Title
Low levels of nucleotide diversity in Crocodylus moreletii and evidence of hybridization with C. acutus
Author(s)
Ray D.A., Dever J.A., Platt S.G., Rainwater T.R., Finger A.G., McMurry S.T., Batzer M.A., Barr B., Stafford P.J., McKnight J., Densmore L.D.
Published
2004
Publisher
Conservation Genetics
Abstract
Examinations of both population genetic structure and the processes that lead to such structure in crocodilians have been initiated in several species in response to a call by the IUCN Crocodile Specialist Group. A recent study used microsatellite markers to characterize Morelet's crocodile (Crocodylus moreletii) populations in north-central Belize and presented evidence for isolation by distance. To further investigate this hypothesis, we sequenced a portion of the mitochondrial control region for representative animals after including samples from additional locales in Belize, Guatemala and Mexico. While there is limited evidence of subdivision involving other locales, we found that most of the differentiation among populations of C. moreletii can be attributed to animals collected from a single locale in Belize, Banana Bank Lagoon. Furthermore, mitochondrial DNA sequence analysis showed that animals from this and certain other locales display a haplotype characteristic of the American crocodile, C. acutus, rather than C. moreletii. We interpret this as evidence of hybridization between the two species and comment on how these new data have influenced our interpretation of previous findings. We also find very low levels of nucleotide diversity in C. moreletii haplotypes and provide evidence for a low rate of substitution in the crocodilian mitochondrial control region. Finally, the conservation implications of these findings are discussed.
Keywords
conservation genetics; crocodilian; genetic structure; hybridization; mitochondrial DNA; population genetics; Belize; Central America; Guatemala [Central America]; Mexico [North America]; North America; Alligator; Amphibia; Animalia; Crocodylidae (all crocodiles); Crocodylus; Crocodylus acutus; Crocodylus moreletii; Reptilia; DNA CONTROL REGION; MITOCHONDRIAL CONTROL REGION; SOUTHEASTERN UNITED-STATES; AMERICAN ALLIGATOR; NONEQUILIBRIUM MODELS; CHELONIA-MYDAS; PHYLOGEOGRAPHY; EVOLUTION; CROCODILE
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