<p>Forest disturbances have increased in many regions, but how they impact habitat suitability for wildlife remains poorly understood. Here, by combining tracking data on 3,069 individuals of four ungulate species (European bison, moose, red deer and roe deer) with satellite-based maps, we perform a continental, multi-decadal assessment of large herbivore responses to forest disturbance. Despite strong intraspecific variation, all species show an increased selection of disturbed areas for ≥35 years after disturbance. Although the patterns closely reflect species-specific foraging strategies, all species selected more strongly for smaller disturbance patches, depending on the availability of alternative foraging habitats (grasslands and croplands). Model projections across the species’ range extents show positive but regionally varying effects of forest disturbances on habitat suitability between 2000 and 2023. Our findings indicate that forest disturbances can attract large herbivores and that the recent increase in forest disturbances improved habitat suitability for our study species across Europe, highlighting the importance of considering long-term disturbance-related dynamics for wildlife and forest management. Given expected future increases in disturbance, resulting habitat improvements could amplify conflicts with forestry, but also contribute to restoring large herbivores and their ecological functions.</p>

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Increasing forest disturbance enhances habitat suitability for Europe’s large herbivores

  • Julian Oeser,
  • Rafał Kowalczyk,
  • Dries Kuijper,
  • Wiebke Neumann,
  • Rudolf Reiner,
  • Rupert Seidl,
  • Cornelius Senf,
  • Hendrik Bluhm,
  • Nadège C. Bonnot,
  • Luca Börger,
  • Tomasz Borowik,
  • Francesca Cagnacci,
  • Marcin Churski,
  • Benedikt Gehr,
  • Marco Heurich,
  • A. J. Mark Hewison,
  • Klemen Jerina,
  • Max Kröschel,
  • Nicolas Morellet,
  • Atle Mysterud,
  • Nives Pagon,
  • Gabriele Retez,
  • Sebastian Seibold,
  • Rita T. Torres,
  • Alba Viana-Soto,
  • Adrian Mihai Aldea,
  • Roksana Baryło,
  • Sophie Baur,
  • Sebastian Catanoiu,
  • Rok Černe,
  • Marcin Grzegorzek,
  • Dário Hipólito,
  • Maciej Januszczak,
  • Anders Jarnemo,
  • Miloš Ježek,
  • Artūras Kibiša,
  • Daniel Klich,
  • Alain Licoppe,
  • Julien Lievens,
  • Matthias-Claudio Loretto,
  • Weronika Maślanko,
  • Erling Meisingset,
  • Rasmus Mohr Mortensen,
  • András Náhlik,
  • Wanda Olech,
  • Astrid Olejarz,
  • Federico Ossi,
  • Algimantas Paulauskas,
  • Maryline Pellerin,
  • Kajetan Perzanowski,
  • Wibke Peters,
  • Mirosław Ratkiewicz,
  • Thomas Rempfler,
  • Sonia Saïd,
  • Călin Constantin Șerban,
  • Kastytis Šimkevičius,
  • Jakub Skorupski,
  • Maria Sobczuk,
  • Nikica Šprem,
  • Peter Sunde,
  • Tamás Tari,
  • Maciej Tracz,
  • Magdalena Tracz,
  • Aleksandra Wołoszyn-Gałęza,
  • Tobias Kuemmerle

摘要

Forest disturbances have increased in many regions, but how they impact habitat suitability for wildlife remains poorly understood. Here, by combining tracking data on 3,069 individuals of four ungulate species (European bison, moose, red deer and roe deer) with satellite-based maps, we perform a continental, multi-decadal assessment of large herbivore responses to forest disturbance. Despite strong intraspecific variation, all species show an increased selection of disturbed areas for ≥35 years after disturbance. Although the patterns closely reflect species-specific foraging strategies, all species selected more strongly for smaller disturbance patches, depending on the availability of alternative foraging habitats (grasslands and croplands). Model projections across the species’ range extents show positive but regionally varying effects of forest disturbances on habitat suitability between 2000 and 2023. Our findings indicate that forest disturbances can attract large herbivores and that the recent increase in forest disturbances improved habitat suitability for our study species across Europe, highlighting the importance of considering long-term disturbance-related dynamics for wildlife and forest management. Given expected future increases in disturbance, resulting habitat improvements could amplify conflicts with forestry, but also contribute to restoring large herbivores and their ecological functions.