Evolutionary Dynamics of American Manatee Species on the Northern Coast of South America: Origins and Maintenance of an Interspecific Hybrid Zone

Evolutionary Dynamics of American Manatee Species on the Northern Coast of South America: Origins and Maintenance of an Interspecific Hybrid Zone

Interspecific hybridization has been historically neglected in research and conservation practice, but it is a common phenomenon in nature, and several models have been developed to characterize it genetically. Even though Trichechus inunguis (Amazonian manatee) and T. manatus (West Indian manatee)...

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Published in:Evolutionary biology Vol. 51; no. 2; pp. 244 - 256
Main Authors: de Lima, Camilla Savicius, de Magalhães, Rafael Félix, Camargo, Arley, de Thoisy, Benoit, Marmontel, Miriam, Carvalho, Vitor Luz, de Meirelles, Ana Carolina Oliveira, Santos, Fabrício Rodrigues
Format: Journal Article
Language:English
Published: New York Springer US 01-06-2024
Springer Nature B.V
Subjects:
Animal Genetics and Genomics
Biomedical and Life Sciences
Developmental Biology
Ecology
Evolutionary Biology
Gene flow
Human Genetics
Hybridization
Interspecific hybridization
Life Sciences
Mitochondrial DNA
Statistical analysis
Trichechus inunguis
Trichechus manatus
South America
Hybrid zone
Sirenians
Introgression
Approximate Bayesian computation
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Summary:Interspecific hybridization has been historically neglected in research and conservation practice, but it is a common phenomenon in nature, and several models have been developed to characterize it genetically. Even though Trichechus inunguis (Amazonian manatee) and T. manatus (West Indian manatee) exhibit large morphological, karyotypic, and molecular differences, a hybrid zone was identified on the northern coast of South America, from the Amazon River estuary toward the Guianas coastline. Two major populations or evolutionarily significant units (ESUs) within T. manatus , namely, the Caribbean and Atlantic, were separated and their differentiation was likely promoted or reinforced by the interspecific hybridization zone. We used nuclear and mtDNA sequences to reconstruct manatee speciation, population diversification through time and space, and secondary contact, which resulted in a hybrid zone. In this hybrid zone, the genetic contribution of each parental species was estimated, and different models for generating the current scenario were tested using statistical phylogeographic tools. All the results suggest a long hybridization history, during which a stable and structured hybrid swarm is generated. The coastline hybrid zone is composed of individuals with a lesser genomic contribution from T. inunguis ; this zone works as a genetic sink that restricts gene flow between neighbouring Atlantic (Brazil) and Caribbean (all others) T. manatus populations, which further reinforces the isolation and differentiation of the Brazilian manatees.
ISSN:0071-3260
1934-2845
DOI:10.1007/s11692-024-09629-4