Your search found 2 records
1 Okwany, Romulus O.; Prathapar, Sanmugam; Bastakoti, Ram C.; Mondal, M. K. 2016. Shallow subsurface drainage for managing seasonal flooding in Ganges floodplain, Bangladesh. Irrigation and Drainage, 65(5):712-723. [doi: https://doi.org/10.1002/ird.1990]
Subsurface drainage ; Flood control ; Water management ; Groundwater table ; Water levels ; Surface water ; Ponds ; Canals ; Monsoon climate ; Seasonal cropping ; Rice ; Winter crops ; Sunflowers ; Harvesting ; Soil moisture ; Precipitation ; Evaporation ; Monitoring ; Farmers ; Community involvement ; Floodplains / Bangladesh / Ganges Floodplain / Khulna / Batiaghata
(Location: IWMI HQ Call no: e-copy only Record No: H047979)
(2.02 MB) (2.02 MB)
The impact of shallow subsurface drainage was investigated as a pilot study on a 0.13 ha plot of a farmer’s field located in Batiaghata, Khulna District, Bangladesh, in the floodplain of the Bay of Bengal. The drainage design differed from traditional subsurface tile drains in two respects: (i) the depth of drains was shallow (30 cm); and (ii) the design did not include a sump and accessories such as pumps (drainage outlets were tidal).
A monsoonal paddy rice crop followed by a winter sunflower crop was evaluated. The experimental treatment was a shallow subsurface drainage system with a drain depth of 0.3 m and drain spacing of 8 m. Measurements of surface flooding depth and groundwater table depth were made weekly and subsurface drainage discharge during managed drainage of the field was measured to determine system responsiveness. The managed subsurface drainage enabled the establishment of the winter sunflower crop 1.5 months earlier than the usual local practice, increased the yield and facilitated safe harvest, avoiding pre-monsoonal rainfall damage. Farmers expressed increased interest in managed subsurface drainage for its potential for early establishment of rabi crops and increased yields in the study area. This study outlines the potential benefits resulting from subsurface drainage in Khulna District.
A monsoonal paddy rice crop followed by a winter sunflower crop was evaluated. The experimental treatment was a shallow subsurface drainage system with a drain depth of 0.3 m and drain spacing of 8 m. Measurements of surface flooding depth and groundwater table depth were made weekly and subsurface drainage discharge during managed drainage of the field was measured to determine system responsiveness. The managed subsurface drainage enabled the establishment of the winter sunflower crop 1.5 months earlier than the usual local practice, increased the yield and facilitated safe harvest, avoiding pre-monsoonal rainfall damage. Farmers expressed increased interest in managed subsurface drainage for its potential for early establishment of rabi crops and increased yields in the study area. This study outlines the potential benefits resulting from subsurface drainage in Khulna District.
2 Cai, Xueliang; Magidi, J.; Nhamo, Luxon; van Koppen, Barbara. 2017. Mapping irrigated areas in the Limpopo Province, South Africa. Colombo, Sri Lanka: International Water Management Institute (IWMI). 37p. (IWMI Working Paper 172) [doi: https://doi.org/10.5337/2017.205]
Irrigated land ; Agricultural land ; Cultivated land ; Agricultural development ; Rainfed farming ; Land cover ; Remote sensing ; Satellite imagery ; Mapping ; Sustainable development ; Water resources ; Water security ; Surface water ; Groundwater irrigation ; Seasonal cropping ; Winter crops ; Food production ; Developing countries ; Irrigation operation ; Smallholders ; Surveys ; Capacity building / South Africa / Limpopo Province
(Location: IWMI HQ Call no: IWMI Record No: H048084)
(2 MB)
This report summarizes the findings of a collaborative effort to map and assess irrigated areas in the Limpopo Province, South Africa. The study was conducted by the International Water Management Institute (IWMI) in collaboration with the Department of Agriculture, Forestry and Fisheries (DAFF) and the Limpopo Department of Agriculture and Rural Development (LDARD), as part of the DAFF-supported ‘Revitalization of irrigation in South Africa’ project. Based on a combination of Landsat and Moderate Resolution Imaging Spectroradiometer (MODIS) satellite data, previous irrigated area mapping exercises carried out by DAFF and three-field ground truthing (GT) surveys, a total of 1.6 million hectares (Mha) of cropland were identified, with 262,000 ha actually irrigated in the 2015 winter season. The study also found that only 29% of all land equipped with center pivots was actually irrigated.
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