Modelling adaptive management of intercropping in vineyards to satisfy agronomic and environmental performances under Mediterranean climate

Modelling adaptive management of intercropping in vineyards to satisfy agronomic and environmental performances under Mediterranean climate

In the Mediterranean area, rainfed viticulture is exposed to irregular rainfall distribution. The impacts on production and environment can be mitigated by appropriate management practices like, for instance, the introduction of cover crop in the inter-rows in vineyards. This paper presents the VERD...

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Bibliographic Details
Published in:Environmental modelling & software : with environment data news Vol. 26; no. 12; pp. 1467 - 1480
Main Authors: Ripoche, Aude, Rellier, Jean-Pierre, Martin-Clouaire, Roger, Paré, Nakié, Biarnès, Anne, Gary, Christian
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-12-2011
Elsevier
Subjects:
Adaptive management
Climate variability
Computer Science
Cover crop
Dynamical systems
Dynamics
Ecosystem services
Environmental Sciences
Flexibility
Grapevine water status
Life Sciences
Management
Mathematics
Modelling
Simulation
Soil (material)
Soil surface management
Strategy
Vineyards
Vitaceae
MED
Grapevine water status
Soil surface management
Adaptive management
Climate variability
Cover crop
Ecosystem services
Modelling
Flexibility
environmental sciences and ecology
soil surface management
adaptive management
climate variability
engineering
modelling
flexibility
cover crop
computer science
pluie méditerranéenne
interdisciplinary applications
grapevine water status
cultures de couverture
ecosystem services
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Summary:In the Mediterranean area, rainfed viticulture is exposed to irregular rainfall distribution. The impacts on production and environment can be mitigated by appropriate management practices like, for instance, the introduction of cover crop in the inter-rows in vineyards. This paper presents the VERDI simulation model created to study various adaptive intercrop management strategies at field scale. The purpose is to design management strategies that are responsive to the water status of the biophysical system (soil – grapevine – intercrop) and the past and current climatic conditions. VERDI realistically reproduces the dynamic interactions between the biophysical system and the decision system in varying Mediterranean rain regime. The decision system works as an interpreter of a management strategy, defined as a set of soil surface management activities (e.g. mechanical weeding of the intercrop) that are linked by temporal constraints (e.g. sequencing, synchronisation) and organisational or programmatic specifications (e.g. iteration). The adaptive capabilities of the strategies are distinguished according to the different sources of flexibility to be exploited at operational, tactical, and strategic levels. A simulation study is reported that involves more or less flexible strategies under different climate scenarios. The simulation results proved that, in case of severe drought, the most flexible strategy yields the best trade-off between agricultural production and environmental services over the years. ► VERDI model simulates adaptive management strategies of intercropping in vineyards. ► Strategies are responsive to grapevine water status and climatic conditions. ► The model simulates accurately interactions between management, climate and crops. ► Adaptive strategies allowed buffering climatic effects on grapevine performances.
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ISSN:1364-8152
DOI:10.1016/j.envsoft.2011.08.003