World Aquaculture Magazine - June 2020

60 JUNE 2020 • WORLD AQUACULTURE • WWW.WA S.ORG Research Grants Program no.2018-33522-28745 from the USDA National Institute of Food and Agriculture. J. Adam Luckenbach, Environmental and Fisheries Sciences Division, Northwest Fisheries Science Center, National Marine Fisheries Service, National Oceanic and Atmospheric Administration, Seattle, WA 98112, USA. E-mail: adam. luckenbach@noaa.gov . Support from the NOAA Internal Competitive Aquaculture Funds (ICAF) Program and Maryland Sea Grant is acknowledged. Sergey Nuzhdin, Section of Evolution and Ecology, University of California at Davis, Davis, CA 95616, USA. Email: snuzhdin@usc. edu Randall T. Peterson, College of Pharmacy, University of Utah, Salt Lake City, UT 84112, USA. Email: randall.peterson@pharm.utah . edu David L. Straus, USDA/ARS Stuttgart National Aquaculture Research Center, Stuttgart, AR 72160, USA. Email: dave.straus@ usda.gov Anna Wargelius, Department of Reproduction and Development Biology, Institute of Marine Research, Bergen, Norway. Email: anna.wargelius@hi.no Gregory Weber, USDA-Agricultural Research Service, National Center for Cool and Cold Water Aquaculture, 11861 Leetown Road, Kearneysville, WV 25430, USA. Email: greg.weber@usda. gov Ten-Tsao Wong, Department of Marine Biotechnology and Institute of Marine and Environmental Technology, University of Maryland Baltimore County, Baltimore, MD 21202, USA. Email: twong@ umbc.edu References Benfey, T.J. 1990. The physiology and behavior of triploid fishes. Reviews in Fisheries Science 7:39-67. Benfey, T.J. 2016. Effectiveness of triploidy as a management tool for reproductive containment of farmed fish: Atlantic salmon ( Salmo salar ) as a case study. Reviews in Aquaculture 8:264-282. Benfey, T.J. and R.H. Devlin. 2018. Ploidy has minimal effect on hypoxia tolerance at high temperature in rainbow trout ( Oncorhynchus mykiss ). Physiological and Biochemical Zoology 91:1091-1101. Blanc, J.M., H. Poisson, A.M. Escaffre, P. Aguirre and F. Valle’e. 1993. Inheritance of fertilizing ability in male tetraploid rainbow trout ( Oncorhynchus mykiss ). Aquaculture 110:61-70. Fraser, T.W., M.S. Fleming, T.T. Poppe, T. Hansen and P.G. Fjelldal. 2014. The effect of ploidy and incubation temperature on survival and the prevalence of aplasia of the septum transversum in Atlantic salmon, Salmo salar L. Journal of Fish Diseases 37(3):189-200. Guo, X., G. DeBrosse and S.K. Allen, Jr. 1996. All-triploid Pacific oysters ( Crassostrea gigas Thunberg) produced by mating tetraploids and diploids. Aquaculture 142:149-161. Guo, X., and S.K. Allen, Jr. 1994a. Viable tetraploid Pacific oyster ( Crassostrea gigas Thunberg) produced by inhibiting polar body I in eggs from triploids. Molecular Marine Biology and Biotechnology 3(1):42-50. Guo, X., and S.K. Allen, Jr. 1994b. Reproductive potential and genetics of triploid Pacific oyster, Crassostrea gigas (Thunberg). Biological Bulletin 187:309-318. Guo, X., Y. Wang, Z. Xu and H. Yang. 2009. Chromosome set manipulation in shellfish. Pages 165-195 in: New Technologies in Aquaculture: Improving Production Efficiency, Quality and Environmental Management, G. Burnell and G. Allan (eds). Woodhead Publishing. Gurbatow, J.M. 2020. Effect of host age and PKH26 dye concentration on stem cell viability, colonization rate, and offspring performance for production of xenogenic catfish. M.S. Thesis. Auburn University, AL. Huynh, T.B., W.T. Fairgrieve, E.S. Hayman, J.S.F. Lee and J.A. Luckenbach. 2019. Inhibition of ovarian development and instances of sex reversal in genotypic female sablefish ( Anoplopoma fimbria ) exposed to elevated water temperature. General and Comparative Endocrinology 279:88-98. Jin, Y.N., P.J. Schlueter, N. Jurisch-Yaksi, P.-Y. Lam, S. Jin, W.Y. Hwang, J.J. Yeh, M. Yoshigi, S.-E. Ong, M. Schenone, C.R. Hartigan, S.A. Carr and R.T. Peterson. 2018. Noncanonical translation via deadenylated 3’ UTRs maintains primordial germ cells. Nature Chemical Biology 14(9):844-852. Kleppe, L., E. Andersson, K.O. Skaftnesmo, R.B. Edvardsen, P.G. Fjelldal, B. Norberg, J. Bogerd, R.W. Schulz and A. Wargelius. 2017a. Sex steroid production associated with puberty is absent in germ cell-free salmon. Scientific Reports 7(1):12584. Kleppe, L., R.B. Edvardsen, T. Furmanek, E. Andersson, A. Juanchich and A. Wargelius. 2017b. bmp15l , figla , smc1bl , and larp6l are preferentially expressed in germ cells in Atlantic salmon ( Salmo salar L.). Molecular Reproduction and Development 84(1):76-87. Kleppe, L., R.B. Edvardsen, T. Furmanek, E. Andersson, K.O. Skaftnesmo, F. Thyri Segafredo and A. Wargelius. 2020. Transcriptomic analysis of dead end knockout testis reveals germ cell and gonadal somatic factors in Atlantic salmon. BMC Genomics 21(1):99. Kleppe, L., A. Wargelius, H. Johnsen, E. Andersson and R.B. Edvardsen. 2015. Gonad specific genes in Atlantic salmon ( Salmon salar L.): characterization of tdrd7-2 , dazl-2 , piwil1 and tdrd1 genes. Gene 560(2):217-225. Leclercq, E., J.F. Taylor, D. Fison, P.G. Fjelldal, M. Diez-Padrisa, T. Hansen and H. Migaud 2011. Comparative seawater performance and deformity prevalence in out-of-season diploid and triploid Atlantic salmon ( Salmo salar ) post-smolts. Comparative Biochemistry and Physiology Part A: Molecular & Integrative Physiology 158(1):116-125. Li, H., B. Su, G. Qin, Z. Ye, A. Alsaqufi, D.A. Perera, M. Shang, R. Odin, K. Vo, D. Drescher, D. Robinson, D. Zhang, N. Abass and R.A. Dunham. 2017. Salt sensitive Tet-off-like systems to knockdown primordial germ cell genes for repressible transgenic sterilization in channel catfish, Ictalurus punctatus . Marine Drugs 15:155-178. Li, H., B. Su, G. Qin, Z. Ye, A. Elaswad, A. Alsaqufi, D.A. Perera, Z. Qin, R. Odin, K. Vo, D. Drescher, D. Robinson, S. Dong, D. Zhang, M. Shang, N. Abass, S.K. Das, M. Bangs and R.A. Dunham. 2018. Repressible transgenic sterilization in channel catfish, Ictalurus punctatus , by knockdown of primordial germ cell genes with copper sensitive constructs. Marine Biotechnology 20(3):324-342. Luckenbach, J.A., and W.T. Fairgrieve. 2016. Gonadal sex