Efficient Management of Rainwater for Increased Crop Productivity and Groundwater Recharge in Asia

    Wani, S P and Pathak, P and Sreedevi, T K and Singh, H P and Singh, P (2003) Efficient Management of Rainwater for Increased Crop Productivity and Groundwater Recharge in Asia. In: Water productivity in agriculture: limits and opportunities for improvement. CAB International Publishing, Europe, UK, pp. 199-215. ISBN 0-85199-669-8

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    Abstract

    Rainwater is the main source of water for agriculture but its current use efficiency for crop production ranges between only 30 and 45%. Annually, 300–800 mm of seasonal rainfall are not used productively, as the rainfall becomes surface runoff or deep drainage. The International Crops Research Institute for the Semi-Arid Tropics (ICRISAT)’s long experience, in partnership with national agricultural research systems, in integrated watershed management has clearly demonstrated that areas with good soils in the semi-arid tropics (SAT) in Asia can support double-cropping, while surplus rainwater could recharge the groundwater. In the integrated watershed approach, the emphasis is on in situ conservation of rainwater at farm level, with the excess water being taken out of the fields safely through com- munity drainage channels and stored in suitable low-cost structures. The stored water is used as surface irrigation or for recharging groundwater. Following conservation of the rainwater, its efficient use is achieved through choosing appropriate crops, improved varieties, cropping systems and nutrient and pest-management options for increasing productivity and conserving natural resources. Longterm, on-station watershed experiments have demonstrated that Vertisols with a rainfall of 800 mm have the capacity to feed 18 persons haϪ1 (4.7 t of food grains haϪ1) compared with their current productivity of 0.9 t haϪ1 supporting four persons haϪ1. This increased productivity can be achieved if the productivity of rainwater is doubled (from 30% to 67%) and the soil loss is reduced by 75% compared with the loss under traditional methods of cultivation. By adopting such a holistic approach to the management of rainwater in partnership with the communities, crop productivity in the watersheds is substantially increased (up to 250%), groundwater levels improved and soil loss minimized. Results from such on-farm integrated watersheds are discussed. Conditions for success in the improved management of rainwater are: community participation, capacity building at local level through appropriate technical guidance and the use of new scientific tools to manage the watersheds efficiently. To sustain agricultural productivity in the SAT, this holistic approach of watershed management needs to be scaled up through appropriate policy and institutional support and its on-site and off-site impacts need to be studied.

    Item Type: Book Section
    Divisions: UNSPECIFIED
    CRP: UNSPECIFIED
    Subjects: Others > Watershed Management
    Depositing User: Mr Sanat Kumar Behera
    Date Deposited: 11 Oct 2011 09:59
    Last Modified: 11 Oct 2011 09:59
    URI: http://oar.icrisat.org/id/eprint/2286
    Acknowledgement: UNSPECIFIED
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