Climate change is affecting grape yield, composition and wine quality. As a result, the geography of wine production is changing. In this Review, we discuss the consequences of changing temperature, precipitation, humidity, radiation and CO2 on global wine production and explore adaptation strategies. Current winegrowing regions are primarily located at mid-latitudes (California, USA; southern France; northern Spain and Italy; Barossa, Australia; Stellenbosch, South Africa; and Mendoza, Argentina, among others), where the climate is warm enough to allow grape ripening, but without excessive heat, and relatively dry to avoid strong disease pressure. About 90% of traditional wine regions in coastal and lowland regions of Spain, Italy, Greece and southern California could be at risk of disappearing by the end of the century because of excessive drought and more frequent heatwaves with climate change. Warmer temperatures might increase suitability for other regions (Washington State, Oregon, Tasmania, northern France) and are driving the emergence of new wine regions, like the southern United Kingdom. The degree of these changes in suitability strongly depends on the level of temperature rise. Existing producers can adapt to a certain level of warming by changing plant material (varieties and rootstocks), training systems and vineyard management. However, these adaptations might not be enough to maintain economically viable wine production in all areas. Future research should aim to assess the economic impact of climate change adaptation strategies applied at large scale.
van Leeuwen, C., Sgubin, G., Bois, B., Ollat, N., Swingedouw, D., Zito, S., et al. (2024). Climate change impacts and adaptations of wine production. NATURE REVIEWS. EARTH & ENVIRONMENT, 5(4), 258-275 [10.1038/s43017-024-00521-5].
Climate change impacts and adaptations of wine production
Sgubin, Giovanni;
2024-01-01
Abstract
Climate change is affecting grape yield, composition and wine quality. As a result, the geography of wine production is changing. In this Review, we discuss the consequences of changing temperature, precipitation, humidity, radiation and CO2 on global wine production and explore adaptation strategies. Current winegrowing regions are primarily located at mid-latitudes (California, USA; southern France; northern Spain and Italy; Barossa, Australia; Stellenbosch, South Africa; and Mendoza, Argentina, among others), where the climate is warm enough to allow grape ripening, but without excessive heat, and relatively dry to avoid strong disease pressure. About 90% of traditional wine regions in coastal and lowland regions of Spain, Italy, Greece and southern California could be at risk of disappearing by the end of the century because of excessive drought and more frequent heatwaves with climate change. Warmer temperatures might increase suitability for other regions (Washington State, Oregon, Tasmania, northern France) and are driving the emergence of new wine regions, like the southern United Kingdom. The degree of these changes in suitability strongly depends on the level of temperature rise. Existing producers can adapt to a certain level of warming by changing plant material (varieties and rootstocks), training systems and vineyard management. However, these adaptations might not be enough to maintain economically viable wine production in all areas. Future research should aim to assess the economic impact of climate change adaptation strategies applied at large scale.
| Campo DC | Valore | Lingua |
|---|---|---|
| dc.authority.ancejournal | NATURE REVIEWS. EARTH & ENVIRONMENT | en |
| dc.authority.people | van Leeuwen, Cornelis | en |
| dc.authority.people | Sgubin, Giovanni | en |
| dc.authority.people | Bois, Benjamin | en |
| dc.authority.people | Ollat, Nathalie | en |
| dc.authority.people | Swingedouw, Didier | en |
| dc.authority.people | Zito, Sébastien | en |
| dc.authority.people | Gambetta, Gregory A. | en |
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| dc.date.accessioned | 2024/04/09 10:13:43 | - |
| dc.date.available | 2024/04/09 10:13:43 | - |
| dc.date.firstsubmission | 2024/04/08 11:50:01 | * |
| dc.date.issued | 2024 | - |
| dc.date.submission | 2024/04/10 11:10:34 | * |
| dc.description.abstracteng | Climate change is affecting grape yield, composition and wine quality. As a result, the geography of wine production is changing. In this Review, we discuss the consequences of changing temperature, precipitation, humidity, radiation and CO2 on global wine production and explore adaptation strategies. Current winegrowing regions are primarily located at mid-latitudes (California, USA; southern France; northern Spain and Italy; Barossa, Australia; Stellenbosch, South Africa; and Mendoza, Argentina, among others), where the climate is warm enough to allow grape ripening, but without excessive heat, and relatively dry to avoid strong disease pressure. About 90% of traditional wine regions in coastal and lowland regions of Spain, Italy, Greece and southern California could be at risk of disappearing by the end of the century because of excessive drought and more frequent heatwaves with climate change. Warmer temperatures might increase suitability for other regions (Washington State, Oregon, Tasmania, northern France) and are driving the emergence of new wine regions, like the southern United Kingdom. The degree of these changes in suitability strongly depends on the level of temperature rise. Existing producers can adapt to a certain level of warming by changing plant material (varieties and rootstocks), training systems and vineyard management. However, these adaptations might not be enough to maintain economically viable wine production in all areas. Future research should aim to assess the economic impact of climate change adaptation strategies applied at large scale. | - |
| dc.description.allpeople | van Leeuwen, Cornelis; Sgubin, Giovanni; Bois, Benjamin; Ollat, Nathalie; Swingedouw, Didier; Zito, Sébastien; Gambetta, Gregory A. | - |
| dc.description.allpeopleoriginal | van Leeuwen, Cornelis; Sgubin, Giovanni; Bois, Benjamin; Ollat, Nathalie; Swingedouw, Didier; Zito, Sébastien; Gambetta, Gregory A. | en |
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| dc.identifier.citation | van Leeuwen, C., Sgubin, G., Bois, B., Ollat, N., Swingedouw, D., Zito, S., et al. (2024). Climate change impacts and adaptations of wine production. NATURE REVIEWS. EARTH & ENVIRONMENT, 5(4), 258-275 [10.1038/s43017-024-00521-5]. | en |
| dc.identifier.doi | 10.1038/s43017-024-00521-5 | en |
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| dc.subject.keywordseng | climate change, viticulture, suitability of grapevine production, adaptation | - |
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| isi.contributor.affiliation | Universite de Bordeaux | - |
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| isi.contributor.subaffiliation | Environm & Paleoenvironm Ocean & Continentaux EPOC | - |
| isi.contributor.subaffiliation | Ecophysiol & Genom Fonct Vigne EGFV | - |
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| isi.description.abstracteng | Climate change is affecting grape yield, composition and wine quality. As a result, the geography of wine production is changing. In this Review, we discuss the consequences of changing temperature, precipitation, humidity, radiation and CO2 on global wine production and explore adaptation strategies. Current winegrowing regions are primarily located at mid-latitudes (California, USA; southern France; northern Spain and Italy; Barossa, Australia; Stellenbosch, South Africa; and Mendoza, Argentina, among others), where the climate is warm enough to allow grape ripening, but without excessive heat, and relatively dry to avoid strong disease pressure. About 90% of traditional wine regions in coastal and lowland regions of Spain, Italy, Greece and southern California could be at risk of disappearing by the end of the century because of excessive drought and more frequent heatwaves with climate change. Warmer temperatures might increase suitability for other regions (Washington State, Oregon, Tasmania, northern France) and are driving the emergence of new wine regions, like the southern United Kingdom. The degree of these changes in suitability strongly depends on the level of temperature rise. Existing producers can adapt to a certain level of warming by changing plant material (varieties and rootstocks), training systems and vineyard management. However, these adaptations might not be enough to maintain economically viable wine production in all areas. Future research should aim to assess the economic impact of climate change adaptation strategies applied at large scale.Grapes produced for winemaking are highly susceptible to changes in climate, particularly extreme heat and drought. This Review examines the changing geography of existing and emerging winegrowing regions, and recommends adaptation measures to increasing heat and modified drought, pest and disease pressure.Climate change modifies wine production conditions and requires adaptation from growers.The suitability of current winegrowing areas is changing, and there will be winners and losers. New winegrowing regions will appear in previously unsuitable areas, including expanding into upslope regions and natural areas, raising issues for environmental preservation.Higher temperatures advance phenology (major stages in the growing cycle), shifting grape ripening to a warmer part of the summer. In most winegrowing regions around the globe, grape harvests have advanced by 2-3 weeks over the past 40 years. The resulting modifications in grape composition at harvest change wine quality and style.Changing plant material and cultivation techniques that retard maturity are effective adaptation strategies to higher temperatures until a certain level of warming.Increased drought reduces yield and can result in sustainability losses. The use of drought-resistant plant material and the adoption of different training systems are effective adaptation strategies to deal with declining water availability. Supplementary irrigation is also an option when sustainable freshwater resources are available.The emergence of new pests and diseases and the increasing occurrence of extreme weather events, such as heatwaves, heavy rainfall and possibly hail, also challenge wine production in some regions. In contrast, other areas might benefit from reduced pest and disease pressure. | * |
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| scopus.contributor.subaffiliation | Biogéosciences;Université de Bourgogne; | - |
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| Appare nelle tipologie: | 1.01 Articolo in rivista | |
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