Disentangling the Evolutionary History of the Woody Species in Earth's Most Diverse Tropical Savanna

ABSTRACT Aim We investigate the evolutionary structure of vegetation assemblages in the Cerrado Domain, the main extent of savanna in the American Tropics, a biodiversity hotspot, to understand the role of ecological and geographical factors in constraining plant diversification and shaping biogeogr...

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Published inJournal of biogeography Vol. 52; no. 8
Main Authors Pontara, Vanessa, Dexter, Kyle G., Rezende, Vanessa Leite, Silva, Valéria Flávia Batista, Campos, Prímula Viana, Bueno, Marcelo Leandro
Format Journal Article
LanguageEnglish
Published Oxford Wiley Subscription Services, Inc 01.08.2025
Subjects
Biodiversity
Biodiversity hot spots
Biogeography
Cerrado
cerrado sensu stricto
Cerradão
Climate change
Clustering
Coniferous forests
deciduous forest
Deciduous forests
Deciduous trees
Differentiation
Dry forests
fire
Forests
Genera
Grasslands
Group theory
Harbors
Ordination
phyloendemism
phylogenetic diversity
Phylogenetics
Phylogeny
phyloregion
Plant species
Savannahs
semideciduous forest
Subgroups
Tropical environments
Tropical forests
Water availability
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Abstract ABSTRACT Aim We investigate the evolutionary structure of vegetation assemblages in the Cerrado Domain, the main extent of savanna in the American Tropics, a biodiversity hotspot, to understand the role of ecological and geographical factors in constraining plant diversification and shaping biogeographic patterns across this complex mosaic of environments. We test the following predictions: (1) savanna assemblages form a distinct evolutionary group, rather than grouping with forest assemblages from adjacent biogeographic regions; (2) moist forests contain the highest phylogenetic diversity, followed by dry forests and savannas and (3) edaphic variables are stronger predictors of evolutionary group differentiation than climatic variables. Location Cerrado, Brazil. Methods Our data set comprises 3072 tree species, belonging to 656 genera and 151 families, found across 1165 assemblages. We used a phylogenetically informed ordination analysis to place assemblages in a multivariate space, followed by K‐means clustering to identify the main evolutionary groups of tree assemblages. To determine which environmental variables were associated with the evolutionary groups found, we implemented classification tree approaches. We quantified both the unique and shared phylogenetic diversity among evolutionary groups and identified the lineages most strongly associated with each evolutionary group using an indicator analysis. Results We find a clear evolutionary differentiation between savanna and forest assemblages, pointing to the importance of fire and water availability in driving turnover in evolutionary lineage composition of tree communities in the Cerrado Domain. When dividing assemblages into three evolutionary groups, the forest group splits into deciduous versus evergreen/semideciduous subgroups. The evergreen and semideciduous forests harbour the highest overall and unique phylogenetic diversity, and deciduous forests the second highest, but the savanna group also contains a significant portion of unique woody angiosperm evolutionary diversity. Conclusions We identified that savannas assemblages constitute a distinct evolutionary group. Tree species that can inhabit fire‐prone areas belong to a restricted set of phylogenetic lineages, giving the savannas in the Cerrado Domain a unique evolutionary identity. Dry forests also constitute a unique evolutionary group. Given the marked evolutionary variation of tree assemblages across the Cerrado Domain, it is imperative to recognise and address the specific conservation challenges faced by each group (savanna, evergreen and semideciduous forest and tropical dry forest) to ensure the preservation of this biodiversity hotspot.
AbstractList ABSTRACT Aim We investigate the evolutionary structure of vegetation assemblages in the Cerrado Domain, the main extent of savanna in the American Tropics, a biodiversity hotspot, to understand the role of ecological and geographical factors in constraining plant diversification and shaping biogeographic patterns across this complex mosaic of environments. We test the following predictions: (1) savanna assemblages form a distinct evolutionary group, rather than grouping with forest assemblages from adjacent biogeographic regions; (2) moist forests contain the highest phylogenetic diversity, followed by dry forests and savannas and (3) edaphic variables are stronger predictors of evolutionary group differentiation than climatic variables. Location Cerrado, Brazil. Methods Our data set comprises 3072 tree species, belonging to 656 genera and 151 families, found across 1165 assemblages. We used a phylogenetically informed ordination analysis to place assemblages in a multivariate space, followed by K‐means clustering to identify the main evolutionary groups of tree assemblages. To determine which environmental variables were associated with the evolutionary groups found, we implemented classification tree approaches. We quantified both the unique and shared phylogenetic diversity among evolutionary groups and identified the lineages most strongly associated with each evolutionary group using an indicator analysis. Results We find a clear evolutionary differentiation between savanna and forest assemblages, pointing to the importance of fire and water availability in driving turnover in evolutionary lineage composition of tree communities in the Cerrado Domain. When dividing assemblages into three evolutionary groups, the forest group splits into deciduous versus evergreen/semideciduous subgroups. The evergreen and semideciduous forests harbour the highest overall and unique phylogenetic diversity, and deciduous forests the second highest, but the savanna group also contains a significant portion of unique woody angiosperm evolutionary diversity. Conclusions We identified that savannas assemblages constitute a distinct evolutionary group. Tree species that can inhabit fire‐prone areas belong to a restricted set of phylogenetic lineages, giving the savannas in the Cerrado Domain a unique evolutionary identity. Dry forests also constitute a unique evolutionary group. Given the marked evolutionary variation of tree assemblages across the Cerrado Domain, it is imperative to recognise and address the specific conservation challenges faced by each group (savanna, evergreen and semideciduous forest and tropical dry forest) to ensure the preservation of this biodiversity hotspot.
Aim We investigate the evolutionary structure of vegetation assemblages in the Cerrado Domain, the main extent of savanna in the American Tropics, a biodiversity hotspot, to understand the role of ecological and geographical factors in constraining plant diversification and shaping biogeographic patterns across this complex mosaic of environments. We test the following predictions: (1) savanna assemblages form a distinct evolutionary group, rather than grouping with forest assemblages from adjacent biogeographic regions; (2) moist forests contain the highest phylogenetic diversity, followed by dry forests and savannas and (3) edaphic variables are stronger predictors of evolutionary group differentiation than climatic variables. Location Cerrado, Brazil. Methods Our data set comprises 3072 tree species, belonging to 656 genera and 151 families, found across 1165 assemblages. We used a phylogenetically informed ordination analysis to place assemblages in a multivariate space, followed by K‐means clustering to identify the main evolutionary groups of tree assemblages. To determine which environmental variables were associated with the evolutionary groups found, we implemented classification tree approaches. We quantified both the unique and shared phylogenetic diversity among evolutionary groups and identified the lineages most strongly associated with each evolutionary group using an indicator analysis. Results We find a clear evolutionary differentiation between savanna and forest assemblages, pointing to the importance of fire and water availability in driving turnover in evolutionary lineage composition of tree communities in the Cerrado Domain. When dividing assemblages into three evolutionary groups, the forest group splits into deciduous versus evergreen/semideciduous subgroups. The evergreen and semideciduous forests harbour the highest overall and unique phylogenetic diversity, and deciduous forests the second highest, but the savanna group also contains a significant portion of unique woody angiosperm evolutionary diversity. Conclusions We identified that savannas assemblages constitute a distinct evolutionary group. Tree species that can inhabit fire‐prone areas belong to a restricted set of phylogenetic lineages, giving the savannas in the Cerrado Domain a unique evolutionary identity. Dry forests also constitute a unique evolutionary group. Given the marked evolutionary variation of tree assemblages across the Cerrado Domain, it is imperative to recognise and address the specific conservation challenges faced by each group (savanna, evergreen and semideciduous forest and tropical dry forest) to ensure the preservation of this biodiversity hotspot.
Author Rezende, Vanessa Leite
Dexter, Kyle G.
Silva, Valéria Flávia Batista
Pontara, Vanessa
Campos, Prímula Viana
Bueno, Marcelo Leandro
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Snippet ABSTRACT Aim We investigate the evolutionary structure of vegetation assemblages in the Cerrado Domain, the main extent of savanna in the American Tropics, a...
Aim We investigate the evolutionary structure of vegetation assemblages in the Cerrado Domain, the main extent of savanna in the American Tropics, a...
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SubjectTerms Biodiversity
Biodiversity hot spots
Biogeography
Cerrado
cerrado sensu stricto
Cerradão
Climate change
Clustering
Coniferous forests
deciduous forest
Deciduous forests
Deciduous trees
Differentiation
Dry forests
fire
Forests
Genera
Grasslands
Group theory
Harbors
Ordination
phyloendemism
phylogenetic diversity
Phylogenetics
Phylogeny
phyloregion
Plant species
Savannahs
semideciduous forest
Subgroups
Tropical environments
Tropical forests
Water availability
Title Disentangling the Evolutionary History of the Woody Species in Earth's Most Diverse Tropical Savanna
URI https://onlinelibrary.wiley.com/doi/abs/10.1111%2Fjbi.15160
https://www.proquest.com/docview/3229562154
Volume 52
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