Ontogenesis from embryo to juvenile and salinity tolerance of Japanese devil stinger Inimicus japonicus during early life stage

详细信息    查看全文

• 作者：Youji Wang ; Lisha Li ; Guoqiang Cui ; Weiqun Lu
• 关键词：Inimicus japonicus ; Early development ; Morphological characteristics ; Larvae ; Juvenile ; Salinity tolerance
• 刊名：SpringerPlus
• 出版年：2013
• 出版时间：December 2013
• 年：2013
• 卷：2
• 期：1
• 全文大小：639KB
• 参考文献：Akatsu S, Al-Abdul-Elah KM, Teng SK: Effects of salinity and water temperature on the survival and growth of brown-spotted grouper larvae ( Epinephelus tauvina , Serranidae). J World Maricult Soc 1983, 14:624鈥?35.CrossRef
  Arezo MJ, Pereiro L, Berois N: Early development in the annual fish Cynolebias viarius . J Fish Biol 2005, 66:1357鈥?370.CrossRef
  Ballard WW: Morphogenetic movements and a provisional fate map of development in the Holostean fish Amia cavla . J Exp Zool 1986, 238:355鈥?72.CrossRef
  Bjelland RM, Berit A: Larval development in European hake ( Merluccius merluccius L.) reared in a semi-intensive culture system. Aquacult Res 2006, 37:1117鈥?129.CrossRef
  Boeuf G, Payan P: How should salinity influence fish growth. Comp Biochem Physiol Part C 2001, 130:411鈥?23.
  Celik I, Celik P, Cirik S, Gurkan M, Hayretdag S: Embryonic and larval development of black skirt tetra ( Gymnocorymbus ternetzi , Boulenger, 1895) under laboratory conditions. Aquacult Res 2012, 43:1260鈥?275.CrossRef
  Chen H, Xie YQ, Lin GW, Lin XJ, Chen W, Wang XC: Feeding rhythm and tolerance of starvation during early development stage of devil stinger, Inimicus japonicus . J Fishery Sci Chin 2009, 16:340鈥?47.
  Faulk CK, Holt GJ: Responses of cobia Rachycentron canadum larvae to abrupt or gradual changes in salinity. Aquaculture 2006, 254:275鈥?83.CrossRef
  Furuita H, Tanaka H, Yamamoto T, Shiraishi M, Takeuchi T: Effects of n-3 HUFA levels in broodstock diet on the reproductive performance and egg and larval quality of the Japanese flounder, Paralichthys olivaceus . Aquaculture 2000, 187:387鈥?98.CrossRef
  Hall TE: Pattern formation. In Fish larval physiology. Edited by: Finn RN, Kapoor BG. Science Publishers, Enfield, New Hampshire, USA; 2008:3鈥?5.
  Hall TE, Smith P, Johnston IA: Stages of embryonic development in the Atlantic cod Gadus morhua . J Morphol 2004, 259:255鈥?70.CrossRef
  Hayakawaa Y, Munehara H: Facultatively internal fertilization and anomalous embryonic development of a non-copulatory sculpin Hemilepidotus gilberti Jordan and Starks (Scorpaeniformes: Cottidae). J Exp Mar Biol Ecol 2001, 256:51鈥?8.CrossRef
  Henne JP, Watanabe WO: Effects of light intensity and salinity on growth, survival, and whole-body osmolality of larval southern flounder Paralichthys lethostigma . J World Aquacul Soc 2003, 34:450鈥?65.CrossRef
  Huang YC, Zheng JH, Zhou ZB: Effects of salinity on embryonic development and larval survival in Nibea miichthioides . J Fujian Fish 1997, 1:34鈥?7.
  Imamura H, Yabe M: Osteological development of the lumpfish, Inimicus japonicus (Pisces: Synanceiidae). Ichthyol Res 1997, 45:53鈥?7.CrossRef
  Iwamatsu T: Stages of normal development in the medaka Oryzias latipes . Zool Sci 1994, 11:825鈥?39.
  Jones PW, Martin FD, Hardy JD Jr: Development of fishes of the mid-Atlantic Bight: an atlas of egg, larval, and juvenile stages, vol I: Acipenseridae through Ictaluridae. U.S. Fish and Wildlife Service, Office of Biological Programs. FSW/OBS-78/12. Ft. Collins, CO; 1978.
  Kadomura K, Nakashima T, Kurachi M, Yamaguchi K, Oda T: Production of reactive oxygen species (ROS) by devil stinger ( Inimicus japonicus ) during embryogenesis. Fish Shellfish Immunol 2006, 21:209鈥?14.CrossRef
  Kendall AW, Ahlstrom EH, Moser HG: Early life history stages of fishes and their characters. In Ontogeny and systematics of fishes: American Society of Ichthyologists and Herpetologists, Special Publication No. 1. Edited by: Moser HG, Richards WJ, Cohen DM, Fahay MP, Kendall AW, Richardson SL. Allen Press Inc, Lawrence, Kansas, USA; 1984:11鈥?2.
  Kim D, Naruse S, Kadomura K, Nakashima T, Jiang Z, Yamasaki Y, Yamaguchi K, Oda T: Transitional reactive oxygen species (ROS) production in fertilized egg embryos of devil stinger ( Inimicus japonicus ), a marine fish species. Biosci Biotechnol Biochem 2012, 76:1561鈥?564.CrossRef
  Kimmel CB, Ballard WW, Kimmel SR, Ullman B, Schilling TF: Stages of embryonic development of the zebrafish. Dev Dynam 1995, 203:253鈥?10.CrossRef
  Koumoundouros G, Divanach P, Kentouri M: Osteological development of Dentex dentex (Osteichthyes: Sparidae): dorsal, anal, paired fins and squamation. Mar Biol 2001, 138:399鈥?06.CrossRef
  Li ZL, Yan TM: Morphological development of Triplophysa bleekeri (Sauvage & Dabry de Thiersant, 1874) embryo and larvae. Acta Hydrobiol Sin 2009, 33:636鈥?42.CrossRef
  Lin XJ: Effects of salinity on the embryonic development and larval growth of Inimicus japonicus . J Fujian Fish 2008, 12:24鈥?6.
  Liu ZY, Quan HF: Research on the technique for artificial breeding of Inimicus japonicus . J Shanghai Fish Univ 2005, 14:30鈥?4.
  Martinez GM, Bolker JA: Embryonic and staging of summer flounder ( Paralichthys dentatus ). J Morphol 2003, 255:162鈥?76.CrossRef
  Matsuo Y, Kasahara Y, Hagiwara A, Sakakura Y, Arakawa T: Evaluation of larval quality of viviparous scorpionfish Sebastiscus marmoratus . Fisheries Sci 2006, 72:948鈥?54.CrossRef
  Meijide FJ, Guerrero GA: Embryonic and larval development of a substrate
  ooding cichlid Cichlasoma dimerus (Heckel, 1840) under laboratory conditions. J Zool 2000, 252:481鈥?93.CrossRef
  Moustakas CT, Watanabe WO, Copeland KA: Combined effects of photoperiod and salinity on growth, survival, and osmoregulatory ability of larval southern flounder Paralichthys lethostigma . Aquaculture 2004, 229:159鈥?79.CrossRef
  Nakatsuji T, Kitano T, Akiyama N, Nakatsuji N: Ice goby (Shiro-uo), Leucopsarion petersii , may be a useful material for studying teleostean embryogenesis. Zool Sci 1997, 14:443鈥?48.CrossRef
  Nozaki R, Takushima M, Mizuno K, Kadomura K, Yasumoto S, Soyano K: Reproductive cycle of devil stinger, Inimicus japonicas . Fish Physiol Biochem 2003, 28:217鈥?18.CrossRef
  Ruttanapornvareesakul Y, Sakakura Y, Hagiwara A: Effect of tank proportions on survival of seven-band grouper Epinephelus septemfasciatus (Thunberg) and devil stinger Inimicus japonicus (Cuvier) larvae. Aquacult Res 2007, 38:193鈥?00.CrossRef
  Saillant E, Chatain B, Fostier A, Przybyla C, Fauvel C: Parental influence on early development in the European sea bass. J Fish Biol 2001, 58:1585鈥?600.CrossRef
  Sampaio LA, Freitas LS, Okamoto MH, Louzada LR, Rodrigues RV, Robaldo RB: Effects of salinity on Brazilian flounder Paralichthys orbignyanus from fertilization to juvenile settlement. Aquaculture 2007, 262:340鈥?46.CrossRef
  Santerre MT: Effects of temperature and salinity on the eggs and early larvae of Caranx mate (Pisces: Carangidae) in Hawaii. J Exp Mar Biol Ecol 1976, 21:51鈥?8.CrossRef
  Swanson C: Early development of milkfish: effects of salinity on embryonic and larval metabolism, yolk absorption and growth. J Fish Biol 1996, 48:405鈥?21.CrossRef
  Takeshita N, Onikura N, Matsui S, Kimura S: Embryonic, larval and juvenile development of the roughskin sculpin, Trachidermus jasciatus (Scorpaeniformes: Cottidae). Ichthyol Res 1997, 44:257鈥?66.CrossRef
  Takushima M, Nozaki R, Kadomura K, Yasumoto S, Soyano K: Induced ovulation using LHRHa and artificial fertilization in devil stinger, Inimicus japonicas. Fish Physiol Biochem 2003, 28:521鈥?22.CrossRef
  Tandler A, Anav FA, Choshniak I: The effect of salinity on growth rate, survival and swimbladder inflation in gilthead seabream, Sparus aurata , larvae. Aquaculture 1995, 135:343鈥?53.CrossRef
  Wang HS: Effects of salinity on egg development and growth, larval and juvenile survival rate of Pagrosomus major . J Fish Sci China 2002, 9:33鈥?7.
  Wang JQ, Pan LD, Liang TH, Gan HC: Preliminary study on embryonic development of the roughskin sculpin, Trachidermus fasciatus (Scorpaeniformes: Cottidae). J Fudan Univ (Nat Sci) 2004, 43:250鈥?56.
  Wang QR, Ni YY, Lin LM, Wang ZY: Development of the vertebral column and the pectoral and caudal fins in larvae of the larvae yellow croaker Larimichthys crocea (Richardson). Acta Hydrobiol Sin 2010, 34:467鈥?72.CrossRef
  WatanabeWO KCM, Huang MC: The ontogeny of salinity tolerance in the tilapias Oreochromis aureus , O. niloticus , and an O. mossambicus 脳 O. niloticus hybrid, spawned and reared in freshwater. Aquaculture 1985, 47:353鈥?67.CrossRef
  Yanes-Roca C, Rhody NR, Nystrom M, Wittenrich ML, Main KL: Embryonic and early larval development in hatchery-reared common snook. N Am J Aquacult 2012, 74:499鈥?11.CrossRef
  
• 作者单位：Youji Wang (5)
  Lisha Li (5)
  Guoqiang Cui (5)
  Weiqun Lu (5)
  
  5. Key Laboratory of Exploration and Utilization of Aquatic Genetic Resources, Ministry of Education, College of Fisheries and Life Science, Shanghai Ocean University, 999 Huchenghuan Road, Shanghai, 201306, China
  
• 刊物类别：Science, general;
• 刊物主题：Science, general;
• 出版者：Springer International Publishing
• ISSN：2193-1801

文摘

Embryonic development and morphological characteristics of Japanese devil stinger Inimicus japonicus during early life stage were investigated. Larvae were hatched out 50 h after fertilization at temperature 21掳C. Total length of the newly hatched larva was 4.03 mm, the mouth of the larva opened at 3 days after hatching (DAH), and the yolk sac of the larva disappeared at 5 DAH. After hatching, the pectoral fin first developed, then the tail fin, dorsal fin, anal fin and pelvic fin continuously developed, and all fins formed completely at 15 DAH. The metamorphosis was complete at 25 DAH, and the body color and habit of the metamorphosed individuals were different from the larvae. At 30 DAH, the morphology and habit of the juveniles were the same to adults. In order to determine the suitable salinity for larviculture of I. japonicus, salinity tolerance at different early developmental stages was compared in terms of the survival activity index (SAI) and mean survival time (MST). The results indicated that salinity tolerance varied with development stages. The optimum salinity range for newly hatched larvae was 10鈥?5鈥? Larvae showed low tolerance to low salinity (5鈥? before the mouth opened, and the suitable salinities for the larvae with open mouth, yolk-sac larvae, post yolk-sac larvae were 10鈥?5鈥? The flexion larvae showed a wider salinity tolerance with range of 5鈥?0鈥? After metamorphosis, the juveniles showed a preferable adaptability of salinities of 15鈥?0鈥? The SAI and MST of individuals at various stages under different salinity conditions were positively correlated. Keywords Inimicus japonicus Early development Morphological characteristics Larvae Juvenile Salinity tolerance