Soil Nutrient and Greenhouse Gas Monitoring...
Dataset description:
The roundtable discussion "Digital Transformation and Greenhouse Gas Emissions Management for the Development of High-Quality, Low-Emission Rice Production in the Mekong Delta" was held...
Additional Information
| Field | Value |
|---|---|
| Data last updated | June 26, 2026 |
| Metadata last updated | June 26, 2026 |
| Created | June 26, 2026 |
| Format | |
| License | Creative Commons Attribution Non Commercial 4.0 |
| Datastore active | False |
| Datastore contains all records of source file | False |
| Has views | True |
| Id | 10851503-20d0-4b83-a312-3bf28fbac61f |
| Mimetype | application/pdf |
| Name translated | {'en': 'Soil Nutrient and Greenhouse Gas Monitoring System for Alternate Wetting and Drying (AWD) Rice Cultivation', 'km': '', 'lo': '', 'my_MM': '', 'vi': 'Hệ thống giám sát dinh dưỡng đất và khí nhà kính trong mô hình canh tác lúa ngập khô xen kẽ'} |
| Package id | b64183e4-356e-4369-b21a-ede35b55c109 |
| Position | 1 |
| Resource description | {'en': "This project, developed under Phase 2 of Can Tho University's Technical Support Project, introduces an advanced integrated platform featuring a soil nutrient and greenhouse gas monitoring system specifically designed for Alternate Wetting and Drying (AWD) rice cultivation. To drive sustainable agriculture in the Mekong Delta, the infrastructure utilizes automated wireless sensor networks alongside handheld smart devices to monitor water levels, soil N-P-K, pH, salinity, and $CH_4$/$N_2O$ emissions in real-time. The technical framework is seamlessly coupled with a dedicated application layer that allows agricultural experts to define high-quality farming models, outline production tasks, and systematically track resource utilization using Gantt charts. This holistic digital approach effectively empowers farmers to manage fields remotely, maintain thorough electronic production logs with image uploads, reduce chemical inputs, and accurately quantify environmental footprints to verify emission reductions. ", 'km': '', 'lo': '', 'my_MM': '', 'vi': ''} |
| Size | 5.8 MiB |
| State | active |
| Url type | upload |
| Name | Soil Nutrient and Greenhouse Gas Monitoring System for Alternate Wetting and Drying (AWD) Rice Cultivation |
| Description | This project, developed under Phase 2 of Can Tho University's Technical Support Project, introduces an advanced integrated platform featuring a soil nutrient and greenhouse gas monitoring system specifically designed for Alternate Wetting and Drying (AWD) rice cultivation. To drive sustainable agriculture in the Mekong Delta, the infrastructure utilizes automated wireless sensor networks alongside handheld smart devices to monitor water levels, soil N-P-K, pH, salinity, and $CH_4$/$N_2O$ emissions in real-time. The technical framework is seamlessly coupled with a dedicated application layer that allows agricultural experts to define high-quality farming models, outline production tasks, and systematically track resource utilization using Gantt charts. This holistic digital approach effectively empowers farmers to manage fields remotely, maintain thorough electronic production logs with image uploads, reduce chemical inputs, and accurately quantify environmental footprints to verify emission reductions. |