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Main Authors: Shen, Ting, Corlett, Richard T., Collart, Flavien, Kasprzyk, Thibault, Guo, Xin-Lei, Patiño, Jairo, Su, Yang, Hardy, Olivier J., Ma, Wen-Zhang, Wang, Jian, Wei, Yu-Mei, Mouton, Lea, Li, Yuan, Song, Liang, Vanderpoorten, Alain
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2512.03585
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author Shen, Ting
Corlett, Richard T.
Collart, Flavien
Kasprzyk, Thibault
Guo, Xin-Lei
Patiño, Jairo
Su, Yang
Hardy, Olivier J.
Ma, Wen-Zhang
Wang, Jian
Wei, Yu-Mei
Mouton, Lea
Li, Yuan
Song, Liang
Vanderpoorten, Alain
author_facet Shen, Ting
Corlett, Richard T.
Collart, Flavien
Kasprzyk, Thibault
Guo, Xin-Lei
Patiño, Jairo
Su, Yang
Hardy, Olivier J.
Ma, Wen-Zhang
Wang, Jian
Wei, Yu-Mei
Mouton, Lea
Li, Yuan
Song, Liang
Vanderpoorten, Alain
contents Epiphytic communities offer an original framework to disentangle the contributions of environmental filters, biotic interactions and dispersal limitations to community structure at fine spatial scales. We determine here whether variations in light, microclimatic conditions and host tree size affect the variation in species composition and phylogenetic structure of epiphytic bryophyte communities, and hence, assess the contribution of environmental filtering, phylogenetic constraints and competition to community assembly.A canopy crane giving access to 1.1 ha of tropical rainforest in Yunnan (China) was employed to record hourly light and microclimatic conditions from 54 dataloggers and epiphytic bryophyte communities from 408 plots. Generalized Dissimilarity Modelling was implemented to analyse the relationship between taxonomic and phylogenetic turnover among epiphytic communities, host-tree characteristics and microclimatic variation.Within-tree vertical turnover of bryophyte communities was significantly about 30% higher than horizontal turnover among-trees. Thus, the sharp vertical variations in microclimatic conditions from tree base to canopy are more important than differences in age, reflecting the likelihood of colonization, area, and habitat conditions between young and old trees, in shaping the composition of epiphytic bryophyte communities.
format Preprint
id arxiv_https___arxiv_org_abs_2512_03585
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Microclimatic variation in tropical canopies: A glimpse into the processes of community assembly in epiphytic bryophyte communities
Shen, Ting
Corlett, Richard T.
Collart, Flavien
Kasprzyk, Thibault
Guo, Xin-Lei
Patiño, Jairo
Su, Yang
Hardy, Olivier J.
Ma, Wen-Zhang
Wang, Jian
Wei, Yu-Mei
Mouton, Lea
Li, Yuan
Song, Liang
Vanderpoorten, Alain
Populations and Evolution
Epiphytic communities offer an original framework to disentangle the contributions of environmental filters, biotic interactions and dispersal limitations to community structure at fine spatial scales. We determine here whether variations in light, microclimatic conditions and host tree size affect the variation in species composition and phylogenetic structure of epiphytic bryophyte communities, and hence, assess the contribution of environmental filtering, phylogenetic constraints and competition to community assembly.A canopy crane giving access to 1.1 ha of tropical rainforest in Yunnan (China) was employed to record hourly light and microclimatic conditions from 54 dataloggers and epiphytic bryophyte communities from 408 plots. Generalized Dissimilarity Modelling was implemented to analyse the relationship between taxonomic and phylogenetic turnover among epiphytic communities, host-tree characteristics and microclimatic variation.Within-tree vertical turnover of bryophyte communities was significantly about 30% higher than horizontal turnover among-trees. Thus, the sharp vertical variations in microclimatic conditions from tree base to canopy are more important than differences in age, reflecting the likelihood of colonization, area, and habitat conditions between young and old trees, in shaping the composition of epiphytic bryophyte communities.
title Microclimatic variation in tropical canopies: A glimpse into the processes of community assembly in epiphytic bryophyte communities
topic Populations and Evolution
url https://arxiv.org/abs/2512.03585