Lionfish (Scorpaenidae, Pteroinae) are venomous predatory fish that are native to the IndoPacific region and have recently become established in the western Atlantic Ocean. Since the invasion was first documented in 2000, the number of lionfish in the Atlantic has increased substantially and spurred a series of investigations regarding their biology and potential impacts on the ecosystem. The present study uses haplotypes from the mitochondria-encoded cytochrome b (cyt b) locus to determine the number of lionfish species involved in the Atlantic invasion and the decrease in genetic diversity that accompanied the invasion. The cyt b data reveal that Pterois volitans along with a small number of Pterois miles are present in the Atlantic Ocean and that a strong founder effect has resulted in a large decrease in genetic diversity compared with native lionfish populations.
A newly abundant Gracilaria species in the sounds of southeastern North Carolina has become a problem for commercial fishing and industries drawing water from the lower Cape Fear River. DNA sequence analyses have shown that this species is Gracilaria vermiculophylla, a taxon originally described from East Asia. Surveys for G. vermiculophylla have shown that it has a discontinuous distribution in the sounds of southeastern North Carolina, and suggest that it is spreading. Gracilaria vermiculophylla meets 6 of the 10 criteria used to help identify invasive species in that it has only recently appeared in southeastern North Carolina; is associated with human mechanisms of dispersal; has a restricted distribution; has disjunct populations in isolated oceans; no means of active dispersal, and an exotic evolutionary origin. The species may also meet two additional criteria as its local range is believed to be expanding, and it is filling a previously unoccupied seasonal niche. These factors taken together strongly suggest that G. vermiculophylla is an invasive species in southeastern North Carolina.
Gene flow among small fragmented populations is critical for maintaining genetic diversity, and therefore the evolutionary potential of a species. Concern for two New Zealand endemic subspecies, the Hector's (Cephalorhynchus hectori hectori) and Maui's (C. h. maui) dolphins, arises from their low abundance, slow rate of reproduction, and susceptibility to fisheries-related mortality. Our work examined genetic differentiation and migration between the subspecies and among regional and local Hector's dolphin populations using mitochondrial (mt) DNA and microsatellite genotypes from 438 samples. Results confirmed earlier reports of a single unique mtDNA control region haplotype fixed in the Maui's dolphin, and provided new evidence of reproductive isolation from Hector's dolphins (9-locus microsatellite F ST = 0.167, P \ 0.001). Independent evolutionary trajectories were also supported for Hector's dolphin populations of the East Coast, West Coast, Te Waewae Bay and Toetoe Bay. Low asymmetrical migration rates were found among several Hector's dolphin populations and assignment tests identified five Hector's dolphins likely to have a migrant father from another regional population. There appears to be sufficient step-wise gene flow to maintain genetic diversity within the East and West Coasts; however, the two local South Coast populations exhibited a high degree of differentiation given their close proximity (*100 km). To maintain the evolutionary potential and long-term survival of both subspecies, genetic monitoring and conservation management must focus on maintaining corridors to preserve gene flow and prevent further population fragmentation and loss of genetic diversity, in addition to maintaining local population abundances.
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