Titre
Inversion of the latitudinal diversity gradient at high taxonomic level in liverworts revealed by a phylogenetically deconstructive approach.
Type
article
Institution
UNIL/CHUV/Unisanté + institutions partenaires
Périodique
Auteur(s)
Wang, J.
Auteure/Auteur
Dai, Z.
Auteure/Auteur
Kasprzyk, T.
Auteure/Auteur
Yao, X.
Auteure/Auteur
Hagborg, A.
Auteure/Auteur
Söderström, L.
Auteure/Auteur
Zhang, J.
Auteure/Auteur
Vanderpoorten, A.
Auteure/Auteur
Collart, F.
Auteure/Auteur
Liens vers les personnes
Liens vers les unités
ISSN
1095-8290
Statut éditorial
Accepté (sous presse)
Peer-reviewed
Oui
Langue
anglais
Notes
Publication types: Journal Article
Publication Status: aheadofprint
Publication Status: aheadofprint
Résumé
Like numerous patterns in ecology and evolution, the Latitudinal Diversity Gradient (LDG) varies across phylogenetic levels. Yet, studies that systematically investigate how patterns and processes change at different phylogenetic levels, from the tips to the root, are still relatively scarce. Here, we test the hypothesis that, despite the high long-distance dispersal capacities of liverworts, which would expectedly result in the homogenization of their distributions, an increase of diversity with latitude persists at increasing phylogenetic level due to macroclimatic niche conservatism since the earliest evolutionary history of the group.
Liverwort distributions were scored for 450 operational geographic units (OGU) world-wide. From the tips to the root, the phylogeny was continuously sliced to examine how taxonomic and phylogenetic diversity correlate with latitude in a standardized way. Taxonomic diversity and Mean Phylogenetic Distance among taxa were computed for each OGU at different phylogenetic levels and correlated with macro-ecological factors using spatial linear models.
The correlation between taxonomic diversity and latitude progressively shifted from significantly negative at species level to unsignificant and then significantly positive at the highest phylogenetic levels. Taxonomic diversity and MPD were both significantly correlated with macro-climatic factors across all phylogenetic levels.
In contrast with the marked increase of angiosperm family diversity towards the tropics, the latitudinal diversity gradient evidenced at species level in liverworts progressively decayed at increasing phylogenetic level, suggesting that phylogenetic niche conservatism has played a much weaker role in liverworts than in angiosperms. The inverted latitudinal diversity gradient towards the deepest phylogenetic levels lends support to the hypothesis that the earliest lineages diversified in extra-tropical conditions, explaining why, unlike in angiosperms, high species richness in the tropics is not associated with high phylogenetic diversity in liverworts. Our results highlight the extent to which a phylogenetically deconstructive approach allows for a better understanding of the accumulation of biodiversity through time.
Liverwort distributions were scored for 450 operational geographic units (OGU) world-wide. From the tips to the root, the phylogeny was continuously sliced to examine how taxonomic and phylogenetic diversity correlate with latitude in a standardized way. Taxonomic diversity and Mean Phylogenetic Distance among taxa were computed for each OGU at different phylogenetic levels and correlated with macro-ecological factors using spatial linear models.
The correlation between taxonomic diversity and latitude progressively shifted from significantly negative at species level to unsignificant and then significantly positive at the highest phylogenetic levels. Taxonomic diversity and MPD were both significantly correlated with macro-climatic factors across all phylogenetic levels.
In contrast with the marked increase of angiosperm family diversity towards the tropics, the latitudinal diversity gradient evidenced at species level in liverworts progressively decayed at increasing phylogenetic level, suggesting that phylogenetic niche conservatism has played a much weaker role in liverworts than in angiosperms. The inverted latitudinal diversity gradient towards the deepest phylogenetic levels lends support to the hypothesis that the earliest lineages diversified in extra-tropical conditions, explaining why, unlike in angiosperms, high species richness in the tropics is not associated with high phylogenetic diversity in liverworts. Our results highlight the extent to which a phylogenetically deconstructive approach allows for a better understanding of the accumulation of biodiversity through time.
PID Serval
serval:BIB_98CBC1382BDF
PMID
Date de création
2025-03-28T12:26:50.186Z
Date de création dans IRIS
2025-05-21T03:18:14Z