Advanced search
Publication Cover
Marine and Coastal Fisheries
Dynamics, Management, and Ecosystem Science
Volume 8, 2016 - Issue 1
Journal homepage
436
Views
0
CrossRef citations to date
0
Altmetric
ARTICLE

Genetic Variability and Population Structure of Gulf Menhaden Compared with Yellowfin Menhaden

Joel D. AndersonPerry R. Bass Marine Fisheries Research Station, Coastal Fisheries Division,Texas Parks and Wildlife Department, 3864 Farm to Market Road 3280, Palacios, Texas77465, USACorrespondence[email protected]
&
Autumn D. TorresPerry R. Bass Marine Fisheries Research Station, Coastal Fisheries Division,Texas Parks and Wildlife Department, 3864 Farm to Market Road 3280, Palacios, Texas77465, USA
Pages 425-435 | Received 08 Feb 2016, Accepted 05 Apr 2016, Published online: 08 Sep 2016

References

  • Ahrenholz, D. W. 1981. Recruitment and exploitation of Gulf Menhaden. U.S. National Marine Fisheries Service Fishery Bulletin 53:3–19.
  • Anderson, J. D. 2006. Conservation genetics of Gulf Menhaden (Brevoortia patronus): implications for the management of a critical forage component for Texas coastal gamefish ecology. Texas Parks and Wildlife Department, Federal Aid in Sport Fish Restoration Act, Project F-144-R, Final Report, Austin.
  • Anderson, J. D. 2007. Systematics of the North American menhadens: molecular evolutionary reconstructions in the genus Brevoortia (Clupeiformes: Clupeidae). U.S. National Marine Fisheries Service Fishery Bulletin 205:368–378.
  • Anderson, J. D., and W. J. Karel. 2007. Genetic evidence for asymmetric hybridization between menhadens (Brevoortia spp.) from peninsular Florida. Journal of Fish Biology 71:235–249.
  • Anderson, J. D., and W. J. Karel. 2014. Limited genetic structure of Gulf Menhaden (Brevoortia patronus), as revealed by microsatellite markers developed for the genus Brevoortia (Clupeidae). U.S. National Marine Fisheries Service Fishery Bulletin 112:71–81.
  • Begg, G. A., and J. R. Waldman. 1999. An holistic approach to fish stock identification. Fisheries Research 43:35–44.
  • Bowen, B. W., and J. C. Avise. 1990. Genetic structure of Atlantic and Gulf of Mexico populations of sea bass, menhaden, and sturgeon: influence of zoogeographic factors and life-history patterns. Marine Biology 107:371–381.
  • Carvalho, G. R., and L. Hauser. 1994. Molecular genetics and the stock concept in fisheries. Reviews in Fish Biology and Fisheries 4:326–350.
  • Christmas, J. Y., and R. S. Waller. 1975. Location and time of menhaden spawning in the Gulf of Mexico. Gulf Coast Research Laboratory, Ocean Springs, Mississippi.
  • Dahlberg, M. D. 1970. Atlantic and Gulf of Mexico menhadens, genus Brevoortia (Pisces: Clupeidae). Bulletin of the Florida State Museum 15:91–162.
  • Deegan, L. A., and B. A. Thompson. 1987. Growth rate and early life history of young-of-the-year Gulf Menhaden as determined from otoliths. Transactions of the American Fisheries Society 116:663–667.
  • Diaz, M., D. Wethey, J. Bulak, and B. Ely. 2000. Effect of harvest and effective population size on genetic diversity in a Striped Bass population. Transactions of the American Fisheries Society 129:1367–1372.
  • Do, C., R. S. Waples, D. Peel, G. M. Macbeth, B. J. Tillett, and J. R. Ovenden. 2014. NeEstimator V2: reimplementation of software for the estimation of contemporary effective population size (Ne) from genetic data. Molecular Ecology Resources 14:209–214.
  • Eckert, C. G., K. E. Samis, and S. C. Lougheed. 2008. Genetic variation across species’ geographical ranges: the central-marginal hypothesis and beyond. Molecular Ecology 17:1170–1188.
  • Excoffier, L., G. Laval, and S. Schneider. 2005. Arlequin ver. 3.0: an integrated software package for population genetics data analysis. Evolutionary Bioinformatics Online [online serial] 1:47–50.
  • Excoffier, L., P. Smouse, and J. Quattro. 1992. Analysis of molecular variance inferred from metric distances among DNA haplotypes: application to human mitochondrial DNA restriction data. Genetics 131:479–491.
  • Goudet, J. 1995. FSTAT (version 1.2): a computer program to calculate F-statistics. Journal of Heredity 86:485–486.
  • Hare, M. P., L. Nunney, M. K. Schwartz, D. E. Ruzzante, M. Burford, R. S. Waples, K. Ruegg, and F. Palstra. 2011. Understanding and estimating effective population size for practical application in marine species management. Conservation Biology 25:438–449.
  • Hauser, L., G. J. Adcock, P. J. Smith, J. H. Bernal Ramirez, and G. R. Carvalho. 2002. Loss of microsatellite diversity and low effective population size in an overexploited population of New Zealand Snapper (Pagrus auratus). Proceedings of the National Academy of Sciences of the USA 99:11742–11747.
  • Hildebrand, S. F. 1963. Family Clupeidae. Pages 257–454 in Memoir 1: fishes of the western North Atlantic, part 3: soft-rayed bony fishes. Sears Foundation for Marine Research, Yale University, New Haven, Connecticut.
  • Hill, W. G. 1981. Estimation of effective population size from data on linkage disequilibrium. Genetical Research 38:209–216.
  • Hoarau, G., E. Boon, D. N. Jongma, S. Ferber, J. Palsson, H. W. Van der Veer, A. D. Rignsdorp, W. T. Stam, and J. L. Olseon. 2005. Low effective population size and evidence for inbreeding in an overexploited flatfish, Plaice (Pleuronectes platessa L.). Proceedings of the Royal Society of London B 272:497–503.
  • Jorde, P. E., and N. Ryman. 2007. Unbiased estimator for genetic drift and effective population size. Genetics 177:927–935.
  • Kinsey, S. T., T. Orsoy, T. M. Bert, and B. Mahmoudi. 1994. Population structure of the Spanish Sardine Sardinella aurita: natural morphological variation in a genetically homogeneous population. Marine Biology 188:309–317.
  • Lynch, A. J., J. R. McDowell, and J. E. Graves. 2010. A molecular genetic investigation of the population structure of Atlantic Menhaden (Brevoortia tyrannus). U.S. National Marine Fisheries Service Fishery Bulletin 108:87–97.
  • Mariani, S., W. F. Hutchinson, E. M. C. Hatfield, D. E. Ruzzante E. J. Simmonds, T. G. Dahlgren, C. Andre, J. Brigham, E. Torstensen, and G. R. Carvalho. 2005. North Sea herring population structure revealed by microsatellite analysis. Marine Ecology Progress Series 303:245–257.
  • Nei, M., and F. Tajima. 1981. Genetic drift and estimation of effective population size. Genetics 1981:625–640.
  • Nelson, K., and M. Soulé. 1987. Genetical conservation of exploited fishes. Pages 345–368 in N. Ryman and E. Utter, editor. Population genetics and fisheries management. University of Washington Press, Seattle.
  • Ohta, T., and M. Kimura. 1973. A model of mutation appropriate to estimate the number of electrophoretically detectable alleles in a finite population. Genetical Research 22:201–204.
  • Palstra, F. P., and D. E. Ruzzante. 2008. Genetic estimates of contemporary effective population size: what can they tell us about the importance of genetic stochasticity for wild population persistence? Molecular Ecology 17:3428–3447.
  • Pinsky, M. L., and S. R. Palumbi. 2014. Meta-analysis reveals lower genetic diversity in overfished populations. Molecular Ecology 23:29–39.
  • Pollak, E. 1983. A new method for estimating the effective population size from allele frequency changes. Genetics 104:531–548.
  • Portnoy, D. S., and J. R. Gold. 2012. Evidence of multiple vicariance in a marine suture-zone in the Gulf of Mexico. Journal of Biogeography 39:1499–1507.
  • Pristas, P. J., E. J. Levi, and R. L. Dryfoos. 1976. Analysis of returns of tagged Gulf Menhaden. U.S. National Marine Fisheries Service Fishery Bulletin 74:112–117.
  • Pritchard, J. K., M. Stevens, and P. Donnelly. 2000. Inference of population structure using multilocus genotype data. Genetics 155:945–95.
  • Raynie, R. C., and R. F. Shaw. 1994. A comparison of larval and postlarval Gulf Menhaden, Brevoortia patronus, growth rates between an offshore spawning ground and an estuarine nursery. U.S. National Marine Fisheries Service Fishery Bulletin 92:890–894.
  • Roithmayr, C. M., and R. A. Waller. 1963. Seasonal occurrence of Brevoortia patronus in the northern Gulf of Mexico. Transactions of the American Fisheries Society 92:301–302.
  • Ryman, N., U. Lagercrantz, L. Andersson, R. Chakraborty, and R. Rosenberg. 1984. Lack of correspondence between genetic and morphologic variability patterns in Atlantic Herring (Clupea harengus). Heredity 53:687–704.
  • SEDAR (SouthEast Data, Assessment, and Review). 2013. 32A stock assessment report: Gulf of Mexico Menhaden. SEDAR, North Charleston, South Carolina.
  • Shaw, R. F., B. D. Rogers, J. H. Cowan Jr., and T. L. Tillman. 1985. Distribution and density of Brevoortia patronus (Gulf Menhaden) eggs and larvae in the continental shelf off western Louisiana. Bulletin of Marine Science 36:96–103.
  • Smith, J. 1991. The Atlantic and Gulf menhaden purse seine fisheries: origins, harvesting technologies, biostatistical monitoring, recent trends in fisheries statistics, and forecasting. Marine Fisheries Review 53:28–41.
  • Turner, T. F., J. P. Wares, and J. R. Gold. 2002. Genetic effective size is three orders of magnitude smaller than adult census size in an abundant, estuarine-dependent marine fish (Sciaenops ocellatus). Genetics 162:1329–1339.
  • Vaughan, D. S., K. W. Shertzer, and J. W. Smith. 2007. Gulf Menhaden (Brevoortia patronus) in the U.S. Gulf of Mexico: fishery characteristics and biological reference points for management. Fisheries Research 83:263–275.
  • Vaughan, D. S., J. W. Smith, and M. H. Prager. 2000. Population characteristics of Gulf Menhaden, Brevoortia patronus. NOAA Technical Report NMFS 149.
  • Wang, J., and M. C. Whitlock. 2003. Estimating effective population size and migration rates from genetic samples over space and time. Genetics 163:429–446.
  • Waples, R. S. 1989. A generalized approach for estimating effective population size from temporal changes in allele frequency. Genetics 121:379–391.
  • Waples, R. S. 1998. Separating the wheat from the chaff: patterns of genetic differentiation in high gene flow species. Genetics 89:438–450.
  • Waples, R. S. 2006. A bias correction for estimates of effective population size based on linkage disequilibrium at unlinked gene loci. Conservation Genetics 7:167–184.
  • Waples R. S., and C. Do. 2010. Linkage disequilibrium estimates of contemporary Ne using highly variable genetic markers: a largely untapped resource for applied conservation and evolution. Evolutionary Applications 3:244–262.
  • Waples, R. S., A. E. Punt, and J. M. Cope. 2008. Integrating genetic data into management of marine resources: how can we do it better? Fish and Fisheries 9:423–449.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.