During the last decades, there have been parallel scientific debates regarding the effects of land use on the trade-off between biodiversity conservation and provisioning ecosystem services (ESS). As society strives to achieve food and energy security alongside biodiversity conservation goals, these debates assume global significance. Yet, to date, they have failed to produce a robust and generally applicable framework on how this trade-off can be described outside a set of confined conditions. Moreover, these approaches have often adopted a dichotomous perspective (e.g., land sharing vs. sparing), thereby falling short of yielding results that can be used for environmental management. The use of land has so many facets and dimensions that when trying to answer the question "What are the best strategies to maximize provisioning ESS at the least harm to biodiversity?" we have to move away from an either-or perspective, as this overly simplifies a complex problem.
In this project, we first seek a conceptual synthesis that acknowledges the multidimensional complexity captured in the label ‘land use’ in relation to biodiversity and ESS. Secondly, we seek synthesis of data from studies on biodiversity and/or provisioning ESS that explicitly report on land use conditions. Although studies that addressed the various facets and dimensions of land use are relatively limited, their combination will provide a more comprehensive overall picture and will allow for quantifying the effects of land use on the trade-off between biodiversity and provisioning ESS. Finally, results will be compiled to inform land use practice and policy such as IPBES.
|Resource Title||Brief Summary|
|Harmonizing Biodiversity Conservation and Productivity in the Context of Increasing Demands on Landscapes||
Feb 17, 2016
Article published in BioScience.
|Trade-Offs and Synergies Between Biodiversity Conservation and Productivity in the Context of Increasing Demands on Landscapes||
Feb 01, 2019
Chapter published in Atlas of Ecosystem Services.
|Conventional land‐use intensification reduces species richness and increases production: A global meta‐analysis||
Apr 09, 2019
Article published in Global Change Biology.