Effects of stand edges on the structure, functioning, and diversity of a temperate mountain forest landscape

Franziska Pöpperl, Rupert Seidl

Research output: Contribution to journalArticlepeer-review

17 Scopus citations

Abstract

Human land use is fragmenting forests around the globe, increasing the edge density in forest landscapes. More frequent natural disturbances also increase the presence of edges in forest ecosystems. Studying a mountain landscape in the Eastern Alps, we contrasted 661 plots situated at varying distances from a stand edge with 615 plots sampled in forest interiors. Our objectives were (1) to analyze the strength of edge effects on forest structure, functioning, and diversity; (2) to determine the penetration depth of edge effects into the forest interior; and (3) to quantify the difference between permanent edges (i.e., to a different land cover type) and transient edges (as created e.g., by natural disturbances). Edges affected forest biomass accumulation negatively (basal area, litter depth, live tree carbon), but had positive effects on diversity (variation in tree diameter, effective plant species number, plant species richness, number of red-listed plant species). Biodiversity indicators responded most strongly to the presence of edges. The maximum distance of a significant edge effect was <50 m across all indicators. Effects on forest structure and functioning were generally stronger at transient edges compared to permanent edges. Our findings highlight that both permanent and transient edges have a considerable influence on forest ecosystems and should be considered more explicitly in the analysis and management of forest landscapes.

Original languageEnglish
Article numbere03692
JournalEcosphere
Volume12
Issue number8
DOIs
StatePublished - Aug 2021

Keywords

  • Kalkalpen National Park
  • ecosystem functioning
  • edge effect
  • edge influence
  • forest structure
  • inventory
  • red-listed species

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