed and fresh water committee that are | Reduction in CH4 emissions, since methane-producing microbes are not active in the presence of oxygen. Sustainable management of water sheds and fresh water resources for human ecological benefits Enforcement of by-laws for land use management and water sheds (Local authorities and police) Established Watershed and fresh water committee that are gender sensitive for responsible and sustainable water management Review and update of National Laws towards Water Sheds Maintain the integrity of the marine and coastal environment Capacity building and sensitization of communities to waste segregation (Door to door campaign) Building the Capacity of community Youth to transform waste into wealth Diversification of economic growth through strengthened transport sub-sector, particularly the infrastructure to contribute to the reduction of regional and global emissions of greenhouses and Designing and improvement of provincial and feeder roads using Climate resilient surfacing materials. | [
0,
0
] | [
"Revised First NDC"
] | [
"Designing and improvement of provincial and feeder roads using Climate resilient surfacing materials."
] | [
[
null
]
] |
[
0,
4
] | {
"label": "en-US",
"score": 0.9998782873
} | [
0,
4
] | RWA | Rwanda | [
4,
0
] | [
[
null,
null,
null,
null
]
] | [
"CW"
] | [
0,
4
] | Reduction in CH4 emissions, since methane-producing microbes are not active in the presence of oxygen. ✔. MININFRA, MINALOC (RAB, RURA, REMA, CoK, municipal and local government, WASAC). Capacity building and program implementat ion costs 5 million USD. Annual costs est. 6 million USD. Improved retention of soil fertiliser and enhancing | Reduction in CH4 emissions, since methane-producing microbes are not active in the presence of oxygen. ✔. MININFRA, MINALOC (RAB, RURA, REMA, CoK, municipal and local government, WASAC). Capacity building and program implementat ion costs 5 million USD. Annual costs est. 6 million USD. Improved retention of soil fertiliser and enhancing soil buffering capacity. Increased food production and nutrition security. Creation of revenue generation opportunities for local communities. Waste water treatment and re-use. Waste-water treatment plants (WWTP). | [
0,
4
] | [
"Revised First NDC"
] | [
"\"Up to 5 million USD.\""
] | [
[
{
"Alpha2": "RW",
"OverviewCategory": "Sectoral Mitigation Plans",
"QuestionCode": "M_SecGen5",
"QuestionDefinition": "Estimated total costs of implementation for a given sectoral plan",
"QuestionText": "Estimated total costs for implementation",
"Sector": "Industries",
"SubSector": "Industries: General"
},
{
"Alpha2": "RW",
"OverviewCategory": "Sectoral Mitigation Plans",
"QuestionCode": "M_SecGen9",
"QuestionDefinition": "Estimated cost of implementation for the unconditional part of a given sectoral plan",
"QuestionText": "Estimated costs for implementation (unconditional)",
"Sector": "Industries",
"SubSector": "Industries: General"
},
{
"Alpha2": "RW",
"OverviewCategory": "Sectoral Mitigation Plans",
"QuestionCode": "M_SecGen5",
"QuestionDefinition": "Estimated total costs of implementation for a given sectoral plan",
"QuestionText": "Estimated total costs for implementation",
"Sector": "Energy",
"SubSector": "Renewable Energy"
},
{
"Alpha2": "RW",
"OverviewCategory": "Sectoral Mitigation Plans",
"QuestionCode": "M_SecGen9",
"QuestionDefinition": "Estimated cost of implementation for the unconditional part of a given sectoral plan",
"QuestionText": "Estimated costs for implementation (unconditional)",
"Sector": "Energy",
"SubSector": "Renewable Energy"
}
]
] |
[
0,
2
] | {
"label": "en-US",
"score": 0.9998999834
} | [
2,
0
] | ALB | Albania | [
2,
0
] | [
[
null,
null
]
] | [
"CW"
] | [
0,
2
] | Reduction in NDC compared to BAU. GgCO2e. %. -1 921. -23%. 0. 0%. -7. -1%. -68. -3%. -1 174. -68%. -3 170. -20,9%. 2.2.3. Energy. 2.2.3.1. Energy supply and consumption (2009 – 2016). The primary energy supply in Albania is dominated by oil products, hydro and net import electricity, fuel | Reduction in NDC compared to BAU. GgCO2e. %. -1 921. -23%. 0. 0%. -7. -1%. -68. -3%. -1 174. -68%. -3 170. -20,9%. 2.2.3. Energy. 2.2.3.1. Energy supply and consumption (2009 – 2016). The primary energy supply in Albania is dominated by oil products, hydro and net import electricity, fuel wood and a small amount of coal and natural gas as shown on Figure 12. | [
0,
2
] | [
"Revised First NDC"
] | [
"Reduction in NDC compared to BAU: Agriculture: 68 GgCO2e (3%)"
] | [
[
{
"Alpha2": "AL",
"OverviewCategory": "Sectoral Mitigation Targets",
"QuestionCode": "M_SecTar1",
"QuestionDefinition": "Targets at the sectoral level",
"QuestionText": "Sectoral targets on",
"Sector": "Agriculture",
"SubSector": "Agriculture: General"
},
{
"Alpha2": "AL",
"OverviewCategory": "Sectoral Mitigation Targets",
"QuestionCode": "M_SecTar4",
"QuestionDefinition": "emission reduction potential for a given sectoral target",
"QuestionText": "Emission reduction potential",
"Sector": "Agriculture",
"SubSector": "Agriculture: General"
}
]
] |
[
2,
9
] | {
"label": "en-US",
"score": 0.9999368191
} | [
4,
7
] | GHA | Ghana | [
10,
1
] | [
[
null,
null
],
[
null
],
[
null
],
[
null
],
[
null
],
[
null,
null
],
[
null
],
[
null
],
[
null
]
] | [
"CW"
] | [
1,
10
] | Reduction in smoke related respiratory and eye diseases Reduction in household cooking fuel expenditure. Job creation through the manufacture and sale of the efficient stoves. Expand the adoption of market-based cleaner cooking solutions. Scale up adoption of LPG use from 5.5% to 50% peri-urban and rural households up to 2030. | Reduction in smoke related respiratory and eye diseases Reduction in household cooking fuel expenditure. Job creation through the manufacture and sale of the efficient stoves. Expand the adoption of market-based cleaner cooking solutions. Scale up adoption of LPG use from 5.5% to 50% peri-urban and rural households up to 2030. 0.6. Scale up access and adoption of 2 million efficient cook stoves up to 2030. 50. | [
0,
11
] | [
"First NDC",
"INDC"
] | [
"$0.6 million<br>$50 million",
"Expand the adoption of market-based cleaner cooking solutions",
"Nature-based Solutions",
"Scale up adoption of LPG use from 5.5% to 50% peri-urban and rural households up to 2030.<br>Scale up access and adoption of 2 million efficient cook stoves up to 2030",
"Scale up adoption of LPG use from 5.5% to 50% peri-urban and rural households up to 2030<br>Scale up access and adoption of 2 million efficient cook stoves up to 2030",
"$0.6 million<br>$50 million",
"Expand the adoption of market-based cleaner cooking solutions",
"Scale up adoption of LPG use from 5.5% to 50% peri-urban and rural households up to 2030.<br>Scale up access and adoption of 2 million efficient cook stoves up to 2030",
"Scale up adoption of LPG use from 5.5% to 50% peri-urban and rural households up to 2030<br>Scale up access and adoption of 2 million efficient cook stoves up to 2030"
] | [
[
{
"Alpha2": "GH",
"OverviewCategory": "Sectoral Mitigation Targets",
"QuestionCode": "M_SecTar11",
"QuestionDefinition": "Estimated cost of implementation for the conditional mitigation part of a given sectoral target",
"QuestionText": "Estimated costs for implementation (conditional)",
"Sector": "Energy",
"SubSector": "Clean Cooking and Heating: Efficient cookstoves"
},
{
"Alpha2": "GH",
"OverviewCategory": "Sectoral Mitigation Targets",
"QuestionCode": "M_SecTar5",
"QuestionDefinition": "Estimated total cost of implementation for a given sectoral target",
"QuestionText": "Estimated total costs for implementation",
"Sector": "Energy",
"SubSector": "Clean Cooking and Heating: Efficient cookstoves"
}
],
[
{
"Alpha2": "GH",
"OverviewCategory": "Sectoral Mitigation Plans",
"QuestionCode": "M_SecGen3",
"QuestionDefinition": "Information on sectoral plans",
"QuestionText": "Sectoral plans on",
"Sector": "Energy",
"SubSector": "Clean Cooking and Heating: Efficient cookstoves"
}
],
[
{
"Alpha2": "GH",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "GCA_Sector",
"QuestionDefinition": "GCA_Sector",
"QuestionText": "Adapt Now sector",
"Sector": "LULUCF/Forestry",
"SubSector": "LULUCF/Forestry: General"
}
],
[
{
"Alpha2": "GH",
"OverviewCategory": "Sectoral Mitigation Targets",
"QuestionCode": "M_SecTar10",
"QuestionDefinition": "Conditional part of the mitigation target for a given sectoral target ",
"QuestionText": "Conditional part of mitigation target",
"Sector": "Energy",
"SubSector": "Clean Cooking and Heating: Efficient cookstoves"
}
],
[
{
"Alpha2": "GH",
"OverviewCategory": "Sectoral Mitigation Targets",
"QuestionCode": "M_SecTar1",
"QuestionDefinition": "Targets at the sectoral level",
"QuestionText": "Sectoral targets on",
"Sector": "Energy",
"SubSector": "Clean Cooking and Heating: Efficient cookstoves"
}
],
[
{
"Alpha2": "GH",
"OverviewCategory": "Sectoral Mitigation Targets",
"QuestionCode": "M_SecTar11",
"QuestionDefinition": "Estimated cost of implementation for the conditional mitigation part of a given sectoral target",
"QuestionText": "Estimated costs for implementation (conditional)",
"Sector": "Energy",
"SubSector": "Clean Cooking and Heating: Efficient cookstoves"
},
{
"Alpha2": "GH",
"OverviewCategory": "Sectoral Mitigation Targets",
"QuestionCode": "M_SecTar5",
"QuestionDefinition": "Estimated total cost of implementation for a given sectoral target",
"QuestionText": "Estimated total costs for implementation",
"Sector": "Energy",
"SubSector": "Clean Cooking and Heating: Efficient cookstoves"
}
],
[
{
"Alpha2": "GH",
"OverviewCategory": "Sectoral Mitigation Plans",
"QuestionCode": "M_SecGen3",
"QuestionDefinition": "Information on sectoral plans",
"QuestionText": "Sectoral plans on",
"Sector": "Energy",
"SubSector": "Clean Cooking and Heating: Efficient cookstoves"
}
],
[
{
"Alpha2": "GH",
"OverviewCategory": "Sectoral Mitigation Targets",
"QuestionCode": "M_SecTar10",
"QuestionDefinition": "Conditional part of the mitigation target for a given sectoral target ",
"QuestionText": "Conditional part of mitigation target",
"Sector": "Energy",
"SubSector": "Clean Cooking and Heating: Efficient cookstoves"
}
],
[
{
"Alpha2": "GH",
"OverviewCategory": "Sectoral Mitigation Targets",
"QuestionCode": "M_SecTar1",
"QuestionDefinition": "Targets at the sectoral level",
"QuestionText": "Sectoral targets on",
"Sector": "Energy",
"SubSector": "Clean Cooking and Heating: Efficient cookstoves"
}
]
] |
[
1,
0
] | {
"label": "en-US",
"score": 0.9999336004
} | [
0,
1
] | ALB | Albania | [
1,
0
] | [
[
null
]
] | [
"CW"
] | [
0,
1
] | Reduction in the amount of waste going to landfill. Landfilling. Governmental Decree No.418, dated 27.05.2020 (National regulatory text that defines technical and operational requirements for waste and landfills). TNC and communications with national inventory teams. In 2030 the amount of municipal waste going in landfill is reduced to 35% of | Reduction in the amount of waste going to landfill. Landfilling. Governmental Decree No.418, dated 27.05.2020 (National regulatory text that defines technical and operational requirements for waste and landfills). TNC and communications with national inventory teams. In 2030 the amount of municipal waste going in landfill is reduced to 35% of the total amount (by weight) of biodegradable municipal waste produced in year 2010. W2. Waste. Setting up of methane capture installation. Landfilling. Gacmo-TNC;. | [
0,
1
] | [
"Revised First NDC"
] | [
"\"Governmental Decree No.418, dated 27.05.2020 (National regulatory text that defines technical and operational requirements for waste and landfills). TNC and communications with national inventory teams\""
] | [
[
{
"Alpha2": "AL",
"OverviewCategory": "Sectoral Mitigation Policies",
"QuestionCode": "M_SecPol3",
"QuestionDefinition": "Information on upstream policies for a given sector",
"QuestionText": "Upstream policies on",
"Sector": "Waste",
"SubSector": "Recycling, Reuse, Reduce"
}
]
] |
[
2,
0
] | {
"label": "en-US",
"score": 0.9999330044
} | [
0,
2
] | TUN | Tunisia | [
2,
0
] | [
[
null
],
[
null
]
] | [
"CW"
] | [
0,
2
] | Reduction in the rate of controlled landfilling of final waste (including through RDF production, and MBT, and any other recovery technology), in 2030 by 54% compared to 2020. Systematization of degassing at least until 2030 on controlled landfills already equipped with systems. Generalization of electricity production from landfill biogas (reduction | Reduction in the rate of controlled landfilling of final waste (including through RDF production, and MBT, and any other recovery technology), in 2030 by 54% compared to 2020. Systematization of degassing at least until 2030 on controlled landfills already equipped with systems. Generalization of electricity production from landfill biogas (reduction of emissions credited to the energy sector). Energy recovery from margins (reduction of emissions credited to the energy sector). | [
0,
2
] | [
"Revised First NDC"
] | [
"\"Systematization of degassing on controlled landfills already equipped with systems at least until 2030\"",
"\"Widespread production of electricity from biogas in landfills currently equipped with degassing systems\""
] | [
[
{
"Alpha2": "TN",
"OverviewCategory": "Sectoral Mitigation Plans",
"QuestionCode": "M_SecGen3",
"QuestionDefinition": "Information on sectoral plans",
"QuestionText": "Sectoral plans on",
"Sector": "Waste",
"SubSector": "Solid Waste"
}
],
[
{
"Alpha2": "TN",
"OverviewCategory": "Sectoral Mitigation Plans",
"QuestionCode": "M_SecGen3",
"QuestionDefinition": "Information on sectoral plans",
"QuestionText": "Sectoral plans on",
"Sector": "Waste",
"SubSector": "Waste-to-Energy"
}
]
] |
[
0,
1
] | {
"label": "en-US",
"score": 0.9999369383
} | [
1,
0
] | LSO | Lesotho | [
1,
0
] | [
[
null
]
] | [
"CW"
] | [
0,
1
] | Reduction in the use of paraffin (kerosene) for heating to reach 10 % in 2020 and 5% in 2030;. To disseminate efficient cook-stoves to reach a penetration rate of 30% in 2030;. To progressively reduce the use of wood for heating in order to 10% by 2030;. To disseminate SHS | Reduction in the use of paraffin (kerosene) for heating to reach 10 % in 2020 and 5% in 2030;. To disseminate efficient cook-stoves to reach a penetration rate of 30% in 2030;. To progressively reduce the use of wood for heating in order to 10% by 2030;. To disseminate SHS to reach 15% of the non-electrified population by 2030, and subsequently reduce use of paraffin (kerosene) for lighting. | [
0,
1
] | [
"First NDC"
] | [
"To reduce progressively the use of wood for heating in order to reach 10% by 2030."
] | [
[
{
"Alpha2": "LS",
"OverviewCategory": "Sectoral Mitigation Targets",
"QuestionCode": "M_SecTar1",
"QuestionDefinition": "Targets at the sectoral level",
"QuestionText": "Sectoral targets on",
"Sector": "Buildings",
"SubSector": "Buildings: General"
}
]
] |
[
0,
2
] | {
"label": "en-US",
"score": 0.9999189377
} | [
2,
0
] | BLZ | Belize | [
2,
0
] | [
[
null,
null
]
] | [
"CW"
] | [
0,
2
] | Reduction in transmission and distribution losses from 12% to 10% by 2030 resulting in reduced electricity demand and better quality of supply. Action. Improve energy efficiency and conservation by at least 10% by 2030 compared to a BAU baseline projection,19 including through an increase of appliance efficiency in buildings and | Reduction in transmission and distribution losses from 12% to 10% by 2030 resulting in reduced electricity demand and better quality of supply. Action. Improve energy efficiency and conservation by at least 10% by 2030 compared to a BAU baseline projection,19 including through an increase of appliance efficiency in buildings and implementation of building codes, appliance standards and labels and promotion of energy efficient technology in the tourism sector. | [
0,
2
] | [
"Revised First NDC"
] | [
"\"Improve energy efficiency and conservation by at least 10% by 2030 compared to a BAU baseline projection, 19 including through an increase of appliance efficiency in buildings and implementation of building codes, appliance standards and labels and promotion of energy efficient technology in the tourism sector\""
] | [
[
{
"Alpha2": "BZ",
"OverviewCategory": "Sectoral Mitigation Targets",
"QuestionCode": "M_SecTar1",
"QuestionDefinition": "Targets at the sectoral level",
"QuestionText": "Sectoral targets on",
"Sector": "Energy",
"SubSector": "Energy Efficiency"
},
{
"Alpha2": "BZ",
"OverviewCategory": "Sectoral Mitigation Targets",
"QuestionCode": "M_SecTar10",
"QuestionDefinition": "Conditional part of the mitigation target for a given sectoral target ",
"QuestionText": "Conditional part of mitigation target",
"Sector": "Energy",
"SubSector": "Energy Efficiency"
}
]
] |
[
2,
6
] | {
"label": "en-US",
"score": 0.9999322891
} | [
6,
2
] | GHA | Ghana | [
8,
0
] | [
[
null
],
[
null
],
[
null
],
[
null
],
[
null
],
[
null
],
[
null
],
[
null
]
] | [
"CW"
] | [
0,
8
] | Reduction in travel time by at least 8 minutes per trip by public transport. Traffic congestion levels decreased. Promote Sustainable utilization of forest resources through REDD+. Continue 10,000ha annual reforestation/afforestation of degraded lands. National Forest and Wildlife Policy. National plantation development strategy. Unconditional. 1,050. Annual 29,000 jobs created. Annual production | Reduction in travel time by at least 8 minutes per trip by public transport. Traffic congestion levels decreased. Promote Sustainable utilization of forest resources through REDD+. Continue 10,000ha annual reforestation/afforestation of degraded lands. National Forest and Wildlife Policy. National plantation development strategy. Unconditional. 1,050. Annual 29,000 jobs created. Annual production of 370 metric ton of staple food. Double 10,000ha annual reforestation/afforestation of degraded lands translating to 20,000ha on annual basis. | [
0,
8
] | [
"First NDC",
"INDC"
] | [
"10,000 ha annual reforestatioNot Availablefforestation of degraded lands",
"20,000ha on annual reforestatioNot Availablefforestation of degraded lands",
"Additional 10,000 ha annual reforestatioNot Availablefforestation of degraded lands",
"National plantation development strategy",
"10,000 ha annual reforestatioNot Availablefforestation of degraded lands",
"20,000ha on annual reforestatioNot Availablefforestation of degraded lands",
"Additional 10,000 ha annual reforestatioNot Availablefforestation of degraded lands",
"National plantation development strategy"
] | [
[
{
"Alpha2": "GH",
"OverviewCategory": "Sectoral Mitigation Targets",
"QuestionCode": "M_SecTar8",
"QuestionDefinition": "Unconditional part of the mitigation effort for a given sectoral target",
"QuestionText": "Unconditional part of mitigation target",
"Sector": "LULUCF/Forestry",
"SubSector": "Reforestation"
}
],
[
{
"Alpha2": "GH",
"OverviewCategory": "Sectoral Mitigation Targets",
"QuestionCode": "M_SecTar1",
"QuestionDefinition": "Targets at the sectoral level",
"QuestionText": "Sectoral targets on",
"Sector": "LULUCF/Forestry",
"SubSector": "Reforestation"
}
],
[
{
"Alpha2": "GH",
"OverviewCategory": "Sectoral Mitigation Targets",
"QuestionCode": "M_SecTar10",
"QuestionDefinition": "Conditional part of the mitigation target for a given sectoral target ",
"QuestionText": "Conditional part of mitigation target",
"Sector": "LULUCF/Forestry",
"SubSector": "Reforestation"
}
],
[
{
"Alpha2": "GH",
"OverviewCategory": "Sectoral Mitigation Policies",
"QuestionCode": "M_SecPol2",
"QuestionDefinition": "Information on the existing upstream sectoral policies that the NDC builds on",
"QuestionText": "Existing sectoral policies",
"Sector": "LULUCF/Forestry",
"SubSector": "REDD+"
}
],
[
{
"Alpha2": "GH",
"OverviewCategory": "Sectoral Mitigation Targets",
"QuestionCode": "M_SecTar8",
"QuestionDefinition": "Unconditional part of the mitigation effort for a given sectoral target",
"QuestionText": "Unconditional part of mitigation target",
"Sector": "LULUCF/Forestry",
"SubSector": "Reforestation"
}
],
[
{
"Alpha2": "GH",
"OverviewCategory": "Sectoral Mitigation Targets",
"QuestionCode": "M_SecTar1",
"QuestionDefinition": "Targets at the sectoral level",
"QuestionText": "Sectoral targets on",
"Sector": "LULUCF/Forestry",
"SubSector": "Reforestation"
}
],
[
{
"Alpha2": "GH",
"OverviewCategory": "Sectoral Mitigation Targets",
"QuestionCode": "M_SecTar10",
"QuestionDefinition": "Conditional part of the mitigation target for a given sectoral target ",
"QuestionText": "Conditional part of mitigation target",
"Sector": "LULUCF/Forestry",
"SubSector": "Reforestation"
}
],
[
{
"Alpha2": "GH",
"OverviewCategory": "Sectoral Mitigation Policies",
"QuestionCode": "M_SecPol2",
"QuestionDefinition": "Information on the existing upstream sectoral policies that the NDC builds on",
"QuestionText": "Existing sectoral policies",
"Sector": "LULUCF/Forestry",
"SubSector": "REDD+"
}
]
] |
[
0,
1
] | {
"label": "en-US",
"score": 0.9999334812
} | [
0,
1
] | MMR | Myanmar | [
0,
1
] | [
[
null
]
] | [
"CW"
] | [
1,
0
] | Reduction in vulnerability for example by setting up more effective early warning systems and increasing preparedness for disaster risk reduction,. Recovering from damage already caused by climate change, e.g. rehabilitation of degraded forests and restoration of local ecosystems for people affected due to extreme weather events. Global Climate Risk Index | Reduction in vulnerability for example by setting up more effective early warning systems and increasing preparedness for disaster risk reduction,. Recovering from damage already caused by climate change, e.g. rehabilitation of degraded forests and restoration of local ecosystems for people affected due to extreme weather events. Global Climate Risk Index 2015, Who Suffers Most from Extreme Weather Events? Weather-Related Loss Events in 1994 to 2013 and in 2013, Germanwatch and V.↩. | [
0,
1
] | [
"First NDC"
] | [
"Increasing capacities to absorb and recover from extreme events"
] | [
[
{
"Alpha2": "MM",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "GCA_subsector",
"QuestionDefinition": "GCA_subsector",
"QuestionText": "Adapt Now subsector",
"Sector": "Cross-Cutting Area",
"SubSector": "Capacity building and knowledge transfer"
}
]
] |
[
0,
3
] | {
"label": "en-US",
"score": 0.9997726083
} | [
3,
0
] | SEN | Senegal | [
3,
0
] | [
[
null
],
[
null
],
[
null
]
] | [
"CW"
] | [
0,
3
] | Reduction of 0.08%, 0.14% and 0.19% respectively in 2020, 2025 and 2030. Reduction of 0.35%, 0.51% and 0.63% respectively in 2020, 2025 and 2030. Costs. 396,105,823 USD. 1,796,052,928 USD. Forestry Sector8. Base Year: 2010. Methodology: IPCC 2006. Gas concerned: CO2. Objectives. Unconditionnal Options. Conditionnal Options. Reduction of emissions from fuelwood | Reduction of 0.08%, 0.14% and 0.19% respectively in 2020, 2025 and 2030. Reduction of 0.35%, 0.51% and 0.63% respectively in 2020, 2025 and 2030. Costs. 396,105,823 USD. 1,796,052,928 USD. Forestry Sector8. Base Year: 2010. Methodology: IPCC 2006. Gas concerned: CO2. Objectives. Unconditionnal Options. Conditionnal Options. Reduction of emissions from fuelwood and coal consumption. Participatory forest management and management (over 30 forests with PROGEDE). | [
0,
3
] | [
"INDC"
] | [
"Focus on specific sectors such as rice cultivation and agroforestry to reduce emissions by 0.35% (2020), 0.51% (2025) and 0.63% (2030)<br>Focus on specific sectors such as rice cultivation and agroforestry to reduce emissions by 0.35% (2020), 0.51% (2025) and 0.63% (2030)",
"Rice cultivation and agroforestry to reduce emissions by 0.35% (2020), 0.51% (2025) and 0.63% (2030)<br>Rice cultivation and agroforestry to reduce emissions by 0.35% (2020), 0.51% (2025) and 0.63% (2030)",
"and 0.19% (2030)"
] | [
[
{
"Alpha2": "SN",
"OverviewCategory": "Sectoral Mitigation Targets",
"QuestionCode": "M_SecTar10",
"QuestionDefinition": "Conditional part of the mitigation target for a given sectoral target ",
"QuestionText": "Conditional part of mitigation target",
"Sector": "Agriculture",
"SubSector": "Agriculture: General"
}
],
[
{
"Alpha2": "SN",
"OverviewCategory": "Sectoral Mitigation Targets",
"QuestionCode": "M_SecTar1",
"QuestionDefinition": "Targets at the sectoral level",
"QuestionText": "Sectoral targets on",
"Sector": "Agriculture",
"SubSector": "Agriculture: General"
}
],
[
{
"Alpha2": "SN",
"OverviewCategory": "Sectoral Mitigation Targets",
"QuestionCode": "M_SecTar8",
"QuestionDefinition": "Unconditional part of the mitigation effort for a given sectoral target",
"QuestionText": "Unconditional part of mitigation target",
"Sector": "Agriculture",
"SubSector": "Agriculture: General"
}
]
] |
[
0,
1
] | {
"label": "en-US",
"score": 0.9999314547
} | [
1,
0
] | HND | Honduras | [
1,
0
] | [
[
null
]
] | [
"CW"
] | [
0,
1
] | Reduction of 15% of the BAU scenario by 2030 for the set of sectors contained in this BAU scenario. This commitment is conditional on predictable support, and mechanism of climate financing. In addition, the Republic of Honduras commits, as a sectoral objective, the afforestation/reforestation of 1 million hectares of forest | Reduction of 15% of the BAU scenario by 2030 for the set of sectors contained in this BAU scenario. This commitment is conditional on predictable support, and mechanism of climate financing. In addition, the Republic of Honduras commits, as a sectoral objective, the afforestation/reforestation of 1 million hectares of forest before 2030. | [
0,
1
] | [
"First NDC"
] | [
"1 million ha increase in reforestation"
] | [
[
{
"Alpha2": "HN",
"OverviewCategory": "Sectoral Mitigation Targets",
"QuestionCode": "M_SecTar1",
"QuestionDefinition": "Targets at the sectoral level",
"QuestionText": "Sectoral targets on",
"Sector": "LULUCF/Forestry",
"SubSector": "LULUCF/Forestry: General"
}
]
] |
[
0,
1
] | {
"label": "en-US",
"score": 0.9999243021
} | [
1,
0
] | LBR | Liberia | [
1,
0
] | [
[
null
]
] | [
"CW"
] | [
0,
1
] | Reduction of 32.3 GgCO2e in 2030 by supporting the transformation of National Transit Authority (NTA) buses and private vehicles (cars and taxis) to Compressed Natural Gas (CNG); by 2030. Mitigation Actions and Policy Measures. Financial measures through:. | Reduction of 32.3 GgCO2e in 2030 by supporting the transformation of National Transit Authority (NTA) buses and private vehicles (cars and taxis) to Compressed Natural Gas (CNG); by 2030. Mitigation Actions and Policy Measures. Financial measures through:. | [
0,
1
] | [
"Revised First NDC"
] | [
"\"Reduction of 32.3 GgCO2e in 2030 by supporting the transformation of National Transit Authority (NTA) buses and private vehicles (cars and taxis) to Compressed Natural Gas (CNG)"
] | [
[
{
"Alpha2": "LR",
"OverviewCategory": "Sectoral Mitigation Targets",
"QuestionCode": "M_SecTar1",
"QuestionDefinition": "Targets at the sectoral level",
"QuestionText": "Sectoral targets on",
"Sector": "Transport",
"SubSector": "Transportation Fuels"
}
]
] |
[
0,
5
] | {
"label": "en-US",
"score": 0.999932766
} | [
0,
5
] | ECU | Ecuador | [
0,
5
] | [
[
null,
null,
null
],
[
null,
null
]
] | [
"CW"
] | [
5,
0
] | Reduction of Climate Risk in the value chains of the oil and mining industry, and in the electrical infrastructure of generation, transmission, distribution and commercialization, through the development of studies of Vulnerability and Climate Risk specific to the sector, which allow to identify, propose and implement adaptation measures to the | Reduction of Climate Risk in the value chains of the oil and mining industry, and in the electrical infrastructure of generation, transmission, distribution and commercialization, through the development of studies of Vulnerability and Climate Risk specific to the sector, which allow to identify, propose and implement adaptation measures to the effects of climate variability and climate change. **. Operative Level. | [
3,
2
] | [
"First NDC"
] | [
"Productive and Strategic Sectors Macro Level: \"Climate Risk Reduction in the value chains of the oil industry and mining, and in the electrical infrastructure of generation, transmission, distribution and commercialization, through the development of studies of Vulnerability and Climate Risk specific to the sector, which allow identifying, proposing and implementing adaptation measures to the effects of climate variability and change** \"(35). (**Conditional)",
"Raising understanding of the value of nature for climate adaptation"
] | [
[
{
"Alpha2": "EC",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Energy",
"SubSector": "Power system planning: Transmission lines"
},
{
"Alpha2": "EC",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Energy",
"SubSector": "Power system planning: Distribution lines"
},
{
"Alpha2": "EC",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Economy-wide",
"SubSector": "Economy-wide: General"
}
],
[
{
"Alpha2": "EC",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "GCA_subsector",
"QuestionDefinition": "GCA_subsector",
"QuestionText": "Adapt Now subsector",
"Sector": "Environment",
"SubSector": "Environment: General"
},
{
"Alpha2": "EC",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "GCA_subsector",
"QuestionDefinition": "GCA_subsector",
"QuestionText": "Adapt Now subsector",
"Sector": "Cross-Cutting Area",
"SubSector": "Capacity building and knowledge transfer"
}
]
] |
[
2,
4
] | {
"label": "en-US",
"score": 0.9998743534
} | [
2,
4
] | RWA | Rwanda | [
6,
0
] | [
[
null,
null,
null,
null
],
[
null,
null
]
] | [
"CW"
] | [
0,
6
] | Reduction of GHG and local emissions from gasoline and diesel use. ✔. ✔. MININFRA, MINICOM (RTDA, REMA). Incremental vehicle costs and scheme administration est. 190 million USD. Reduction of harmful pollutants from conventional diesel and gasoline vehicles, enhacing resilience of population to disease and adverse climate impacts. Buildings and agriculture. | Reduction of GHG and local emissions from gasoline and diesel use. ✔. ✔. MININFRA, MINICOM (RTDA, REMA). Incremental vehicle costs and scheme administration est. 190 million USD. Reduction of harmful pollutants from conventional diesel and gasoline vehicles, enhacing resilience of population to disease and adverse climate impacts. Buildings and agriculture. Efficient lighting in buildings. Further dissemination of CFL and LED lamps in residential, commercial and institutional buildings. Supported by government subsidies and VAT exemptions on energy saving lamps. Reduction of grid-based GHG emisisons. ✔. ✔. | [
0,
6
] | [
"Revised First NDC"
] | [
"\"Efficient lighting in buildings Further dissemination of CFL and LED lamps in residential, commercial and institutional buildings. Supported by government subsidies and VAT exemptions on energy saving lamps. Reduction of grid-based GHG emisisons.\"",
"\"Incremental vehicle costs and scheme administration est. 190 million USD.\""
] | [
[
{
"Alpha2": "RW",
"OverviewCategory": "Sectoral Mitigation Plans",
"QuestionCode": "M_SecGen3",
"QuestionDefinition": "Information on sectoral plans",
"QuestionText": "Sectoral plans on",
"Sector": "Energy",
"SubSector": "Demand-side Efficiency: Buildings"
},
{
"Alpha2": "RW",
"OverviewCategory": "Sectoral Mitigation Plans",
"QuestionCode": "M_SecGen8",
"QuestionDefinition": "Unconditional part of mitigation target for a given sectoral plan",
"QuestionText": "Unconditional part of mitigation target",
"Sector": "Energy",
"SubSector": "Demand-side Efficiency: Buildings"
},
{
"Alpha2": "RW",
"OverviewCategory": "Sectoral Mitigation Plans",
"QuestionCode": "M_SecGen3",
"QuestionDefinition": "Information on sectoral plans",
"QuestionText": "Sectoral plans on",
"Sector": "Buildings",
"SubSector": "Buildings: General"
},
{
"Alpha2": "RW",
"OverviewCategory": "Sectoral Mitigation Plans",
"QuestionCode": "M_SecGen8",
"QuestionDefinition": "Unconditional part of mitigation target for a given sectoral plan",
"QuestionText": "Unconditional part of mitigation target",
"Sector": "Buildings",
"SubSector": "Buildings: General"
}
],
[
{
"Alpha2": "RW",
"OverviewCategory": "Sectoral Mitigation Policies",
"QuestionCode": "M_SecPol7",
"QuestionDefinition": "Estimated total cost of implementation for a given sectoral upstream policy",
"QuestionText": "Estimated total costs for implementation",
"Sector": "Transport",
"SubSector": "Vehicle Fleet"
},
{
"Alpha2": "RW",
"OverviewCategory": "Sectoral Mitigation Policies",
"QuestionCode": "M_SecPol11",
"QuestionDefinition": "Estimated cost of implementation for the unconditional part of a given sectoral upstream policy ",
"QuestionText": "Estimated costs for implementation (unconditional)",
"Sector": "Transport",
"SubSector": "Vehicle Fleet"
}
]
] |
[
1,
2
] | {
"label": "en-US",
"score": 0.9999301434
} | [
0,
3
] | CIV | Ivory Coast | [
1,
2
] | [
[
null,
null
],
[
null
]
] | [
"CW"
] | [
2,
1
] | Reduction of GHG emission levels, including CO 2. Decrease of pressure on natural resources. Strengthening Côte d Ivoire s integration into the regional energy market, through interconnection with other countries in the region. Increase in national income. Strengthening Côte d Ivoire s share in UEMOA GDP. Improved quality of life. | Reduction of GHG emission levels, including CO 2. Decrease of pressure on natural resources. Strengthening Côte d Ivoire s integration into the regional energy market, through interconnection with other countries in the region. Increase in national income. Strengthening Côte d Ivoire s share in UEMOA GDP. Improved quality of life. Reduction of social conflicts. Improved coverage and access rates for energy services. Reduction of GHG emission levels, including CO 2. Decrease of pressure on natural resources. Sub-sectoral measures: Industry. Implementation of a strategy to reduce wastage in the energy consumption of industries through:. | [
0,
3
] | [
"First NDC"
] | [
"Including diverse groups in decision making at all levels, such as the design and implementation of adaptation activities",
"Regional interconnection"
] | [
[
{
"Alpha2": "CI",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "GCA_Subsector_2",
"QuestionDefinition": "GCA_Subsector_2",
"QuestionText": "Adapt Now subsector (2)",
"Sector": "Agriculture",
"SubSector": "Agriculture: General"
},
{
"Alpha2": "CI",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "GCA_Subsector_2",
"QuestionDefinition": "GCA_Subsector_2",
"QuestionText": "Adapt Now subsector (2)",
"Sector": "Social Development",
"SubSector": "Gender"
}
],
[
{
"Alpha2": "CI",
"OverviewCategory": "Sectoral Mitigation Plans",
"QuestionCode": "M_SecGen3",
"QuestionDefinition": "Information on sectoral plans",
"QuestionText": "Sectoral plans on",
"Sector": "Energy",
"SubSector": "Supply-side Efficiency"
}
]
] |
[
0,
2
] | {
"label": "en-US",
"score": 0.9999057055
} | [
2,
0
] | ISR | Israel | [
2,
0
] | [
[
null
],
[
null
]
] | [
"CW"
] | [
0,
2
] | Reduction of GHG emissions from municipal waste by 2050 by at least 92% compared to emissions measured in 2015. Electricity Generation. Reduction of greenhouse gas emissions from electricity generation by 2030 by 30% compared to emissions measured in 2015, which were 37.6 MtCO2e, taking into account the renewable energy targets | Reduction of GHG emissions from municipal waste by 2050 by at least 92% compared to emissions measured in 2015. Electricity Generation. Reduction of greenhouse gas emissions from electricity generation by 2030 by 30% compared to emissions measured in 2015, which were 37.6 MtCO2e, taking into account the renewable energy targets set in Government Decision No. 465 (see below). Reduction of greenhouse gas emissions from electricity generation by 2050 by at least 85% compared to emissions measured in 2015. Energy Intensity. | [
0,
2
] | [
"Revised First NDC"
] | [
"\"Reduction of greenhouse gas emissions from electricity generation by 2030 by 30% compared to emissions measured in 2015, which were 37.6 MtCO2e, taking into account the renewable energy targets set in Government Decision No. 465 (see below).\"",
"\"Reduction of greenhouse gas emissions from electricity generation by 2050 by at least 85% compared to emissions measured in 2015.\""
] | [
[
{
"Alpha2": "IL",
"OverviewCategory": "Sectoral Mitigation Targets",
"QuestionCode": "M_SecTar1",
"QuestionDefinition": "Targets at the sectoral level",
"QuestionText": "Sectoral targets on",
"Sector": "Energy",
"SubSector": "Energy: General"
}
],
[
{
"Alpha2": "IL",
"OverviewCategory": "Sectoral Mitigation Targets",
"QuestionCode": "M_SecTar1",
"QuestionDefinition": "Targets at the sectoral level",
"QuestionText": "Sectoral targets on",
"Sector": "Energy",
"SubSector": "Energy: General"
}
]
] |
[
0,
0
] | {
"label": "en-US",
"score": 0.9998840094
} | [
2,
0
] | NER | Niger | [
0,
2
] | [
[
"{'annex_type': 'Non-Annex I', 'IkiSheet': 'targets', 'page_number': nan, 'renewable_energy_target': nan, 'transport_target_type': nan, 'target_year': nan, 'country_netzero target_exists': nan, 'country_summary_transport_targets': nan, 'target_type': 'T_BAU', 'oecd': 'non-OECD', 'income_group': 'Low-income', 'g7': 0, 'mena': 0, 'region': 'Africa', 'parameter': 'T_Economy_Unc', 'ice_phaseout': nan, 'country_long-term_target_exists': nan, 'ghg_total': 2.359578166789, 'ghg_transport_target_type': nan, 'g20': 0, 'target_scope': nan, 'ghg_transport': 1.36455389}"
],
[
"{'annex_type': 'Non-Annex I', 'IkiSheet': 'targets', 'page_number': nan, 'renewable_energy_target': nan, 'transport_target_type': nan, 'target_year': nan, 'country_netzero target_exists': nan, 'country_summary_transport_targets': nan, 'target_type': 'T_BAU', 'oecd': 'non-OECD', 'income_group': 'Low-income', 'g7': 0, 'mena': 0, 'region': 'Africa', 'parameter': 'T_Economy_C', 'ice_phaseout': nan, 'country_long-term_target_exists': nan, 'ghg_total': 2.359578166789, 'ghg_transport_target_type': nan, 'g20': 0, 'target_scope': nan, 'ghg_transport': 1.36455389}"
]
] | [
"IKITracs"
] | [
0,
2
] | Reduction of GHG emissions from now to 2030 - Unconditional reduction of 2.5% (BaU 2020) and 3.5% (2030). - Conditional reduction of 25% (BaU 2020) and 34.6% (2030, or a reduction of 33,400 GgCO2e). | Reduction of GHG emissions from now to 2030 - Unconditional reduction of 2.5% (BaU 2020) and 3.5% (2030). - Conditional reduction of 25% (BaU 2020) and 34.6% (2030, or a reduction of 33,400 GgCO2e). | [
0,
0
] | [
"First NDC"
] | [
"3.5% below 2030 BAU scenario",
"34.6% below 2030 BAU"
] | [
[
null
],
[
null
]
] |
[
2,
0
] | {
"label": "en-US",
"score": 0.9999341965
} | [
0,
2
] | LKA | Sri Lanka | [
2,
0
] | [
[
null
],
[
null
]
] | [
"CW"
] | [
0,
2
] | Reduction of GHG emissions in the aviation sector. 10.1 Identify the current profile of GHG emissions from Sri Lankan operators (Sri Lankan Airline and FITS Aviation) in international operations and domestic operators. 10.2 Forecast the BAU future emissions from the above operators. 10.3 Identify GHG mitigations options. 10.4 Identify implementation | Reduction of GHG emissions in the aviation sector. 10.1 Identify the current profile of GHG emissions from Sri Lankan operators (Sri Lankan Airline and FITS Aviation) in international operations and domestic operators. 10.2 Forecast the BAU future emissions from the above operators. 10.3 Identify GHG mitigations options. 10.4 Identify implementation mechanisms and resource requirements for the implementation of mitigation options. Establishment of a database management system for monitoring NDCs of transport sector. 11.1 Establishment of a separate unit for the implementation of NDCs. 11.2 Software development. 11.3 Capacity development. 5.2.2 Industrial Sector. | [
0,
2
] | [
"First NDC"
] | [
"Establishment of a database management system for monitoring NDCs of transport sector.<br>Establishment of a separate unit for the implementation of NDCs<br>Software development<br>Capacity development",
"Reduction of GHG emissions in the aviation sector<br>Identify the current profile of GHG emissions from Sri Lankan operators (Sri Lankan Airline and FITS Aviation) in international operations and domestic operators<br>Forecast the BAU future emissions from the aviation operators<br>Identify GHG mitigations options<br>Identify implementation mechanisms and resource requirements for the implementation of mitigation options"
] | [
[
{
"Alpha2": "LK",
"OverviewCategory": "Sectoral Mitigation Plans",
"QuestionCode": "M_SecGen3",
"QuestionDefinition": "Information on sectoral plans",
"QuestionText": "Sectoral plans on",
"Sector": "Transport",
"SubSector": "Transport: General"
}
],
[
{
"Alpha2": "LK",
"OverviewCategory": "Sectoral Mitigation Plans",
"QuestionCode": "M_SecGen3",
"QuestionDefinition": "Information on sectoral plans",
"QuestionText": "Sectoral plans on",
"Sector": "Transport",
"SubSector": "Aviation"
}
]
] |
[
0,
0
] | {
"label": "en-US",
"score": 0.9999337196
} | [
0,
1
] | LKA | Sri Lanka | [
1,
0
] | [
[
"{'mode_taxis': nan, 'IkiSheet': 'mitigation', 'page_number': nan, 'mode_inland_shipping': nan, 'mode_coastal_shipping': nan, 'g20': 0, 'mode_cycling': nan, 'mode_road': nan, 'geo_not_defined': 'x', 'high_level_category': 'Low-carbon fuels and energy vectors', 'g7': 0, 'geo_inter-city': nan, 'mena': 0, 'mode_heavy_rail': nan, 'mode_walking': nan, 'mode_international_maritime': nan, 'mode_not_defined': 'x', 'mode_aviation': nan, 'geo_urban': nan, 'activity_type': 'E_Notdefined', 'a_s_i': 'Improve', 'mode_high-speed_rail': nan, 'mode_cars': nan, 'indicator': 'Fuel quality improvements', 'mode_water': nan, 'mode_truck': nan, 'oecd': 'non-OECD', 'mode_two-/three-wheelers': nan, 'income_group': 'Middle-income', 'mode_bus': nan, 'mode_transit_rail': nan, 'geo_rural': nan, 'region': 'Asia', 'parameter': 'I_Fuelqualimprove', 'mode_private_cars': nan, 'category': 'Vehicle improvements', 'mode_rail': nan, 'annex_type': 'Non-Annex I', 'mode_active_mobility': nan}"
]
] | [
"IKITracs"
] | [
0,
1
] | Reduction of GHG emissions in the maritime sector. 6.1 Implement international laws and regulations on maritime safety & security related to climate change, 6.2 Maintain international standards related to climate change in maritime transportation. 7. Gazette new emission standards to reduce GHG emissions 7.1 Improve vehicle emission testing programme, and | Reduction of GHG emissions in the maritime sector. 6.1 Implement international laws and regulations on maritime safety & security related to climate change, 6.2 Maintain international standards related to climate change in maritime transportation. 7. Gazette new emission standards to reduce GHG emissions 7.1 Improve vehicle emission testing programme, and spot testing for all vehicles, 7.2 Introduce a heavy smoke vehicles spotter programme 7.3 Introduce a road side vehicle emission testing programme 7.4 Inspect and monitor vehicle emission testing centres 8. | [
0,
0
] | [
"First NDC"
] | [
"Upgrading of Fuel Quality Standards in order to reduce GHG emission"
] | [
[
null
]
] |
[
1,
0
] | {
"label": "en-US",
"score": 0.9999346733
} | [
0,
1
] | LKA | Sri Lanka | [
1,
0
] | [
[
null
]
] | [
"CW"
] | [
0,
1
] | Reduction of GHG emissions in the maritime sector. 6.1 Implement international laws and regulations on maritime safety & security related to climate change,. 6.2 Maintain international standards related to climate change in maritime transportation. Gazette new emission standards to reduce GHG emissions. 7.1 Improve vehicle emission testing programme, and spot | Reduction of GHG emissions in the maritime sector. 6.1 Implement international laws and regulations on maritime safety & security related to climate change,. 6.2 Maintain international standards related to climate change in maritime transportation. Gazette new emission standards to reduce GHG emissions. 7.1 Improve vehicle emission testing programme, and spot testing for all vehicles,. 7.2 Introduce a heavy smoke vehicles spotter programme. 7.3 Introduce a road side vehicle emission testing programme. 7.4 Inspect and monitor vehicle emission testing centres. | [
0,
1
] | [
"First NDC"
] | [
"Reduction of GHG emissions in the maritime sector.<br>Maintain international standards related to climate change in maritime transportation."
] | [
[
{
"Alpha2": "LK",
"OverviewCategory": "Sectoral Mitigation Plans",
"QuestionCode": "M_SecGen3",
"QuestionDefinition": "Information on sectoral plans",
"QuestionText": "Sectoral plans on",
"Sector": "Transport",
"SubSector": "Maritime"
}
]
] |
[
0,
1
] | {
"label": "en-US",
"score": 0.9999194145
} | [
0,
1
] | KHM | Cambodia | [
0,
1
] | [
[
null
]
] | [
"CW"
] | [
1,
0
] | Reduction of GHG in atmosphere Promote low-cost materials for building and housing. Improve health and safety of city inhabitants. Mainstream climate change response measures into coastal development planning against sea water intrusion, sea water rise and seasonal storm destruction, and rising temperature. MLMUPC. Promote sea engineering environment, sea water rise, | Reduction of GHG in atmosphere Promote low-cost materials for building and housing. Improve health and safety of city inhabitants. Mainstream climate change response measures into coastal development planning against sea water intrusion, sea water rise and seasonal storm destruction, and rising temperature. MLMUPC. Promote sea engineering environment, sea water rise, sea tidal hazard, seawater intrusion and sea erosion. Disaster management to protect coastal populations. Strengthening climate resilient city. NCDD. Strengthen knowledge and capacity on resilient city. Financing for resilient cities. Partnership and communication. | [
1,
0
] | [
"Revised First NDC"
] | [
"“Mainstream climate change response measures into coastal development planning against sea water intrusion, sea water rise and seasonal storm destruction, and rising temperature” (p. 123)"
] | [
[
{
"Alpha2": "KH",
"OverviewCategory": "Adaptation Commitments",
"QuestionCode": "ad_sec_action",
"QuestionDefinition": "Adaptation action/priority",
"QuestionText": "Action and priority",
"Sector": "Coastal Zone",
"SubSector": "Sea-level rise protection"
}
]
] |
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