Switching grape varieties can help save world’s wine-growing regions: UBC study

Hotter temperatures threaten global wine production, with multiple studies now forecasting that more than half of regions suitable to planting wine grapes could be lost to climate change.

But not all is lost: Swapping out grapes for more drought and heat tolerant varieties can offer a way forward for winemakers, finds new research from the University of British Columbia and other collaborating institutions.

“Substituting Grenache or Cabernet Sauvignon for Pinot Noir, planting Trebbiano where Riesling is grown-these aren’t painless shifts to make, but they can ease winegrowers’ transition to a new and warmer world,” says the study’s senior author Elizabeth Wolkovich, a professor of forest and conservation sciences at UBC who studies resilience strategies for agricultural and forest ecosystems.

Wine grapes are extremely sensitive to climate, especially temperature. Combining long-term records with global data on where different wine grapes are planted, the research team showed that if global temperatures rise by an average of two degrees Celsius-in line with current trends-at least 51 per cent of current wine growing regions could be wiped out.

“These estimates, however, ignore important changes that growers can make. We found that by switching to different varieties, vintners can lessen the damage, to just 24 per cent of areas lost. For example, in Burgundy, France, vintners can consider planting more heat-tolerant varieties such as Syrah and Grenache to replace the dominant Pinot Noir. And growers in regions such as Bordeaux may swap out Cabernet Sauvignon and Merlot for Mourvedre,” notes Wolkovich.

There’s a caveat. Diversification will have less impact if temperatures rise more than two degrees. “At four degrees, around 77 per cent of all areas may be lost, and planting new varieties will limit this to 58 per cent losses. Winegrowing regions can adapt to a lower level of warming, but at higher warming, it’s much harder to save regions,” says lead author Ignacio Morales-Castilla, a former postdoctoral researcher in the Wolkovich lab, now with University of Alcalá in Spain.

The research team focused on 11 of the most popular varieties of wine grapes: Cabernet Sauvignon, Chasselas, Chardonnay, Grenache, Merlot, Mourvedre (also known as Monastrell), Pinot Noir, Riesling, Sauvignon Blanc, Syrah and Trebbiano (also known as Ugni Blanc). Using long-term records, they built models for when these varieties typically bud, flower and ripen and then used climate change projections to forecast where these varieties can be grown in the future.

The study, published today in Proceedings of the National Academy of Sciences, acknowledges there are legal and cultural hurdles in shuffling grape varieties around.

“The effectiveness of any strategy depends on both the grape growers and people in general. Consumers who are willing to try new varieties can play a big part in helping save the regions people love. Legislation can encourage growers to test out new varieties. And ultimately, people can make the largest impact through work to reduce emissions globally,” says Wolkovich.

Filling in data gaps is also critical for developing crop resilience strategies. “Wine grapes possess tremendous diversity, but much of that diversity is still not well-documented or used by growers globally,” says Morales-Castilla. “Adapting the results to specific regions also requires finer scale data, and more research.”

“We’re just starting to try applying these results to the Okanagan region,” adds Wolkovich, “but it requires understanding climate at a vineyard-scale and working with growers to understand what’s feasible for them.”

Other authors on the paper include: Benjamin Cook from Columbia University’s Lamont-Doherty Earth Observatory and the NASA Goddard Institute for Space Studies; Iñaki García de Cortázar-Atauri and Thierry Lacombe of the Institut National de la Recherche Agronomique; Amber Parker of Lincoln University, New Zealand; Cornelis van Leeuwen of Bordeaux Sciences Agro; and Kimberly A. Nicholas of Lund University.

Projected impact of 2°C of warming on two popular varieties

Projected impact of 2°C of warming on two popular varieties

Caption: Grenache (a late-ripening heat tolerant variety) will expand in areas where it is suitable in Germany and the Pacific Northwest (almost doubling in areas suitable), as will Pinot Noir (early-ripening and less heat tolerant) but to a lesser extent. Italy-a center of wine grape diversity-will see serious losses of area for Pinot Noir production, which is predicted to plunge without being offset by gains in Grenache, but could potentially rely on other late-ripening varieties.

SIDEBAR: Grape forecasts at 2°C warming

The researchers see late-ripening varieties such as Syrah, Grenache and Mourvedre becoming much more widespread in current winegrowing regions if temperatures rise two degrees. Early ripening varieties such as Chasselas, Pinot Noir and Chardonnay may become more widespread globally if new more poleward regions (for example, Canada, northern Europe and Tasmania) open up.

  • Pinot or Chasselas would decrease in the region including Burgundy, but could be replaced by Mourvedre (a.k.a. Monastrell), Grenache or Syrah
  • In the region including Bordeaux, Cabernet Sauvignon and Merlot could also be replaced by Mourvedre
  • In Germany, New Zealand and the Pacific Northwest there are no major losses but currently unsuitable late-ripening varieties (Merlot, Mourvedre, Grenache) would significantly increase their suitability
  • In the United Kingdom, the number of suitable varieties would increase from zero to five
  • Most of the classic varieties of the region including Napa and Sonoma (including Cabernet Sauvignon, Pinot and Merlot) hold on at 2°C warming
  • In South Africa, varieties such as Cabernet Sauvignon, Chardonnay or Pinot Noir would be lost. They do not appear to be replaced by newly suitable varieties, instead late-ripening varieties such as Grenache and Mourvedre would still be suitable at 2°C warming
  • In New Zealand, the number of suitable varieties would double.

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