SIMULATING THE IMPACT OF CLIMATE CHANGE ON GRAPEVINE BEHAVIOUR AND VITICULTURAL ACTIVITIES - Archive ouverte HAL
Communication Dans Un Congrès Année : 2019

SIMULATING THE IMPACT OF CLIMATE CHANGE ON GRAPEVINE BEHAVIOUR AND VITICULTURAL ACTIVITIES

Résumé

Context and purpose of the study - Global climate change affects regional climates and hold implications for wine growing regions worldwide (Jones, 2007 and 2015; Van Leeuwen and Darriet, 2016). The prospect of 21st century climate change consequently is one of the major challenges facing the wine industry (Keller, 2010). They vary from short-term impacts on wine quality and style, to long-term issues such as varietal suitability and the economic sustainability of traditional wine growing regions (Schultz and Jones 2010 ; Quénol 2014). Within the context of a global changing climate, most studies that addressfuture impacts andpotential adaptation strategies are largely based on modelling technologies. However, veryfew studies model the complex interaction between environmental features, plant behaviourand farming activities at local scales. In viticulture, this level of assessment is of particularimportance, as it is the scale where adaptation matters the most. Within this context, it seems appropriate to develop a modelling approach, able to simulate the impact of environmental conditions and constraints on vine behaviour and the dynamics of viticultural activities. Material and methods -Our modeling approach, named SEVE (Simulating Environmental impacts on Viticultural Ecosystems), has been designed to describe viticultural practices with responsive agents constrained by exogenous variables (biophysical, socio-economic and regulatory constraints). Based on multi-agent paradigm, SEVE has two principle objectives, first, to simulate grapevine phenology and grape ripening according to climate variability and secondly, to simulate viticultural practices and adaptation strategies under environmental, economic and socio-technical constraints.Each activity is represented by an autonomous agent able to react and adapt its reaction to the variability of environmental constraints. The reaction chain results from a combination of natural and anthropogenic stresses integrated at different scale level (from plot to vineyard). Results- Simulation results underline that small scale variability is strongly linked with vine phenology stages and ripeness potential.Over the next century, winegrowers will likely be confronted by increasing temperatures and changing rainfall patterns that will have important impacts on agronomic itineraries and adaptation strategies.Through different experiment in european vineyards in the context of ADVICLIM project (http://www.adviclim.eu/), SEVE model provide prospective simulation of potential adaptation strategies from short-term (e.g. in harvest management practices) to long-term adjustment, such as in varietal selection. In response to increasing temperatures and changing rainfall patterns, they vary therefore in nature and effectiveness, where longterm measures in the choice in grapevine variety and the use of irrigation seem to bethe most effective.
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Dates et versions

hal-02176658 , version 1 (08-07-2019)

Identifiants

  • HAL Id : hal-02176658 , version 1

Citer

Cyril Tissot, Mathias Rouan, Renan Le Roux, Etienne Neethling, Laure de Resseguier, et al.. SIMULATING THE IMPACT OF CLIMATE CHANGE ON GRAPEVINE BEHAVIOUR AND VITICULTURAL ACTIVITIES. 21st International Meeting of Viticulture GiESCO, Jun 2019, Thessalonique, Greece. ⟨hal-02176658⟩
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