Projections of Climate Change Impacts on Flowering-Veraison Water Deficits for Riesling and Müller-Thurgau in Germany - Modèle STICS Access content directly
Journal Articles Remote Sensing Year : 2022

Projections of Climate Change Impacts on Flowering-Veraison Water Deficits for Riesling and Müller-Thurgau in Germany

Chenyao Yang
  • Function : Author
Christoph Menz
  • Function : Author
Maxim Simões de Abreu Jaffe
  • Function : Author
Sergi Costafreda-Aumedes
  • Function : Author
Marco Moriondo
  • Function : Author
Luisa Leolini
  • Function : Author
Arturo Torres-Matallana
  • Function : Author
Daniel Molitor
  • Function : Author
Jürgen Junk
  • Function : Author
Helder Fraga
  • Function : Author
João A. Santos
  • Function : Author

Abstract

With global warming, grapevine is expected to be increasingly exposed to water deficits occurring at various development stages. In this study, we aimed to investigate the potential impacts of projected climate change on water deficits from the flowering to veraison period for two main white wine cultivars (Riesling and Müller-Thurgau) in Germany. A process-based soil-crop model adapted for grapevine was utilized to simulate the flowering-veraison crop water stress indicator (CWSI) of these two varieties between 1976–2005 (baseline) and 2041–2070 (future period) based on a suite of bias-adjusted regional climate model (RCM) simulations under RCP4.5 and RCP8.5. Our evaluation indicates that the model can capture the early-ripening (Müller-Thurgau) and late-ripening (Riesling) traits, with a mean bias of prediction of ≤2 days and a well-reproduced inter-annual variability for more than 60 years. Under climate projections, the flowering stage is advanced by 10–20 days (higher in RCP8.5) between the two varieties, whereas a slightly stronger advancement is found for Müller-Thurgau than for Riesling for the veraison stage. As a result, the flowering-veraison phenophase is mostly shortened for Müller-Thurgau, whereas it is extended by up to two weeks for Riesling in cool and high-elevation areas. The length of phenophase plays an important role in projected changes of flowering-veraison mean temperature and precipitation. The late-ripening trait of Riesling makes it more exposed to increased summer temperature (mainly in August), resulting in a higher mean temperature increase for Riesling (1.5–2.5 °C) than for Müller-Thurgau (1–2 °C). As a result, an overall increased CWSI by up to 15% (ensemble median) is obtained for both varieties, whereas the upper (95th) percentile of simulations shows a strong signal of increased water deficit by up to 30%, mostly in the current winegrowing regions. Intensified water deficit stress can represent a major threat for high-quality white wine production, as only mild water deficits are acceptable. Nevertheless, considerable variabilities of CWSI were discovered among RCMs, highlighting the importance of efforts towards reducing uncertainties in climate change impact assessment.
Fichier principal
Vignette du fichier
EGFV_RemoteSens_2022_Yang.pdf (41.78 Mo) Télécharger le fichier
Origin : Publisher files allowed on an open archive

Dates and versions

hal-03962848 , version 1 (30-01-2023)

Licence

Attribution

Identifiers

Cite

Chenyao Yang, Christoph Menz, Maxim Simões de Abreu Jaffe, Sergi Costafreda-Aumedes, Marco Moriondo, et al.. Projections of Climate Change Impacts on Flowering-Veraison Water Deficits for Riesling and Müller-Thurgau in Germany. Remote Sensing, 2022, 14 (6), pp.1519. ⟨10.3390/rs14061519⟩. ⟨hal-03962848⟩

Collections

INRAE STICS
6 View
0 Download

Altmetric

Share

Gmail Facebook X LinkedIn More