Nested Cladistic Analysis Indicates Population Fragmentation Shapes Genetic Diversity in a Freshwater Mussel

Nested Cladistic Analysis Indicates Population Fragmentation Shapes Genetic Diversity in a Freshwater Mussel

Thomas F. Turner^a, Joel C. Trexler^b, John L. Harris^c, and Jody L. Haynes^d
^a Department of Biology and Museum of Southwestern Biology, University of New Mexico, Albuquerque, New Mexico 87131,
^b Department of Biological Sciences, Florida International University, Miami, Florida 33199,
^c 12301 Pleasant Forest Drive, Little Rock, Arkansas 72212
^d Tropical Research and Education Center, University of Florida, Homestead, Florida 33031

Corresponding author: Thomas F. Turner, Department of Biology and Museum of Southwestern Biology, University of New Mexico, Albuquerque, NM 87131., turnert{at}unm.edu (E-mail)

Communicating editor: M. K. UYENOYAMA

Recently developed phylogeographic analyses that incorporategenealogical relationships of alleles offer the exciting prospectof disentangling historical from contemporary events. However,the relative advantages and shortfalls of this approach remainto be studied. We compared the nested cladistic method to themore traditional analysis of variance approach in a study ofintraspecific genetic variation in the freshwater mussel, Lampsilishydiana. We surveyed 257 specimens for nucleotide sequence levelvariation in a fragment of the mitochondrial 16S rRNA gene.When compared side by side, nested cladistic analysis and analysisof molecular variance (AMOVA) identified fragmentation of Arkansasriver populations from remaining populations to the southwest.Nested cladistic analysis identified a second, more recent separationof Ouachita and Upper Saline river populations that was notdetected by AMOVA. Differences among analytical methods probablyarise from treatment of spatial hierarchical information: hierarchicalgroups emerge via a parsimony criterion in nested cladisticanalysis but must be specified a priori in AMOVA. Both methodsidentified significant genetic structure among localities withinhierarchical groups. Results from AMOVA suggested little geneflow among local populations with an island model. However,inferences about process that gave rise to patterns at thislevel were not possible in nested cladistic analysis, becausean ancestral (interior) haplotype was not observed for a keyone-step clade in the parsimony network. Our results suggestthat, under some circumstances, nested cladistic analysis haslower power than more traditional analysis of variance to inferprocesses at the local population level.

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