The population genetic structure of 251 bonnethead sharks, Sphyrna tiburo, from estuarine and nearshore ocean waters of the Western North Atlantic Ocean (WNA), was assessed using sequences of the mitochondrial DNA-control region. Highly significant genetic differences were observed among bonnetheads from 3 WNA regions; Atlantic coast of Florida, Gulf coast of Florida, and southwestern Gulf of Mexico (analysis of molecular variance, ΦCT = 0.137; P=0.001). Within the Gulf coast of Florida region, small but significant genetic differences were observed between bonnetheads from neighboring estuaries. These overall patterns were consistent with known latitudinal and inshore-offshore movements that occur seasonally for this species within US waters, and with the residency patterns and high site fidelity to feeding/nursery grounds reported in estuaries along the Atlantic coast of Florida and South Carolina. Historical demography also supported the occurrence of past population expansions occurring during Pleistocene glacial-interglacial cycles that caused drastic reductions in bonnethead population size, as a consequence of the eustatic processes that affected the Florida peninsula. This is the first population genetics study for bonnetheads to report genetic divergence among core abundance areas in US and Mexican waters of the WNA. These results, coupled with recent advances in knowledge regarding regional differences in life-history parameters of this species, are critical for defining management units to guide future management strategies for bonnetheads within US waters and across international boundaries into Mexico.
Elasmobranchs are one of the most diverse groups in the
marine realm represented by 18 orders, 55 families and about 1200 species
reported, but also one of the most vulnerable to exploitation and to climate
change. Phylogenetic relationships among main orders have been controversial
since the emergence of the Hypnosqualean hypothesis by Shirai (1992) that considered batoids as a
sister group of sharks. The use of the complete mitochondrial DNA (mtDNA) may
shed light to further validate this hypothesis by increasing the number of
informative characters. We report the mtDNA genome of the bonnethead shark
Sphyrna tiburo, and compare it with mitogenomes of
other 48 species to assess phylogenetic relationships. The mtDNA genome of
S. tiburo, is quite similar in size to that of
congeneric species but also similar to the reported mtDNA genome of other
Carcharhinidae species. Like most vertebrate mitochondrial genomes, it contained
13 protein coding genes, two rRNA genes and 22
tRNA genes and the control region of 1086 bp
(D-loop). The Bayesian analysis of the 49 mitogenomes
supported the view that sharks and batoids are separate groups.
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