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Hydrological collapse in southern Spain under expanding irrigated agriculture: Meteorological, hydrological, and structural drought

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Listed:
  • Victoria Junquera
  • Daniel I. Rubenstein
  • Simon A. Levin
  • Jos'e I. Hormaza
  • I~naki Vadillo P'erez
  • Pablo Jim'enez Gavil'an

Abstract

Spain is the largest producer of avocado and mango fruits in Europe. The majority of production is concentrated in the Axarqu\'ia region in the south, where subtropical fruit plantations and associated water demands have steadily increased over the last two decades. Between 2019-2024, the region underwent an extreme water crisis. Reservoir reserves became nearly depleted and groundwater levels dropped to sea level in several locations, where seawater intrusion is likely, causing large socioeconomic impacts including short-term harvest losses and a long-term loss in economic centrality. We examine the causal pathway that led to this crisis using a mixed-methods approach, combining data from key informant interviews, an exhaustive review of legal documents, and quantitative analysis of time series and spatially explicit data. In particular, we analyze dam water use for irrigation and urban use, meteorological data, reservoir and groundwater levels, and irrigation land cover maps. Our findings show that an unusual meteorological drought was the immediate cause for the decline in reservoir and groundwater reserves (hydrological drought), but the underlying cause was a chronic and structural long-term imbalance between water demand and resources resulting from several structural governance shortcomings: large uncertainties in water resource availability and use hampering effective planning, lack of enforcement of individual water quotas, and the absence of regulatory mechanisms to flexibly impose resource use restrictions at both micro and macro levels based on the overall resources of the system. We propose concrete policy interventions aimed at sustainably enhancing the resilience of the system that can be useful to efficiently manage water shortages in other regions with similar problems.

Suggested Citation

  • Victoria Junquera & Daniel I. Rubenstein & Simon A. Levin & Jos'e I. Hormaza & I~naki Vadillo P'erez & Pablo Jim'enez Gavil'an, 2024. "Hydrological collapse in southern Spain under expanding irrigated agriculture: Meteorological, hydrological, and structural drought," Papers 2408.00683, arXiv.org.
    • Handle: RePEc:arx:papers:2408.00683
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    1. R. Quentin Grafton & Jamie Pittock & Richard Davis & John Williams & Guobin Fu & Michele Warburton & Bradley Udall & Ronnie McKenzie & Xiubo Yu & Nhu Che & Daniel Connell & Qiang Jiang & Tom Kompas & , 2013. "Global insights into water resources, climate change and governance," Nature Climate Change, Nature, vol. 3(4), pages 315-321, April.
    2. Xander Huggins & Tom Gleeson & Matti Kummu & Samuel C. Zipper & Yoshihide Wada & Tara J. Troy & James S. Famiglietti, 2022. "Hotspots for social and ecological impacts from freshwater stress and storage loss," Nature Communications, Nature, vol. 13(1), pages 1-11, December.
    3. Ellen M. Bruno & Katrina Jessoe, 2024. "Designing water markets for climate change adaptation," Nature Climate Change, Nature, vol. 14(4), pages 331-339, April.
    4. Arnald Puy & Razi Sheikholeslami & Hoshin V. Gupta & Jim W. Hall & Bruce Lankford & Samuele Lo Piano & Jonas Meier & Florian Pappenberger & Amilcare Porporato & Giulia Vico & Andrea Saltelli, 2022. "The delusive accuracy of global irrigation water withdrawal estimates," Nature Communications, Nature, vol. 13(1), pages 1-4, December.
    5. José Molina & José García Aróstegui & José Benavente & Consuelo Varela & Africa Hera & Juan López Geta, 2009. "Aquifers Overexploitation in SE Spain: A Proposal for the Integrated Analysis of Water Management," Water Resources Management: An International Journal, Published for the European Water Resources Association (EWRA), Springer;European Water Resources Association (EWRA), vol. 23(13), pages 2737-2760, October.
    6. Moreno-Ortega, G. & Pliego, C. & Sarmiento, D. & Barceló, A. & Martínez-Ferri, E., 2019. "Yield and fruit quality of avocado trees under different regimes of water supply in the subtropical coast of Spain," Agricultural Water Management, Elsevier, vol. 221(C), pages 192-201.
    7. Pang-Wei Liu & James S. Famiglietti & Adam J. Purdy & Kyra H. Adams & Avery L. McEvoy & John T. Reager & Rajat Bindlish & David N. Wiese & Cédric H. David & Matthew Rodell, 2022. "Groundwater depletion in California’s Central Valley accelerates during megadrought," Nature Communications, Nature, vol. 13(1), pages 1-11, December.
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