Landscape-scale modelling of agroforestry ecosystems services in Swiss orchards: a methodological approach
View/ Open
Date
2018Author
Kay, S.
Crous-Duran, J.
García de Jalón, S.
Graves, A.
Palma, J.H.N.
Roces-Díaz, J.V.
Szerencsits, E.
Weibel, R.
Herzog, F.
Metadata
Show full item record
Landscape Ecology 33(9) : 1633-1644 (2018)
Abstract
Context: Agroforestry systems in temperate Europe are known to provide both, provisioning and regulating ecosystem services (ES). Yet, it is poorly understood how these systems affect ES provision at a landscape scale in contrast to agricultural practises. Objectives: This study aimed at developing a novel, spatially explicit model to assess and quantify bundles of provisioning and regulating ES provided by landscapes with and without agroforestry systems and to test the hypothesis that agroforestry landscapes provide higher amounts of regulating ES than landscapes dominated by monocropping. Methods: Focussing on ES that are relevant for agroforestry and agricultural practices, we selected six provisioning and regulating ES biomass production , groundwater recharge , nutrient retention , soil preservation , carbon storage , habitat and gene pool protection . Algorithms for quantifying these services were identified, tested, adapted, and applied in a traditional cherry orchard landscape in Switzerland, as a case study. Eight landscape test sites of 1 km × 1 km, four dominated by agroforestry and four dominated by agriculture, were mapped and used as baseline for the model. Results: We found that the provisioning ES, namely the annual biomass yield, was higher in landscape test sites with agriculture, while the regulating ES were better represented in landscape test sites with agroforestry. The differences were found to be statistically significant for the indicators annual biomass yield, groundwater recharge rate, nitrate leaching, annual carbon sequestration, flowering resources, and share of semi-natural habitats. Conclusions: This approach provides an example for spatially explicit quantification of provisioning and regulating ES and is suitable for comparing different land use scenarii at landscape scale. (c) 2018, Springer Nature B.V.