Alternate wetting and drying period (AWD)...
Dataset description:
Rice is a daily staple food for more than half of the world’s population but is also a significant source of greenhouse gas emissions. Rice paddies account for ~48% of greenhouse gas...
Source: Alternate wetting and drying period (AWD) pilot. Kanghot irrigated perimeter, Battambang province
Additional Information
| Field | Value |
|---|---|
| Data last updated | November 12, 2025 |
| Metadata last updated | November 27, 2025 |
| Created | November 12, 2025 |
| Format | |
| License | License Not Specified |
| Datastore active | False |
| Datastore contains all records of source file | False |
| Has views | True |
| Id | 9e1eb6a2-d58f-467b-8163-cb9c9c824caa |
| Mimetype | application/pdf |
| Name translated | {'en': 'Alternate wetting and drying period (AWD) pilot. Kanghot irrigated perimeter, Battambang province', 'km': 'Alternate wetting and drying period (AWD) pilot. Kanghot irrigated perimeter, Battambang province', 'lo': 'Alternate wetting and drying period (AWD) pilot. Kanghot irrigated perimeter, Battambang province', 'my_MM': 'Alternate wetting and drying period (AWD) pilot. Kanghot irrigated perimeter, Battambang province', 'vi': 'Alternate wetting and drying period (AWD) pilot. Kanghot irrigated perimeter, Battambang province'} |
| Package id | 4326779b-5ab5-4396-ab5b-bb62a15396b5 |
| Position | 0 |
| Resource description | {'en': 'Rice is a daily staple food for more than half of the world’s population but is also a significant source of greenhouse gas emissions. Rice paddies account for ~48% of greenhouse gas (GHG) emissions from croplands. Although Alternate Wetting and Drying (AWD), a methanereduction practice for irrigated rice field, has shown an increasing interest among public and private actors lately, successful projects showing large practice adoption by smallholder farmers remain few. As part of the Dei Meas pilot1 (ASSET/FFEM) and WAT4CAM program phase 1 (AFD-EU), synchronized agriculture and AWD practices were tested with smallholder farmers in Kanghot irrigated perimeter, Battambang province, during the 2nd cycle of rice (October 2024 to January 2025). This small-scale pilot aimed to support the adoption of collective farming practices among rice farmers, and to identify the benefits and challenges of AWD in the targeted area. ', 'km': 'Rice is a daily staple food for more than half of the world’s population but is also a significant source of greenhouse gas emissions. Rice paddies account for ~48% of greenhouse gas (GHG) emissions from croplands. Although Alternate Wetting and Drying (AWD), a methanereduction practice for irrigated rice field, has shown an increasing interest among public and private actors lately, successful projects showing large practice adoption by smallholder farmers remain few. As part of the Dei Meas pilot1 (ASSET/FFEM) and WAT4CAM program phase 1 (AFD-EU), synchronized agriculture and AWD practices were tested with smallholder farmers in Kanghot irrigated perimeter, Battambang province, during the 2nd cycle of rice (October 2024 to January 2025). This small-scale pilot aimed to support the adoption of collective farming practices among rice farmers, and to identify the benefits and challenges of AWD in the targeted area. ', 'lo': 'Rice is a daily staple food for more than half of the world’s population but is also a significant source of greenhouse gas emissions. Rice paddies account for ~48% of greenhouse gas (GHG) emissions from croplands. Although Alternate Wetting and Drying (AWD), a methanereduction practice for irrigated rice field, has shown an increasing interest among public and private actors lately, successful projects showing large practice adoption by smallholder farmers remain few. As part of the Dei Meas pilot1 (ASSET/FFEM) and WAT4CAM program phase 1 (AFD-EU), synchronized agriculture and AWD practices were tested with smallholder farmers in Kanghot irrigated perimeter, Battambang province, during the 2nd cycle of rice (October 2024 to January 2025). This small-scale pilot aimed to support the adoption of collective farming practices among rice farmers, and to identify the benefits and challenges of AWD in the targeted area. ', 'my_MM': 'Rice is a daily staple food for more than half of the world’s population but is also a significant source of greenhouse gas emissions. Rice paddies account for ~48% of greenhouse gas (GHG) emissions from croplands. Although Alternate Wetting and Drying (AWD), a methanereduction practice for irrigated rice field, has shown an increasing interest among public and private actors lately, successful projects showing large practice adoption by smallholder farmers remain few. As part of the Dei Meas pilot1 (ASSET/FFEM) and WAT4CAM program phase 1 (AFD-EU), synchronized agriculture and AWD practices were tested with smallholder farmers in Kanghot irrigated perimeter, Battambang province, during the 2nd cycle of rice (October 2024 to January 2025). This small-scale pilot aimed to support the adoption of collective farming practices among rice farmers, and to identify the benefits and challenges of AWD in the targeted area. ', 'vi': 'Rice is a daily staple food for more than half of the world’s population but is also a significant source of greenhouse gas emissions. Rice paddies account for ~48% of greenhouse gas (GHG) emissions from croplands. Although Alternate Wetting and Drying (AWD), a methanereduction practice for irrigated rice field, has shown an increasing interest among public and private actors lately, successful projects showing large practice adoption by smallholder farmers remain few. As part of the Dei Meas pilot1 (ASSET/FFEM) and WAT4CAM program phase 1 (AFD-EU), synchronized agriculture and AWD practices were tested with smallholder farmers in Kanghot irrigated perimeter, Battambang province, during the 2nd cycle of rice (October 2024 to January 2025). This small-scale pilot aimed to support the adoption of collective farming practices among rice farmers, and to identify the benefits and challenges of AWD in the targeted area. '} |
| Size | 5.3 MiB |
| State | active |
| Url type | upload |
| Name | Alternate wetting and drying period (AWD) pilot. Kanghot irrigated perimeter, Battambang province |
| Description | Rice is a daily staple food for more than half of the world’s population but is also a significant source of greenhouse gas emissions. Rice paddies account for ~48% of greenhouse gas (GHG) emissions from croplands. Although Alternate Wetting and Drying (AWD), a methanereduction practice for irrigated rice field, has shown an increasing interest among public and private actors lately, successful projects showing large practice adoption by smallholder farmers remain few. As part of the Dei Meas pilot1 (ASSET/FFEM) and WAT4CAM program phase 1 (AFD-EU), synchronized agriculture and AWD practices were tested with smallholder farmers in Kanghot irrigated perimeter, Battambang province, during the 2nd cycle of rice (October 2024 to January 2025). This small-scale pilot aimed to support the adoption of collective farming practices among rice farmers, and to identify the benefits and challenges of AWD in the targeted area. |