Reconciling biodiversity conservation, food production and farmers' demand in agricultural landscapes

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TitreReconciling biodiversity conservation, food production and farmers' demand in agricultural landscapes
Type de publicationJournal Article
Year of Publication2020
AuteursMontoya D, Gaba S, De Mazancourt C, Bretagnolle V, Loreau M
JournalECOLOGICAL MODELLING
Volume416
Pagination108889
Date PublishedJAN 15
Type of ArticleArticle
ISSN0304-3800
Mots-clésAgroecology, biodiversity, Crop pollination, Landscape composition, Stakeholder demands, trade-offs
Résumé

Efficient management of agricultural management should consider multiple services and stakeholders. Yet, it remains unclear how to guarantee ecosystem services for multiple stakeholders' demands, especially considering the observed biodiversity decline following reductions in semi-natural habitat (SNH), and global change. Here, we use an ecosystem service model of intensively-managed agricultural landscapes to derive the best landscape compositions for different stakeholders' demands, and how they vary with stochasticity and the degree of pollination dependence of crops. We analyse three groups of stakeholders assumed to value different ecosystem services most - individual fanners (crop yield per area), agricultural unions (landscape production) and conservationists (biodiversity). Additionally, we consider a social average scenario that aims at maximizing multifunctionality. Trade-offs among stakeholders' demands strongly depend on the degree of pollination dependence of crops, the strength of environmental and demographic stochasticity, and the relative amount of an ecosystem service demanded by each stakeholder. Intermediate amounts of SNH deliver relatively high levels of the three services (social average). Our analysis further suggests that the current levels of SNH protection lie below these intermediate amounts of SNH in intensively-managed agricultural landscapes. Given the worldwide trends in agriculture and global change, current policies should start to consider factors such as crop type and stochasticity, as they can strongly influence best landscape compositions for different stakeholders. Our results suggest ways of managing landscapes to reconcile several actors' demands and ensure for biodiversity conservation and food production.

DOI10.1016/j.ecolmodel.2019.108889