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Spatial and temporal trends of water productivity in the lower Mekong River Basin

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Author Info
Mainuddin, Mohammed
Kirby, Mac
Abstract

We estimate the physical and economic water productivities of rice and upland crops grown in the Lower Mekong River Basin and we examine their spatial and temporal trends. We discuss the constraints to low productivity, suggest measures for improvement and show the future productivity requirements for food security for increased population. Both the physical and economic water productivities of rice are higher in Vietnam, moderate in Laos, and lower in Thailand and Cambodia. In contrast, the physical water productivities of upland crops such as sugarcane and maize are highest in Thailand. The economic water productivity of upland crops is higher in Laos followed by Vietnam, Cambodia and Thailand, and is much higher than that of rice. However, the economic productivity of all crops is dominated by the productivity of rice, particularly lowland rainfed rice, which is the dominant crop in the Lower Basin. The intra-regional variation (among the provinces within a country) of productivity is not substantial. There is an increasing trend of both physical and economic water productivity in all four riparian countries; however, the increase is more prominent in Laos and Vietnam. The economic productivity of upland crops is much higher than that of rice and therefore cultivation of more upland crops can significantly increase farm-level incomes, with positive impacts on reducing poverty. Increasing upland crops areas is unlikely to have any impact on the food security of the basin. The current rate of increase of both production and productivity of rice is considerably greater than the rate required to feed the expected extra population by 2050, suggesting that food security is not threatened by the population increase. There appears to be considerable scope to increase productivity and maintain the export potential of the basin.

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Publisher Info
Article provided by Elsevier in its journal Agricultural Water Management.

Volume (Year): 96 (2009)
Issue (Month): 11 (November)
Pages: 1567-1578
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Handle: RePEc:eee:agiwat:v:96:y:2009:i:11:p:1567-1578

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Web page: http://www.elsevier.com/locate/agwat

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Related research
Keywords: Food security Poverty alleviation Rainfed rice Upland crops;

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This page was last updated on 2009-12-30.

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