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Potential changes in irrigation requirements and phenology of maize, apple trees and alfalfa under global change conditions in Fluvià watershed during XXIst century: Results from a modeling approximation to watershed-level water balance

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  • Savé, R.
  • de Herralde, F.
  • Aranda, X.
  • Pla, E.
  • Pascual, D.
  • Funes, I.
  • Biel, C.

Abstract

To evaluate the vulnerability of agriculture under Mediterranean conditions, the real water needs of agriculture in the Fluvià watershed (Catalonia, NE Spain) were estimated for the XXIst century using a combination of downscaled climate projections (ECHAM5 plus MM5) in two IPCC scenarios (B1 and A2), watershed hydrological model (SWAT) and FAO procedure to calculate crop potential evapotranspiration. In comparison with baseline conditions (1984–2008), climate projections predicted a 12% (B1) to 28% (A2) reduction in precipitation, and a 2.2°C (B1) to 3.6°C (A2) increment of mean annual temperature at the end of the XXI Century (2076–2100). The changes of the environmental conditions would affect the real water availability in different crops: water required for irrigation would increase significantly along the century, ranging from 40 to 250% depending on the crop, because of a direct decrease in the amount of water available along the growing season and because of the effects of the projected climatic conditions on potential evapotranspiration (ET0) and on the phenology of these crops. Results are showing the high sensitivity of agriculture, despite its expanding technology, to changes in climate, and even more to site, plot, orchard or terroir conditions.

Suggested Citation

  • Savé, R. & de Herralde, F. & Aranda, X. & Pla, E. & Pascual, D. & Funes, I. & Biel, C., 2012. "Potential changes in irrigation requirements and phenology of maize, apple trees and alfalfa under global change conditions in Fluvià watershed during XXIst century: Results from a modeling approximat," Agricultural Water Management, Elsevier, vol. 114(C), pages 78-87.
    • Handle: RePEc:eee:agiwat:v:114:y:2012:i:c:p:78-87
    DOI: 10.1016/j.agwat.2012.07.006
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    Cited by:

    1. Phogat, V. & Cox, J.W. & Šimůnek, J., 2018. "Identifying the future water and salinity risks to irrigated viticulture in the Murray-Darling Basin, South Australia," Agricultural Water Management, Elsevier, vol. 201(C), pages 107-117.
    2. Iphigenia Keramitsoglou & Panagiotis Sismanidis & Olga Sykioti & Vassilios Pisinaras & Ioannis Tsakmakis & Andreas Panagopoulos & Argyrios Argyriou & Chris T. Kiranoudis, 2023. "SENSE-GDD: A Satellite-Derived Temperature Monitoring Service to Provide Growing Degree Days," Agriculture, MDPI, vol. 13(5), pages 1-13, May.
    3. Molina-Navarro, Eugenio & Hallack-Alegría, Michelle & Martínez-Pérez, Silvia & Ramírez-Hernández, Jorge & Mungaray-Moctezuma, Alejandro & Sastre-Merlín, Antonio, 2016. "Hydrological modeling and climate change impacts in an agricultural semiarid region. Case study: Guadalupe River basin, Mexico," Agricultural Water Management, Elsevier, vol. 175(C), pages 29-42.
    4. Funes, I. & Savé, R. & de Herralde, F. & Biel, C. & Pla, E. & Pascual, D. & Zabalza, J. & Cantos, G. & Borràs, G. & Vayreda, J. & Aranda, X., 2021. "Modeling impacts of climate change on the water needs and growing cycle of crops in three Mediterranean basins," Agricultural Water Management, Elsevier, vol. 249(C).
    5. Hong, Eun-Mi & Nam, Won-Ho & Choi, Jin-Yong & Pachepsky, Yakov A., 2016. "Projected irrigation requirements for upland crops using soil moisture model under climate change in South Korea," Agricultural Water Management, Elsevier, vol. 165(C), pages 163-180.

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