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Global Change Biology
Volume 22, Issue 11
Primary Research Article

Modelling climate change impacts on viticultural yield, phenology and stress conditions in Europe

Helder Fraga

Corresponding Author

E-mail address: hfraga@utad.pt

Centre for the Research and Technology of Agro‐Environmental and Biological Sciences, Universidade de Trás‐os‐Montes e Alto Douro, Vila Real, 5000‐801 Portugal

Correspondence: Helder Fraga, Centre for the Research and Technology of Agro‐Environmental and Biological Sciences, Universidade de Trás‐os‐Montes e Alto Douro, 5000‐801 Vila Real, Portugal, tel. +351 259 350 000, fax: +351 259 350 480, e‐mail: hfraga@utad.ptSearch for more papers by this author
Iñaki García de Cortázar Atauri

French National Institute for Agricultural Research, US1116 AgroClim, INRA, Avignon, F‐84914 France

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Aureliano C. Malheiro

Centre for the Research and Technology of Agro‐Environmental and Biological Sciences, Universidade de Trás‐os‐Montes e Alto Douro, Vila Real, 5000‐801 Portugal

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João A. Santos

Centre for the Research and Technology of Agro‐Environmental and Biological Sciences, Universidade de Trás‐os‐Montes e Alto Douro, Vila Real, 5000‐801 Portugal

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First published: 02 June 2016
https://doi.org/10.1111/gcb.13382
Citations: 74

Abstract

Viticulture is a key socio‐economic sector in Europe. Owing to the strong sensitivity of grapevines to atmospheric factors, climate change may represent an important challenge for this sector. This study analyses viticultural suitability, yield, phenology, and water and nitrogen stress indices in Europe, for present climates (1980–2005) and future (2041–2070) climate change scenarios (RCP4.5 and 8.5). The STICS crop model is coupled with climate, soil and terrain databases, also taking into account CO2 physiological effects, and simulations are validated against observational data sets. A clear agreement between simulated and observed phenology, leaf area index, yield and water and nitrogen stress indices, including the spatial differences throughout Europe, is shown. The projected changes highlight an extension of the climatic suitability for grapevines up to 55°N, which may represent the emergence of new winemaking regions. Despite strong regional heterogeneity, mean phenological timings (budburst, flowering, veraison and harvest) are projected to undergo significant advancements (e.g. budburst/harvest can be >1 month earlier), with implications also in the corresponding phenophase intervals. Enhanced dryness throughout Europe is also projected, with severe water stress over several regions in southern regions (e.g. southern Iberia and Italy), locally reducing yield and leaf area. Increased atmospheric CO2 partially offsets dryness effects, promoting yield and leaf area index increases in central/northern Europe. Future biomass changes may lead to modifications in nitrogen demands, with higher stress in northern/central Europe and weaker stress in southern Europe. These findings are critical decision support systems for stakeholders from the European winemaking sector.

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