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Natural Disturbances are Essential Determinants of Tree-Related Microhabitat Availability in Temperate Forests

Veronika Zemlerová, Daniel Kozák, Martin Mikoláš, Marek Svitok, Radek Bače, Marie Smyčková, Arne Buechling, Maxence Martin, Laurent Larrieu, Yoan Paillet, Cătălin-Constantin Roibu, Ion Cătălin Petrițan, Vojtěch Čada, Matěj Ferenčík, Michal Frankovič, Rhiannon Gloor, Jeňýk Hofmeister, Pavel Janda, Ondrej Kameniar, Linda Majdanová, Katka Markuljaková, Radim Matula, Marek Mejstřík, Miloš Rydval, Ondřej Vostarek, Miroslav Svoboda

2023Ecosystems22 citationsDOIOpen Access PDF

Abstract

Abstract Assessing the impacts of natural disturbance on the functioning of complex forest systems are imperative in the context of global change. The unprecedented rate of contemporary species extirpations, coupled with widely held expectations that future disturbance intensity will increase with warming, highlights a need to better understand how natural processes structure habitat availability in forest ecosystems. Standardised typologies of tree-related microhabitats (TreMs) have been developed to facilitate assessments of resource availability for multiple taxa. However, natural disturbance effects on TreM diversity have never been assessed. We amassed a comprehensive dataset of TreM occurrences and a concomitant 300-year disturbance history reconstruction that spanned large environmental gradients in temperate primary forests. We used nonlinear analyses to quantify relations between past disturbance parameters and contemporary patterns of TreM occurrence. Our results reveal that natural forest dynamics, characterised by fluctuating disturbance intervals and variable severity levels, maintained structurally complex landscapes rich in TreMs. Different microhabitat types developed over time in response to divergent disturbance histories. The relative abundance of alternate TreMs was maximised by unique interactions between past disturbance severity and elapsed time. Despite an unequal distribution of individual TreMs, total microhabitat diversity was maintained at constant levels, suggesting that spatially heterogeneous disturbances maintained a shifting mosaic of habitat types over the region as a whole. Our findings underscore the fundamental role of natural processes in promoting conditions that maximise biodiversity potential. Strict conservation and management systems that preserve natural disturbance outcomes, including associated biological legacies, may therefore safeguard biodiversity at large scales.

Topics & Concepts

Disturbance (geology)BiodiversityEcologyHabitatContext (archaeology)Temperate climateEcosystemTemperate forestTemperate rainforestNatural (archaeology)Climate changeThreatened speciesAbundance (ecology)Forest dynamicsEnvironmental resource managementGeographyEnvironmental scienceBiologyPaleontologyArchaeologyForest Ecology and Biodiversity StudiesEcology and Vegetation Dynamics StudiesSpecies Distribution and Climate Change