Main content area

Using the response–effect trait framework to quantify the value of fallow patches in agricultural landscapes to pollinators

Robleño, Irene, Storkey, Jonathan, Solé‐Senan, Xavier O., Recasens, Jordi
Applied vegetation science 2018 v.21 no.2 pp. 267-277
Angiospermae, agricultural land, edge effects, environmental factors, fallow, flowering, habitats, issues and policy, land use, landscapes, models, pesticide application, plant communities, pollination, pollinators, shredding, Iberian Peninsula
QUESTIONS: What is the role of managed fallow habitats in providing resources for pollination services in agricultural landscapes? How is resource provision affected by fallow management and landscape structure? Can the resulting variation in the value of fallows to pollinators be explained using the response‐and‐effect trait framework? LOCATION: Four semi‐arid Mediterranean agricultural regions (NE Iberian Peninsula). METHODS: Landscape complexity, fallow field age and management practices were identified as the explanatory factors that interact which each other and affect the provision of resource for pollination communities. A trait‐based approach was taken to model the system. Plant traits were selected on the basis of their response to abiotic factors (response traits) and those that influence the interaction with pollinators (effect traits). Plant community characterization was calculated based on both taxonomic and functional indices. The linkages between the selected plant traits on contrasting fallows were analysed using community‐weighted mean redundancy analysis (CWM‐RDA). RESULTS: The presence of semi‐natural areas in the landscape was shown to enhance the value of fallows for pollinators, providing a source of diverse flower forms. In contrast, we found that field edges act as a relatively poor reservoir for flowering plant species in these areas. Land‐use practices promoting mid‐successional plant communities that support the coexistence of diverse life forms with overlapping flowering periods and a range of flower morphologies had the greatest potential to support a diverse pollinator community. CONCLUSIONS: Early herbicide application (Feb) combined with shredding were identified as the best fallow practices for enhancing resources for pollinators. The construction of our framework will help policy makers to identify management recommendations that will result in the most beneficial plant communities for pollinators in fallows.