Integrated assessment of policy interventions for promoting sustainable irrigation in semi-arid environments: A hydro-economic modeling approach

Ferrer, Juan; Varela‐Ortega, Consuelo; Purkey, David

doi:10.1016/j.jenvman.2013.04.037

Cited by 89 publications

(61 citation statements)

References 53 publications

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“…The WEAP results on the potential effects of climate change on water availability and crops are entered into the MPM economic model, which in turn provides insights into farmers' crop choices and farmers' income. For further details on the characterization and functioning of this hydro-economic model, see Blanco-Gutiérrez et al (2013), and Esteve (2013).…”

Section: Assessing Climate Change Impactsmentioning

confidence: 99%

“…They were asked to decide on a reduced set of planned adaptation measures according to their suitability and effectiveness to increase resilience in the Guadiana Basin in light of the adverse impacts of climate change illustrated by the modeling results. Following stakeholders' advice and based on previous studies (Blanco-Gutiérrez et al 2013;Krysanova et al 2010), four adaptation measures were selected as the most appropriate to deal with climate change impacts in the region of study: (1) improving technical efficiency in the use of water (M 1 ); (2) increasing reservoir storage capacity (M 2 ); (3) choosing new crop varieties best suited to the new climate conditions (M 3 ); and (4) creation of agricultural insurance systems (M 4 ). These measures are commonly presented in other adaptation studies as key strategic actions to increase the resilience of the agriculture sector to climate change (e.g., Dolan et al 2001;Howden et al 2007).…”

Section: Policy Screening and Identification Of Adaptation Measuresmentioning

confidence: 99%

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How can irrigated agriculture adapt to climate change? Insights from the Guadiana Basin in Spain

et al. 2014

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Climate change is already affecting many natural systems and human environments worldwide, like the semiarid Guadiana Basin in Spain. This paper illustrates a systematic analysis of climate change adaptation in the Guadiana irrigation farming region. The study applies a solution-oriented diagnostic framework structured along a series of sequential analytical steps. An initial stage integrates economic and hydrologic modeling to evaluate the effects of climate change on the agriculture and water sectors. Next, adaptation measures are identified and prioritized through a stakeholder-based multi-criteria analysis.Finally, a social network analysis identifies key actors and their relationships in climate change adaptation. The study shows that under a severe climate change scenario, water availability could be substantially decreased and drought occurrence will augment. In consequence, farmers will adapt their crops to a lesser amount of water and income gains will diminish, particularly for smallholder farms. Among the various adaptation measures considered, those related to private farming (new crop varieties and modern irrigation technologies) are ranked highest, whereas publicfunded hard measures (reservoirs) are lowest and public soft measures (insurance) are ranked middle. In addition, stakeholders highlighted that the most relevant criteria for selecting adaptation plans are environmental protection, financial feasibility and employment creation. Nonetheless, the social network analysis evidenced the need to strengthen the links among the different stakeholder groups to facilitate the implementation of adaptation processes. In sum, the diagnostic framework applied in this research can be considered a valuable tool for guiding and supporting decision making in climate change adaptation and communicating scientific results.

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Section: Assessing Climate Change Impactsmentioning

confidence: 99%

Section: Policy Screening and Identification Of Adaptation Measuresmentioning

confidence: 99%

How can irrigated agriculture adapt to climate change? Insights from the Guadiana Basin in Spain

et al. 2014

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“…However, water productivity does not provide any information about the economic effects of decreased water use. Consequently, it is important to also consider the economic water productivity (EWP) [16,17], which defines the production value per unit of water used.…”

Section: Introductionmentioning

confidence: 99%

Economic Performance of Traditional and Modern Rice Varieties under Different Water Management Systems

et al. 2017

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Italian rice production is progressively threatened by water scarcity. Some strategies have been developed to reduce water use. Nevertheless, reducing water irrigation amounts may lower paddy rice production. This publication compares the productivity and the economic performances of traditional and modern rice varieties in northern Italy using two different water management systems. The objective of this analysis is to enhance Italian rice cultivation at the economic, environmental and agronomic levels. Some positive variations of water productivity and economic water productivity were observed for the two varieties when using a lower amount of irrigation water. However, actual production costs and most water supply fees are the same for all the irrigation methods. Furthermore, the study of agronomic traits shows that during the recent years, there were no significant differences or increases of yield among varieties. Consequently, to be adopted by farmers, the irrigation costs coupled with improved rice accessions need to be optimized.

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“…The Soil Moisture Method was chosen for a more detailed representation of the catchment processes. This method represents the catchment with two soil layers and allows for the characterization of land use impacts to the simulation processes [33,36] The upper layer simulates evaporation and transpiration processes, considering rainfall and irrigation, runoff, shallow interflow, and changes in soil moisture, whereas the lower layer simulates deep percolation and base-flow routing to the river [34]. Groundwater-surface water interactions are modelled using deep soil layer of catchments by the soil moisture method.…”

Section: Hydrologymentioning

confidence: 99%

Evaluating the Impacts of IWRM Policy Actions on Demand Satisfaction and Downstream Water Availability in the Upper Awash Basin, Ethiopia

Mersha

Masih

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et al. 2018

Water

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Abstract:Water scarcity problems are becoming increasingly common due to higher water demand, urbanization, economic development and climatic variability. Policies and measures based on Integrated Water Resources Management (IWRM) are often advocated to tackle the problems of competing demands and conflicts among stakeholders. Demand management measures as part of the IWRM package are expected to offset the increased demands on water resources caused by economic growth. However, even if IWRM-based policies are in place, the potential impacts of demand management are seldom quantified while formulating water policies or development plans. To address this, we conducted scenario analysis using Water Evaluation and Planning System (WEAP21) in a case study from the Awash Basin in Ethiopia. We show that ambitious irrigation expansion plans to combat food insecurity will lead to overexploitation of water resources with increasing inequity between smallholders and commercial farmers. Demand management measures proposed by water users are insufficient to offset these consequences. Potential demand measures that are embedded in the IWRM-based policies alone are also insufficient. While water policies emphasize IWRM principles but do not indicate how to properly implement them, economic development plans are often launched without adequately considering equity and environment, two of the three pillars of IWRM. This scenario analysis shows the importance of quantitative information in IWRM formulation and monitoring.

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Integrated assessment of policy interventions for promoting sustainable irrigation in semi-arid environments: A hydro-economic modeling approach

Cited by 89 publications

References 53 publications

How can irrigated agriculture adapt to climate change? Insights from the Guadiana Basin in Spain

How can irrigated agriculture adapt to climate change? Insights from the Guadiana Basin in Spain

Economic Performance of Traditional and Modern Rice Varieties under Different Water Management Systems

Evaluating the Impacts of IWRM Policy Actions on Demand Satisfaction and Downstream Water Availability in the Upper Awash Basin, Ethiopia

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