Microclimate and forest density drive plant population dynamics under climate change

Macroclimatic changes are impacting ecosystems worldwide. However, a large portion of terrestrial species live under conditions where impacts of macroclimate change are buffered, such as in the shade of trees, and how this buffering impacts future below-canopy biodiversity redistributions at the con...

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Bibliographic Details
Published in:Nature climate change 2023-08, Vol.13 (8), p.840-847
Main Authors: Sanczuk, Pieter, De Pauw, Karen, De Lombaerde, Emiel, Luoto, Miska, Meeussen, Camille, Govaert, Sanne, Vanneste, Thomas, Depauw, Leen, Brunet, Jörg, Cousins, Sara A. O., Gasperini, Cristina, Hedwall, Per-Ola, Iacopetti, Giovanni, Lenoir, Jonathan, Plue, Jan, Selvi, Federico, Spicher, Fabien, Uria-Diez, Jaime, Verheyen, Kris, Vangansbeke, Pieter, De Frenne, Pieter
Format: Article
Language:English
Subjects:
631/158/1144
631/158/2165
631/158/2454
631/158/852
Agricultural sciences
Bioclimatology
Biodiversity
Biogeography
Buffers
Canopies
Canopy
Climate and population
Climate Change
Climate Change/Climate Change Impacts
Earth and Environmental Science
Ecology, environment
Environment
Environmental impact
Environmental Law/Policy/Ecojustice
Forest floor
Forest management
Forests
Irradiation
Life Sciences
Microclimate
Plant cover
Plant population
Plant populations
Plant species
Planting density
Plants
Population density
Population dynamics
Silviculture, forestry
Understory
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Summary:Macroclimatic changes are impacting ecosystems worldwide. However, a large portion of terrestrial species live under conditions where impacts of macroclimate change are buffered, such as in the shade of trees, and how this buffering impacts future below-canopy biodiversity redistributions at the continental scale is unknown. Here we show that shady forest floors due to dense tree canopies mitigate severe warming impacts on forest biodiversity, while canopy opening amplifies macroclimate change impacts. A cross-continental transplant experiment in five contrasting biogeographical areas combined with experimental heating and irradiation treatments was used to parametize 25-m resolution mechanistic demographic distribution models and project the current and future distributions of 12 common understorey plant species, considering the effects of forest microclimate and forest cover density. These results highlight microclimates and forest density as powerful tools for forest managers and policymakers to shelter forest biodiversity from climate change. The impacts of microclimate on future plant population dynamics are poorly understood. The authors use large-scale transplant climate change experiments to show the contribution of forest microclimates to population dynamics and project the distributions of 12 common understorey plants.
ISSN:1758-678X
1758-6798
1758-6798
DOI:10.1038/s41558-023-01744-y