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Application of a crop growth simulation model for enhancing the water use efficiency
Published in American Society of Agricultural and Biological Engineers
2008
Volume: 9
   
Pages: 5298 - 5308
Abstract
There has been a considerable increase in the irrigated agricultural areas all over the world in the last few decades. The major reason for such an increase can be attributed to growing demand for food by the increasing population. However, this has created a competing environment for water, which is a scarce resource but essential for agricultural production. Hence better water management practices are warranted. It follows that new scientific techniques in agriculture and in irrigation management is to be introduced. Irrigation scheduling under water deficit situation is the challenge before the scientists and engineers. It is known that the sensitivity of any crop to water deficit is not uniform throughout its growth, and therefore it is difficult to take a decision by the irrigation manager on how to distribute the deficit along the intra-seasonal periods of a crop. The practice so far has been either to uniformly distribute the deficit throughout the crop growth or to decrease the cropped area so that full irrigation can be provided. This study proposes the use of a crop growth simulation model in conjunction with an optimization model to effectively schedule the irrigation in order to achieve minimum reduction in crop yield due to the water stress. This is achieved by developing a generic crop growth simulation model which can simulate crop growth and end yield. The model consists of a water driven crop growth module which relates the consumptive use to harvestable mass produced in terms of fraction of above ground biomass. This crop growth model is integrated with an optimization framework for operating a reservoir that irrigates multiple crops in a command area, which aim to minimize the yield reduction due to water deficit for the crop. The model is demonstrated using a case study-Chittar river basin irrigation system, Tamilnadu, India.
About the journal
JournalAmerican Society of Agricultural and Biological Engineers Annual International Meeting 2008, ASABE 2008
PublisherAmerican Society of Agricultural and Biological Engineers
Open AccessNo
Concepts (30)
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    Biomass
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    Forestry
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    Irrigation
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    Plants (botany)
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    Water management
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    Water supply
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    ABOVE-GROUND BIOMASS
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    AGRICULTURAL AREAS
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    AGRICULTURAL PRODUCTIONS
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    CROP GROWTH MODELS
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    CROP GROWTH SIMULATION
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    CROP YIELDS
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    GROWING DEMANDS
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    IRRIGATION MANAGEMENTS
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    IRRIGATION SCHEDULING
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    IRRIGATION SYSTEMS
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    MANAGEMENT PRACTICES
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    OPTIMIZATION FRAMEWORKS
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    Optimization models
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    River basins
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    Scarce resources
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    Scientists and engineers
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    SEASONAL PERIODS
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    UNDER WATERS
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    WATER DEFICITS
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    WATER PRODUCTIVITY
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    Water stress
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    WATER-USE EFFICIENCIES
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    YIELD REDUCTIONS
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    Crops