Assessing Regional-Scale Impacts of Short Rotation Coppices on Ecosystem Services by Modeling Land-Use Decisions
Authored by Jule Schulze, Karin Frank, Joerg A Priess, Markus A Meyer
Date Published: 2016
DOI: 10.1371/journal.pone.0153862
Sponsors:
United States Department of Energy (DOE)
Platforms:
No platforms listed
Model Documentation:
ODD
Mathematical description
Model Code URLs:
Model code not found
Abstract
Meeting the world's growing energy demand through bioenergy production
involves extensive land-use change which could have severe environmental
and social impacts. Second generation bioenergy feedstocks offer a
possible solution to this problem. They have the potential to reduce
land-use conflicts between food and bioenergy production as they can be
grown on low quality land not suitable for food production. However, a
comprehensive impact assessment that considers multiple ecosystem
services (ESS) and biodiversity is needed to identify the
environmentally best feedstock option, as trade-offs are inherent. In
this study, we simulate the spatial distribution of short rotation
coppices (SRCs) in the landscape of the Mulde watershed in Central
Germany by modeling profit-maximizing farmers under different economic
and policy-driven scenarios using a spatially explicit economic
simulation model. This allows to derive general insights and a
mechanistic understanding of regional-scale impacts on multiple ESS in
the absence of large-scale implementation. The modeled distribution of
SRCs, required to meet the regional demand of combined heat and power
(CHP) plants for solid biomass, had little or no effect on the provided
ESS. In the policy-driven scenario, placing SRCs on low or high quality
soils to provide ecological focus areas, as required within the Common
Agricultural Policy in the EU, had little effect on ESS. Only a
substantial increase in the SRC production area, beyond the regional
demand of CHP plants, had a relevant effect, namely a negative impact on
food production as well as a positive impact on biodiversity and
regulating ESS. Beneficial impacts occurred for single ESS. However, the
number of sites with balanced ESS supply hardly increased due to larger
shares of SRCs in the landscape. Regression analyses showed that the
occurrence of sites with balanced ESS supply was more strongly driven by
biophysical factors than by the SRC share in the landscape. This
indicates that SRCs negligibly affect trade-offs between individual ESS.
Coupling spatially explicit economic simulation models with
environmental and ESS assessment models can contribute to a
comprehensive impact assessment of bioenergy feedstocks that have not
yet been planted.
Tags
Agriculture
Agent-based models
Biodiversity
bioenergy
tradeoffs
energy crops
Odd protocol
Forest
Landscapes
Woody debris