Litcius/Paper detail

Temperate forest understory vegetation shifts after 40 years of conservation

Dorota Wrońska‐Pilarek, Sebastian Rymszewicz, Andrzej M. Jagodziński, Radosław Gawryś, Marcin K. Dyderski

2023The Science of The Total Environment18 citationsDOIOpen Access PDF

Abstract

Understanding how vegetation composition and diversity respond to global changes is crucial for effective ecosystem management and conservation. This study evaluated shifts in understory vegetation after 40 years of conservation within Drawa National Park (NW Poland), to check which plant communities changed the most, and whether vegetation shifts reflect global change symptoms (climate change and pollution) or natural forest dynamics. Using ordination and generalized mixed-effects linear models, we assessed changes in alpha diversity metrics, accounting for taxonomic, functional, and phylogenetic aspects within 170 quasi-permanent plots, surveyed in 1973-85 and resurveyed in 2015-19. We found an overall homogenization of forest vegetation and specific shift patterns in certain forest associations. In coniferous and nutrient-poor broadleaved forests, the overall number of species increased due to the replacement of functionally distinct or specialized species with more ubiquitous species that could exploit increased resource availability. In riparian forests and alder carrs we found either shifts from riparian forest to alder carrs or to mesic broadleaved forests. The most stable communities were fertile broadleaved forests. Our study quantified shifts in taxonomic, functional, and phylogenetic diversity after 40 years of conservation and provides important insights into the shifts in vegetation composition in temperate forest communities. In coniferous and nutrient-poor broadleaved forests we found an increase in species richness and replacement of functionally distinct or specialized species by ubiquitous species, indicating increased resource availability. Shifts between wet broadleaved forests and transition into mesic forests suggest water limitation, which can be related to climate change. The most stable were fertile broadleaved forests fluctuating due to natural stand dynamics. The findings highlight the need for ongoing monitoring and management of ecological systems to preserve their diversity and functionality in the face of global changes.

Topics & Concepts

UnderstoryTemperate rainforestEcologySpecies richnessTemperate forestOrdinationVegetation (pathology)GeographyForest managementClimate changeRiparian zoneTemperate climateEcosystemAgroforestryEnvironmental scienceBiologyHabitatCanopyMedicinePathologyEcology and Vegetation Dynamics StudiesForest Ecology and Biodiversity StudiesSpecies Distribution and Climate Change