Evolving in isolation Genetic tests reject recent connections of Amazonian savannas with the central Cerrado

Aim The effects of past climatic shifts remain enigmatic for the Amazon region, especially for islands of savanna within the tropical forest known as “Amazonian savannas” (AS). These disjunct savanna areas share many plant and animal species with the Cerrado biome in central Brazil (the CC), fuellin...

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Published inJournal of biogeography Vol. 46; no. 1; pp. 196 - 211
Main Authors Resende-Moreira, Luciana C., Knowles, L. Lacey, Thomaz, Andréa T., Prado, Joyce R., Souto, Andrea P., Lemos-Filho, José P., Lovato, Maria Bernadete
Format Journal Article
LanguageEnglish
Published Oxford Wiley 01.01.2019
Wiley Subscription Services, Inc
Subjects
Amazon
Amazonia
Animal species
animals
Biological evolution
Brazil
Byrsonima
Byrsonima crassifolia
Cerrado
Chloroplast DNA
Chloroplasts
corridor
Corridors
Data processing
Deoxyribonucleic acid
Divergence
DNA
ecosystems
Frequency spectrum
Gene flow
Genetic screening
Genetic structure
genetic variation
Genomics
islands
loci
Malpighiaceae
phylogeography
Plant species
Populations
RAD‐seq
relict
RESEARCH PAPER
savanna
Savannahs
savannas
Single-nucleotide polymorphism
Species
Tropical forests
Woody plants
Cerrado Biome
Brazil
Amazonia
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Abstract Aim The effects of past climatic shifts remain enigmatic for the Amazon region, especially for islands of savanna within the tropical forest known as “Amazonian savannas” (AS). These disjunct savanna areas share many plant and animal species with the Cerrado biome in central Brazil (the CC), fuelling debate over historical connections. We evaluate hypothesized corridors between the CC and the AS, and specifically investigate whether a history of isolation versus recent connections is supported by genetic tests. Location Cerrado and Amazon biomes. Taxon Two woody plant species: Byrsonima coccolobifolia and B. crassifolia (Malpighiaceae). Methods Analyses of genomic data (SNPs from more than 4,500 loci) in 28 populations, as well as chloroplast DNA (cpDNA), were used to test for parallel geographic structuring between the CC and AS—an expected structure if putative corridors provided regional connections between different areas of the CC and AS, and divergence times between the CC and AS were estimated using a composite‐likelihood method based on the site frequency spectrum. Results Genomic data, in contrast with cpDNA, generally show strong, concordant genetic structure between the CC and AS in both species, rather than regional grouping of CC with AS populations. In addition, divergence between the CC and AS predates the Last Glacial Maximum. Main conclusions Our results suggest the AS have remained relatively isolated from the CC even though the strong structure of genomic variation is not shared by cpDNA. We note that past evidence of putative corridors between the CC and AS based solely on cpDNA should be interpreted cautiously since the lack of structure may reflect limited genetic resolution rather than gene flow. As such, the uniqueness of AS may be more pronounced than previously thought, highlighting the importance of protecting these highly threatened areas.
AbstractList AimThe effects of past climatic shifts remain enigmatic for the Amazon region, especially for islands of savanna within the tropical forest known as “Amazonian savannas” (AS). These disjunct savanna areas share many plant and animal species with the Cerrado biome in central Brazil (the CC), fuelling debate over historical connections. We evaluate hypothesized corridors between the CC and the AS, and specifically investigate whether a history of isolation versus recent connections is supported by genetic tests.LocationCerrado and Amazon biomes.TaxonTwo woody plant species: Byrsonima coccolobifolia and B. crassifolia (Malpighiaceae).MethodsAnalyses of genomic data (SNPs from more than 4,500 loci) in 28 populations, as well as chloroplast DNA (cpDNA), were used to test for parallel geographic structuring between the CC and AS—an expected structure if putative corridors provided regional connections between different areas of the CC and AS, and divergence times between the CC and AS were estimated using a composite‐likelihood method based on the site frequency spectrum.ResultsGenomic data, in contrast with cpDNA, generally show strong, concordant genetic structure between the CC and AS in both species, rather than regional grouping of CC with AS populations. In addition, divergence between the CC and AS predates the Last Glacial Maximum.Main conclusionsOur results suggest the AS have remained relatively isolated from the CC even though the strong structure of genomic variation is not shared by cpDNA. We note that past evidence of putative corridors between the CC and AS based solely on cpDNA should be interpreted cautiously since the lack of structure may reflect limited genetic resolution rather than gene flow. As such, the uniqueness of AS may be more pronounced than previously thought, highlighting the importance of protecting these highly threatened areas.
Aim The effects of past climatic shifts remain enigmatic for the Amazon region, especially for islands of savanna within the tropical forest known as “Amazonian savannas” (AS). These disjunct savanna areas share many plant and animal species with the Cerrado biome in central Brazil (the CC), fuelling debate over historical connections. We evaluate hypothesized corridors between the CC and the AS, and specifically investigate whether a history of isolation versus recent connections is supported by genetic tests. Location Cerrado and Amazon biomes. Taxon Two woody plant species: Byrsonima coccolobifolia and B. crassifolia (Malpighiaceae). Methods Analyses of genomic data (SNPs from more than 4,500 loci) in 28 populations, as well as chloroplast DNA (cpDNA), were used to test for parallel geographic structuring between the CC and AS—an expected structure if putative corridors provided regional connections between different areas of the CC and AS, and divergence times between the CC and AS were estimated using a composite‐likelihood method based on the site frequency spectrum. Results Genomic data, in contrast with cpDNA, generally show strong, concordant genetic structure between the CC and AS in both species, rather than regional grouping of CC with AS populations. In addition, divergence between the CC and AS predates the Last Glacial Maximum. Main conclusions Our results suggest the AS have remained relatively isolated from the CC even though the strong structure of genomic variation is not shared by cpDNA. We note that past evidence of putative corridors between the CC and AS based solely on cpDNA should be interpreted cautiously since the lack of structure may reflect limited genetic resolution rather than gene flow. As such, the uniqueness of AS may be more pronounced than previously thought, highlighting the importance of protecting these highly threatened areas.
AIM: The effects of past climatic shifts remain enigmatic for the Amazon region, especially for islands of savanna within the tropical forest known as “Amazonian savannas” (AS). These disjunct savanna areas share many plant and animal species with the Cerrado biome in central Brazil (the CC), fuelling debate over historical connections. We evaluate hypothesized corridors between the CC and the AS, and specifically investigate whether a history of isolation versus recent connections is supported by genetic tests. LOCATION: Cerrado and Amazon biomes. TAXON: Two woody plant species: Byrsonima coccolobifolia and B. crassifolia (Malpighiaceae). METHODS: Analyses of genomic data (SNPs from more than 4,500 loci) in 28 populations, as well as chloroplast DNA (cpDNA), were used to test for parallel geographic structuring between the CC and AS—an expected structure if putative corridors provided regional connections between different areas of the CC and AS, and divergence times between the CC and AS were estimated using a composite‐likelihood method based on the site frequency spectrum. RESULTS: Genomic data, in contrast with cpDNA, generally show strong, concordant genetic structure between the CC and AS in both species, rather than regional grouping of CC with AS populations. In addition, divergence between the CC and AS predates the Last Glacial Maximum. MAIN CONCLUSIONS: Our results suggest the AS have remained relatively isolated from the CC even though the strong structure of genomic variation is not shared by cpDNA. We note that past evidence of putative corridors between the CC and AS based solely on cpDNA should be interpreted cautiously since the lack of structure may reflect limited genetic resolution rather than gene flow. As such, the uniqueness of AS may be more pronounced than previously thought, highlighting the importance of protecting these highly threatened areas.
Author Lemos-Filho, José P.
Lovato, Maria Bernadete
Knowles, L. Lacey
Resende-Moreira, Luciana C.
Prado, Joyce R.
Thomaz, Andréa T.
Souto, Andrea P.
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Snippet Aim The effects of past climatic shifts remain enigmatic for the Amazon region, especially for islands of savanna within the tropical forest known as...
AimThe effects of past climatic shifts remain enigmatic for the Amazon region, especially for islands of savanna within the tropical forest known as “Amazonian...
AIM: The effects of past climatic shifts remain enigmatic for the Amazon region, especially for islands of savanna within the tropical forest known as...
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StartPage 196
SubjectTerms Amazon
Amazonia
Animal species
animals
Biological evolution
Brazil
Byrsonima
Byrsonima crassifolia
Cerrado
Chloroplast DNA
Chloroplasts
corridor
Corridors
Data processing
Deoxyribonucleic acid
Divergence
DNA
ecosystems
Frequency spectrum
Gene flow
Genetic screening
Genetic structure
genetic variation
Genomics
islands
loci
Malpighiaceae
phylogeography
Plant species
Populations
RAD‐seq
relict
RESEARCH PAPER
savanna
Savannahs
savannas
Single-nucleotide polymorphism
Species
Tropical forests
Woody plants
Subtitle Genetic tests reject recent connections of Amazonian savannas with the central Cerrado
Title Evolving in isolation
URI https://www.jstor.org/stable/26786624
https://onlinelibrary.wiley.com/doi/abs/10.1111%2Fjbi.13468
https://www.proquest.com/docview/2169466651
https://www.proquest.com/docview/2221061420
Volume 46
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