6533b851fe1ef96bd12a9780
RESEARCH PRODUCT
Applying a framework for landscape planning under climate change for the conservation of biodiversity in the Finnish boreal forest
Jari KoukiOlli-pekka TikkanenOlli-pekka TikkanenMaría TriviñoMikko MönkkönenHarri StrandmanAdriano Mazziottasubject
Conservation of Natural ResourcesConservation strategyconservation strategyClimate ChangeForest managementVulnerabilityBiodiversityforest managementClimate changeClimate change adaptationModels BiologicalTreesemission scenariosEcosystem modelForest gap modelSystematic conservation planningTaigaForest ecosystem modelEnvironmental ChemistryIntact forest landscapeFinlandclimate change adaptationWoody debrisGeneral Environmental ScienceGlobal and Planetary ChangeEcologyLand useForest managementbusiness.industryEnvironmental resource managementmetsänkäsittelyforest gap modelBiodiversity15. Life on landta4112climate vulnerabilityGeographyClimate vulnerabilityLandscape conservation capacity13. Climate actionEmission scenariosta1181landscape conservation capacitybusinessLandscape planningforest ecosystem modeldescription
Conservation strategies are often established without consideration of the impact of climate change. However, this impact is expected to threaten species and ecosystem persistence and to have dramatic effects towards the end of the 21st century. Landscape suitability for species under climate change is determined by several interacting factors including dispersal and human land use. Designing effective conservation strategies at regional scales to improve landscape suitability requires measuring the vulnerabilities of specific regions to climate change and determining their conservation capacities. Although methods for defining vulnerability categories are available, methods for doing this in a systematic, cost-effective way have not been identified. Here, we use an ecosystem model to define the potential resilience of the Finnish forest landscape by relating its current conservation capacity to its vulnerability to climate change. In applying this framework, we take into account the responses to climate change of a broad range of red-listed species with different niche requirements. This framework allowed us to identify four categories in which representation in the landscape varies among three IPCC emission scenarios (B1, low; A1B, intermediate; A2, high emissions): (i) susceptible (B1 = 24.7%, A1B = 26.4%, A2 = 26.2%), the most intact forest landscapes vulnerable to climate change, requiring management for heterogeneity and resilience; (ii) resilient (B1 = 2.2%, A1B = 0.5%, A2 = 0.6%), intact areas with low vulnerability that represent potential climate refugia and require conservation capacity maintenance; (iii) resistant (B1 = 6.7%, A1B = 0.8%, A2 = 1.1%), landscapes with low current conservation capacity and low vulnerability that are suitable for restoration projects; (iv) sensitive (B1 = 66.4%, A1B = 72.3%, A2 = 72.0%), low conservation capacity landscapes that are vulnerable and for which alternative conservation measures are required depending on the intensity of climate change. Our results indicate that the Finnish landscape is likely to be dominated by a very high proportion of sensitive and susceptible forest patches, thereby increasing uncertainty for landscape managers in the choice of conservation strategies. peerReviewed
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2015-01-01 |