posted on 2023-01-27, 21:04authored byFrancesca Rosa, Fulvio Di Fulvio, Pekka Lauri, Adam Felton, Nicklas Forsell, Stephan Pfister, Stefanie Hellweg
Forests are home to many species and provide biomass
for material
and energy. Here, we modeled the potential global species extinction
risk from future scenarios of climate mitigation and EU28 forest management.
We considered the continuation of current practices, the adoption
of closer-to-nature management (low-intensity practices), and set-asides
(conversion to unharvested forestland) on portions of EU28 forestland
under two climate mitigation pathways as well as the consequences
for the wood trade. Expanding set-aside to more than 25% of EU28 currently
managed forestland by 2100 increased the global extinction risk compared
to the continuation of current practices. This outcome stems from
a projected increase in EU forest biomass imports, partially from
biodiversity-vulnerable regions to compensate for a decrease in domestic
harvest. Conversely, closer-to-nature management on up to 37.5% of
EU28 forestland lowered extinction risks. Increasing the internal
production and partially sourcing imported biomass from low-intensity
managed areas lowered the species extinction footprint even further.
However, low-intensity practices could not entirely compensate for
the increased extinction risk under a high climate mitigation scenario
with greater demand for lignocellulosic crops and energywood. When
developing climate mitigation strategies, it is crucial to assess
forest biomass supply chains for the early detection of extinction
risks in non-EU regions and for developing strategies to prevent increase
of global impacts.