Modeling irrigated agricultural production and water use decisions under water supply uncertainty

Marques, Guilherme Fernandes; Lund, Jay R.; Howitt, Richard E.

doi:10.1029/2005wr004048

Cited by 68 publications

(36 citation statements)

References 24 publications

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“…Farmers try to optimize water allocation among challenging crops and irrigation technologies to maximize production and farm revenue [13]. Policies related to the management of water resources are a current problem throughout the world [14][15][16] Current water policies treat water as an economic good, yet water shares a number of characteristics with other resources, like life and politics.…”

Section: Introductionmentioning

confidence: 99%

Analysis of Factors that Influence the Willingness to Pay for Irrigation Water in the Kurdistan Regional Government, Iraq

et al. 2015

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Abstract:Water availability has become a problem in many countries of the world. Water scarcity can be economic or physical. Agricultural water use accounts for about three quarters of total global consumption; in many developing countries, irrigation represents over 90% of the water used. The purpose of this paper is to explore the willingness to pay for irrigation water among the farmers from the boundaries governed by the Kurdistan Regional Government (KRG). During the field study, 236 farmers from KRG were interviewed. The collected data were analyzed for each of the precipitation zones of the area (secured (A) and non-secured rainfed (B)). The contingent valuation method was used to determine the willingness to pay for irrigation water. The following possible independent variables influencing farmers' decisions were considered: the bid amounts; evaluation scale of the water deficit; source of water for irrigation; cultivated area; education and age of respondents; main agricultural activity. In Zone A, the median willingness to pay of the farmers that used ground water for irrigation is 20.

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Section: Introductionmentioning

confidence: 99%

Analysis of Factors that Influence the Willingness to Pay for Irrigation Water in the Kurdistan Regional Government, Iraq

et al. 2015

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“…The 30-year flow data of the Chia-Nan region in Southern Taiwan are treated stochastically. Marques et al (2005) developed a two-stage economic production model to examine the effects of hydrologic uncertainty and water prices on agricultural production, cropping patterns, and water and irrigation technology use. The model maximizes net expected farm profit from permanent and annual crop production with probabilistic water availability and a variety of irrigation technologies.…”

Section: Introductionmentioning

confidence: 99%

Stochastic multiobjective optimization model for allocating irrigation water to paddy fields

Zhang

Maeda

Kawachi

2007

Paddy Water Environ

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A stochastic multiobjective optimization model is presented to allocate irrigation waters to blocks of paddy fields in an agricultural district. Environmental uncertainty and temporal variation of water requirement at the fields are represented in the model formulation by employing a scenario-based description. To improve the efficiency of water use, two conflicting objectives, i.e., minimization of water withdrawal from a river and maximization of rice production, are expressed in linear objective functions. Water balances in a river, a field block and a channel network interconnecting with some blocks of paddy fields are considered as constraints. Adjusting a weight in a synthesized objective function results in producing a set of noninferior solutions, which could be useful in discussing water management alternatives in decision-making. The application of the presented model to a hypothetical irrigation district demonstrates that optimal water intake and allocations of irrigation waters could be produced.

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“…Two problems can be analysed here: ones where the cropping pattern is previously defined, and others where the cropping patterns are to be defined. The first situation gives rise to the water allocation models (Rao et al [28], Hiessl and Plate [11], Paudyal and Manguerra [25], Vedula and Mujumbar [36], Wardlaw and Barnes [37], Kipkorir et al [14]), and the second situation gives rise to the land and water allocation models (Matanga and Mariño [23], Kumar and Khepar [17], Yaron and Dinar [38], Rao et al [27], Manocchi and Mecarelli [19], Sahoo et al [30], Marques et al [21], Smout and Gorantiwar [32], Gorantiwar and Smout [8]). …”

Section: Irrigation Management Problemsmentioning

confidence: 99%

“…Multicrop situations were dealt with by Sunantara and Ramirez [33] in an optimal seasonal irrigation water allocation and an optimal stochastic intraseasonal (daily) irrigation scheduling model, by Vedula and Nagesh Kumar [35] in the context of a single purpose irrigation reservoir, and by Rao et al [28] that used heuristically derived seasonal crop-water production functions. Marques et al [21] have described a two-stage stochastic quadratic programming technique for taking decisions on perennial and annual crops, water use, irrigation technologies and economic performance.…”

Section: Decision-aid Modelsmentioning

confidence: 99%

Irrigation management: the optimization perspective

Cunha¹

2006

WIT Transactions on Ecology and the Environment, 96

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Irrigation management deals with many different decisions: the selection of economically viable cropping patterns, allocation of land per crop, allocation of water resources per crop, irrigation scheduling, management of irrigation deficit, etc. Plants need appropriate amounts of water, and its distribution during the full growing cycle has a tremendous influence on the final crop yield. This means that managing the soil water content is crucial to obtain an optimal allocation of water resources, supposing that the other production factors are adequate. The use of decision models to help irrigation management appears to be an interesting approach, as they are capable of handling different facets of such problems (economic, physiological, environmental, etc.) all together. This paper presents a synthetic state-of-the-art literature review of the optimization models for these purposes. The different agricultural production functions and their inclusion in the decision models are discussed.

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Modeling irrigated agricultural production and water use decisions under water supply uncertainty

Cited by 68 publications

References 24 publications

Analysis of Factors that Influence the Willingness to Pay for Irrigation Water in the Kurdistan Regional Government, Iraq

Analysis of Factors that Influence the Willingness to Pay for Irrigation Water in the Kurdistan Regional Government, Iraq

Stochastic multiobjective optimization model for allocating irrigation water to paddy fields

Irrigation management: the optimization perspective

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