Poster Session 3 L3.1 Climate adaptation and mitigation solutions
117
28.
ITK Vigne, a decision-support tool to adapt wine production to climate change,
with or without irrigation
Stoop Philippe1, Bsaibes Aline1, Gelly Marc1, Ojeda Hernan2, Lebon Eric3, Jourdan Christophe4, Trambouze
William5, Laget Frédéric6, Ruetsch Gabriel7, Debiolles Loïc8
1ITK, 34000 Montpellier, France
2INRA, Unité Expérimentale de Pech Rouge, 11430 Gruissan, France 3INRA, UMR LEPSE, 34000 Montpellier, France
4CIRAD, UMR Eco&Sols, 34000 Montpellier, France 5Chambre d’Agriculture, 34000 Montpellier, France
6Association Climatique de l’Hérault, 34000 Montpellier, France 7Vignobles Foncalieu, 11290 Arzens, France
8Netafim France, 13120 Gardanne, France
Climate change is an important challenge for most wine producing countries, since wine quality is closely linked to terroir, an interaction between soil, climate and training method. Hence a change in climate should induce a change in viticultural techniques, if one wants to keep the typicity of his appellation wines. In the Mediterranean region, the evolution towards warmer and drier summers has a strong and generally unfavourable influence on vineyard productivity (i.e.: yield and quality). Optimal vine water status dynamics have been therefore defined to produce distinctive wine profiles. However, the latter approach is rarely implemented in practice, since classical methods to measure grapevine water status are either too tedious or too expensive to be implemented on a large scale.
To overcome those limits, a model-based decision support system (DSS), named iTKVigne, has been developed by a consortium led by ITK Company. The models included in this DSS were specifically adapted from former work done by INRA and CIRAD, and have been tested in the field from 2009 to 2013. After an initial calibration, this DSS has proven to be able to provide a very satisfactory estimation of pre-dawn water potential according to the soil, climate and vineyard training method at significantly lower cost than classical techniques. Unlike physical water status measurements, iTKVigne does not only allow a more accurate and water saving irrigation (irrigation quantities are generally reduced by about 15% when compared to current irrigation practices), it also allows adapting the training method according to the desired production objective, for winegrowers who cannot or do not want to irrigate. It may also be used as a tool to forecast on a production objective basis the future water requirements of new irrigation perimeters.
ITKVigne is an output of Disp’eau, a collaborative project funded by the French “Fonds Unique Interministériel”, the Languedoc-Roussillon region, and FEDER.