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Review article

Forest microclimates and climate change: Importance, drivers and future research agenda

Pieter De FrenneForest & Nature Lab Ghent University Gontrode BelgiumJonathan LenoirUMR 7058 CNRS “Ecologie et Dynamique des Systèmes Anthropisés” (EDYSAN) Université de Picardie Jules Verne Amiens FranceMiska LuotoDepartment of Geosciences and Geography University of Helsinki Helsinki FinlandBrett R. ScheffersWildlife Ecology & Conservation University of Florida Gainesville FL USAFlorian ZellwegerSwiss Federal Research Institute WSL Birmensdorf SwitzerlandJuha AaltoDepartment of Geosciences and Geography University of Helsinki Helsinki FinlandMichael B. AshcroftCentre for Sustainable Ecosystem Solutions School of Earth, Atmospheric and Life Sciences University of Wollongong Wollongong NSW AustraliaDitte Marie ChristiansenDepartment of Ecology, Environment and Plant Sciences, and Bolin Centre for Climate Research Stockholm University Stockholm SwedenGuillaume DecocqUMR 7058 CNRS “Ecologie et Dynamique des Systèmes Anthropisés” (EDYSAN) Université de Picardie Jules Verne Amiens FranceKaren De PauwForest & Nature Lab Ghent University Gontrode BelgiumSanne GovaertForest & Nature Lab Ghent University Gontrode BelgiumCaroline GreiserDepartment of Ecology, Environment and Plant Sciences, and Bolin Centre for Climate Research Stockholm University Stockholm SwedenEva GrilUMR 7058 CNRS “Ecologie et Dynamique des Systèmes Anthropisés” (EDYSAN) Université de Picardie Jules Verne Amiens FranceArndt HampeINRAE Univ. Bordeaux BIOGECO Cestas FranceTommaso JuckerSchool of Biological Sciences University of Bristol Bristol UKDavid H. KlingesSchool of Natural Resources and Environment University of Florida Gainesville FL USAIrena A. KoelemeijerDepartment of Ecology, Environment and Plant Sciences, and Bolin Centre for Climate Research Stockholm University Stockholm SwedenJonas J. LembrechtsPlants and Ecosystems University of Antwerp Wilrijk BelgiumRonan MarrecUMR 7058 CNRS “Ecologie et Dynamique des Systèmes Anthropisés” (EDYSAN) Université de Picardie Jules Verne Amiens FranceCamille MeeussenForest & Nature Lab Ghent University Gontrode BelgiumJérôme OgéeINRAE Bordeaux Science Agro ISPA Villenave d'Ornon FranceVilna TyystjärviDepartment of Geosciences and Geography University of Helsinki Helsinki FinlandPieter VangansbekeForest & Nature Lab Ghent University Gontrode BelgiumKristoffer HylanderDepartment of Ecology, Environment and Plant Sciences, and Bolin Centre for Climate Research Stockholm University Stockholm Sweden
2021en
ABI

Abstract

Forest microclimates contrast strongly with the climate outside forests. To fully understand and better predict how forests' biodiversity and functions relate to climate and climate change, microclimates need to be integrated into ecological research. Despite the potentially broad impact of microclimates on the response of forest ecosystems to global change, our understanding of how microclimates within and below tree canopies modulate biotic responses to global change at the species, community and ecosystem level is still limited. Here, we review how spatial and temporal variation in forest microclimates result from an interplay of forest features, local water balance, topography and landscape composition. We first stress and exemplify the importance of considering forest microclimates to understand variation in biodiversity and ecosystem functions across forest landscapes. Next, we explain how macroclimate warming (of the free atmosphere) can affect microclimates, and vice versa, via interactions with land-use changes across different biomes. Finally, we perform a priority ranking of future research avenues at the interface of microclimate ecology and global change biology, with a specific focus on three key themes: (1) disentangling the abiotic and biotic drivers and feedbacks of forest microclimates; (2) global and regional mapping and predictions of forest microclimates; and (3) the impacts of microclimate on forest biodiversity and ecosystem functioning in the face of climate change. The availability of microclimatic data will significantly increase in the coming decades, characterizing climate variability at unprecedented spatial and temporal scales relevant to biological processes in forests. This will revolutionize our understanding of the dynamics, drivers and implications of forest microclimates on biodiversity and ecological functions, and the impacts of global changes. In order to support the sustainable use of forests and to secure their biodiversity and ecosystem services for future generations, microclimates cannot be ignored.

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