Crop yields response to water pressures in the Ebro basin in Spain: risk and water policy implications

Quiroga, Sonia; Fernández-Haddad, Zaira; Iglesias, Ana

doi:10.5194/hess-15-505-2011

Cited by 19 publications

(14 citation statements)

References 33 publications

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“…We can see that in general the impact of these changes on social distribution of incomes is more significant in the areas where the cereals are dominant, and particularly the major impacts on technical efficiency are produced for barley and alfalfa crops. According to the results in the previous section, policies of reducing area under irrigation can be a non-dramatic solution for production [8,11,12], but in the long term they negatively affect the competitiveness and increasing social inequality in agriculture. Figure 6 shows the marginal effect of the irrigated area on competitiveness and income distribution looking at province level and taking into account the agricultural gross value added.…”

Section: Production Functions and Factors Affecting Technical Efficiementioning

confidence: 99%

“…Table 3 shows the estimated crop production functions for the five crops in the study. We selected the Cobb-Douglas production function form for all studied crops, first, due to its simplicity and validity [30] and its acceptance in the literature of production functions in agricultural economics [8,43,44] and second, due to the inherent problem of collinearity presented by the translog functions. Specifically, when we estimate the translog specification, we observe highly correlation between the new explanatory variables, high variance inflation factor and severe problems for the condition numbers (taking into account the guidelines reported in [45]), then we choose to try with a different specification of the model (Cobb-Douglas) using the same data and it produces shifts suggesting weak collinearity problems.…”

Section: Distributional Efficiency Using the Decomposition Of The Ginmentioning

confidence: 99%

“…We can observe that the coefficient for ln(irrig) in grapevine is negative what is due to the fact that grapevine is a rain fed crop and in this area include very high quality production (La Rioja, Rivera del Duero, Penedes, Navarra DO, etc.) where only deficit irrigation is being applied to maintain yield during drought periods ( [8]) since exceed water can affect the wines quality. Therefore, when scarcity problems arise, the water for irrigation is increased to maintain the crop, but still worse outputs can be expected due to the drought effects.…”

Section: Production Functions and Factors Affecting Technical Efficiementioning

confidence: 99%

“…accomplish the legal requirements of the WFD [8,14] and we focus on the analysis of water demand reduction for agricultural use through decreasing on irrigated areas.…”

mentioning

confidence: 99%

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Do Water Rights Affect Technical Efficiency and Social Disparities of Crop Production in the Mediterranean? The Spanish Ebro Basin Evidence

Quiroga

Fernández-Haddad²,

Suárez

2014

Water

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Abstract:The coming agenda for the European Common Agricultural Policy includes more incentives for the environmental compliance of farmer's activities. This will be particularly important in the case of water risk management in Mediterranean countries. Among the new challenges is the need to evaluate some of the instruments necessary to comply with the Water Framework Directive requirements that emphasize the management of water demand to achieve the environmental targets. Here we analyze the implications of changing water rights as a policy response to these challenges. We analyze two important aspects of the decision: (i) the effects on the crop productivity and efficiency and (ii) the effects on the rural income distribution. We provide the empirical estimations for the marginal effects on the two considered aspects. First, we calculate a stochastic frontier production function for five representative crops using historical data to estimate technical efficiency. Second, we use a decomposition of the Gini coefficient to estimate the impact of irrigation rights changes on yield disparity. In our estimates, we consider both bio-physical and socio-economic aspects to conclude that there are long term implications on both efficiency and social disparities. We find disparities in the adaptation strategies depending on the crop and the region analyzed.

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Section: Production Functions and Factors Affecting Technical Efficiementioning

confidence: 99%

Section: Distributional Efficiency Using the Decomposition Of The Ginmentioning

confidence: 99%

Section: Production Functions and Factors Affecting Technical Efficiementioning

confidence: 99%

“…accomplish the legal requirements of the WFD [8,14] and we focus on the analysis of water demand reduction for agricultural use through decreasing on irrigated areas.…”

mentioning

confidence: 99%

See 2 more Smart Citations

Do Water Rights Affect Technical Efficiency and Social Disparities of Crop Production in the Mediterranean? The Spanish Ebro Basin Evidence

Quiroga

Fernández-Haddad²,

Suárez

2014

Water

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“…In the context of climate change and of natural climate variability, there is a need to monitor the impacts of droughts on crops and water resources at continental and global scales (Quiroga et al, 2011;Van der Velde et al, 2012;Crow et al, 2012;Bastos et al, 2014). Modelling of continental surfaces into atmospheric and hydrological models has evolved in recent decades towards land surface models (LSMs) able to simulate the coupling of the water, energy and carbon cycles (Calvet et al, 1998;Krinner et al, 2005;Gibelin et al, 2006).…”

Section: Introductionmentioning

confidence: 99%

Parameter optimisation for a better representation of drought by LSMs: inverse modelling vs. sequential data assimilation

Dewaele¹,

Munier²,

Albergel³

et al. 2017

Hydrol. Earth Syst. Sci.

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Abstract. Soil maximum available water content (Max-AWC) is a key parameter in land surface models (LSMs). However, being difficult to measure, this parameter is usually uncertain. This study assesses the feasibility of using a 15-year (1999-2013) time series of satellite-derived lowresolution observations of leaf area index (LAI) to estimate MaxAWC for rainfed croplands over France. LAI interannual variability is simulated using the CO 2 -responsive version of the Interactions between Soil, Biosphere and Atmosphere (ISBA) LSM for various values of MaxAWC. Optimal value is then selected by using (1) a simple inverse modelling technique, comparing simulated and observed LAI and (2) a more complex method consisting in integrating observed LAI in ISBA through a land data assimilation system (LDAS) and minimising LAI analysis increments. The evaluation of the MaxAWC estimates from both methods is done using simulated annual maximum above-ground biomass (B ag ) and straw cereal grain yield (GY) values from the Agreste French agricultural statistics portal, for 45 administrative units presenting a high proportion of straw cereals. Significant correlations (p value < 0.01) between B ag and GY are found for up to 36 and 53 % of the administrative units for the inverse modelling and LDAS tuning methods, respectively. It is found that the LDAS tuning experiment gives more realistic values of MaxAWC and maximum B ag than the inverse modelling experiment. Using undisaggregated LAI observations leads to an underestimation of MaxAWC and maximum B ag in both experiments. Median annual maximum values of disaggregated LAI observations are found to correlate very well with MaxAWC.

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Crop Production Functions and Efficiency Models: Climate Change and Water Adaptation Policy Over Competitiveness and Social Disparities of Crop Production in the Mediterranean

Quiroga

Fernández-Haddad²,

Suárez

2018

Economic Tools and Methods for the Analysis of Global Change Impacts on Agriculture and Food Security

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Crop yields response to water pressures in the Ebro basin in Spain: risk and water policy implications

Cited by 19 publications

References 33 publications

Do Water Rights Affect Technical Efficiency and Social Disparities of Crop Production in the Mediterranean? The Spanish Ebro Basin Evidence

Do Water Rights Affect Technical Efficiency and Social Disparities of Crop Production in the Mediterranean? The Spanish Ebro Basin Evidence

Parameter optimisation for a better representation of drought by LSMs: inverse modelling vs. sequential data assimilation

Crop Production Functions and Efficiency Models: Climate Change and Water Adaptation Policy Over Competitiveness and Social Disparities of Crop Production in the Mediterranean

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