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| 虾蟹蜕皮周期分期鉴定技术研究进展 |
| 侯懿玲1, 程文志2,3, 魏祎铭1, 邓小杰1, 陈传曦1, 毛勇1 |
1.厦门大学 海洋与地球学院,近海海洋环境科学国家重点实验室,福建 厦门 361104;
2.厦门大学 信息学院,福建 厦门 361005;
3.福建台湾海峡海洋生态系统国家野外科学观测研究站,福建 漳州 363400 |
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| Research Progress on Staging and Identification Technology of Molting Cycle in Shrimp and Crab: a Review |
| HOU Yiling1, CHENG Wenzhi2,3, WEI Yiming1, DENG Xiaojie1, CHEN Chuanxi1, MAO Yong1 |
1. State Key Laboratory of Marine Environmental Science, College of Ocean and Earth Sciences, Xiamen University, Xiamen 361104, China;
2. School of Informatics, Xiamen University, Xiamen 361005, China;
3. National Observation and Research Station for the Taiwan Strait Marine Ecosystem, Zhangzhou 363400, China |
| 引用本文: |
侯懿玲, 程文志, 魏祎铭, 邓小杰, 陈传曦, 毛勇. 虾蟹蜕皮周期分期鉴定技术研究进展[J]. 水产科学, 2024, 43(2): 319-332.
HOU Yiling, CHENG Wenzhi, WEI Yiming, DENG Xiaojie, CHEN Chuanxi, MAO Yong. Research Progress on Staging and Identification Technology of Molting Cycle in Shrimp and Crab: a Review. 水产科学, 2024, 43(2): 319-332.
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| 链接本文: |
| http://www.shchkx.com/CN/10.16378/j.cnki.1003-1111.22058 或 http://www.shchkx.com/CN/Y2024/V43/I2/319 |
[1] 蒲红双,高祥刚,侯红漫,等.甲壳动物蜕皮相关基因的研究进展[J].水产科学,2015,34(6):391-398.
[2] 郑征帆,吕艳杰,宁黔冀.甲壳动物表皮几丁质结合蛋白结构与功能研究进展[J].水产科学,2017,36(4):538-542.
[3] 杨成聪,戴振炎,王爱民,等.甲壳类水产动物蜕壳研究进展[J].盐城工学院学报(自然科学版),2019,32(4):42-46.
[4] CHANG E S, MYKLES D L. Regulation of crustacean molting:a review and our perspectives[J]. General and Comparative Endocrinology,2011,172(3):323-330.
[5] 杨航,杨志刚,张龙,等.十足目甲壳动物蜕壳研究进展[J].基因组学与应用生物学,2020,39(4):1601-1606.
[6] MUGNIER C, JUSTOU C. Combined effect of external ammonia and molt stage on the blue shrimp Litopenaeus stylirostris physiological response[J]. Journal of Experimental Marine Biology and Ecology,2004,309(1):35-46.
[7] DRACH P.Mue et cycle d′intermue chez les Crustacés Décapodes[J]. Annales de L′Institut Océanographique, 1939,19:103-391.
[8] DRACH P, TCHERNIGOVTZEFF C. Sur laméthode de détermination des stades d′intermue et son application générale aux crustacés[J]. Vie et milieu, 1967: 595-610.
[9] GUYSELMAN J B. An analysis of the molting process in the fiddler crab, Uca pugilator[J]. The Biological Bulletin,1953,104(2):115-137.
[10] 严生良,俞泰济.中华绒螯蟹蜕壳(Ecdysis)的初步观察[J].淡水渔业,1990,20(6):8-10.
[11] KAMIO M, OSADA H, YANO H. Morphological and behavioral indicators of reproductive premolt females of the helmet crab Telmessus cheiragonus[J]. Fisheries Science,2021,87(3):331-337.
[12] TREVISAN M, LEROY D, DECLOUX N, et al. Moult-related changes in the integument, midgut, and digestive gland in the freshwater amphipod Gammarus pulex[J]. Journal of Crustacean Biology,2014,34(5):539-551.
[13] MUSGROVE R J B. Molt staging in the southern rock lobster Jasus edwardsii[J]. Journal of Crustacean Biology,2000,20(1):44-53.
[14] AIKEN D E. Proecdysis, setal development, and molt prediction in the American lobster (Homarus americanus)[J]. Journal of the Fisheries Research Board of Canada,1973,30(9):1337-1344.
[15] O′HALLORAN M J, O′DOR R K. Molt cycle of male snow crabs, Chionoecetes opilio, from observations of external features, setal changes, and feeding behavior[J]. Journal of Crustacean Biology,1988,8(2):164-176.
[16] PEEBLES J B. A rapid technique for molt staging in live Macrobrachium rosenbergii[J]. Aquaculture,1977,12(2):173-180.
[17] 李志华,卢德胤,刘兆强,等.中华绒螯蟹在“蟹龙宫”饲养环境中的个体蜕壳与生长[J].上海海洋大学学报,2019,28(4):511-518.
[18] 卢少坤,李荣华,施欧文,等.基于图像识别技术研究不同海区三疣梭子蟹甲壳白色斑纹特征及蜕壳前后斑纹特征的变化[J].水产学报,2018,42(2):257-266.
[19] CHANG E S. Physiological and biochemical changes during the molt cycle in decapod crustaceans:an overview[J]. Journal of Experimental Marine Biology and Ecology,1995,193(1/2):1-14.
[20] KAWAI T, HAMANO T, MATSUURA S. Molting season and reproductive cycle of the Japanese crayfish, Cambaroides japonicus in a stream and a small lake in Hokkaido[J]. Aquaculture Science, 1994, 42(3): 465-470.
[21] FREEMAN J A, KILGUS G, LAURENDEAU D, et al. Postmolt and intermolt molt cycle stages of Callinectes sapidus[J]. Aquaculture,1987,61(3/4):201-209.
[22] 张列士,陆锦天.中华绒螯蟹(Eriocheir sinensis)蜕壳和生长的研究进展[J].水产科技情报,2001,28(6):246-250.
[23] ALVAREZ J, VÉLIZ C, MERUANE J. Estados del ciclo de muda de la jaiba nadadora Ovalipes trimaculatus (de haan,1833) basados en observaciones de la morfología externa[J]. Revista De Biología Marina y Oceanografía,2009,44(1):217-225.
[24] 杨航,杨志刚,张龙.蜕壳周期内中华绒螯蟹钙含量、组织结构及相关基因表达变化[J].水产科学,2022,41(1):116-121.
[25] 黄姝,陈娇,陈晓雯,等.中华绒螯蟹蜕壳周期内蜕皮激素和蜕壳相关基因的表达动态分析[J].农业生物技术学报,2018,26(1):150-158.
[26] PRIESTER C, DILLAMAN R M, GAY D M. Ultrastructure, histochemistry, and mineralization patterns in the ecdysial suture of the blue crab, Callinectes sapidus[J]. Microscopy and Microanalysis,2005,11(6):479-499.
[27] 许杨.脊尾白虾生长蜕皮和生殖蜕皮的初步比较研究[D].上海:上海海洋大学,2017.
[28] 沈洁,朱冬发,胡则辉,等.三疣梭子蟹蜕皮周期的分期[J].水产学报,2011,35(10):1481-1487.
[29] CORTEEL M, DANTAS-LIMA J J, WILLE M, et al. Moult cycle of laboratory-raised Penaeus (Litopenaeus) vannamei and P. monodon[J]. Aquaculture International,2012,20(1):13-18.
[30] KUO C, LIN W W. Changes in morphological characteristics and ecdysteroids during the molting cycle of tiger shrimp, Penaeus monodon fabricus[J]. Zoological Studies, 1996, 35(2):118-127.
[31] GARDNER C, MILLS D J. Determination of moulting events in rock lobsters from pleopod clipping[J]. PLoS One,2013,8(8):e74146.
[32] LONGMUIR E. Setal development, moult-staging and ecdysis in the banana prawn Penaeus merguiensis[J]. Marine Biology,1983,77(2):183-190.
[33] PARAY B. Variation in the biochemical constituents during different moulting stages in green tiger shrimp, Peneaus semisulcatus[J]. Annual Research & Review in Biology,2014,4(6):985-997.
[34] TIAN Z H, KANG X J, MU S M. The molt stages and the hepatopancreas contents of lipids, glycogen and selected inorganic elements during the molt cycle of the Chinese mitten crab Eriocheir sinensis[J]. Fisheries Science,2012,78(1):67-74.
[35] PROMWIKORN W, KIRIRAT P. Index of molt staging in the black tiger shrimp (Penaeus monodon) [J]. Songklanakarin Journal of Science and Technology, 2004,26(5):765-772.
[36] CHAN S M, RANKIN S M, KEELEY L L. Characterization of the molt stages in Penaeus vannamei:setogenesis and hemolymph levels of total protein, ecdysteroids, and glucose[J]. The Biological Bulletin,1988,175(2):185-192.
[37] BURTON E M, MITCHELL B D. Moult staging in the Australian freshwater crayfish, Cherax albidus Clark and Cherax destructor Clark (Decapoda:Parastacidae), via uropod setal development[J]. Marine and Freshwater Research,1987,38(4):545-552.
[38] 都威,姜秀凤.中国对虾蜕皮与附肢刚毛发生关系的研究[J].中国水产科学,1997,4(3):30-32.
[39] VIGH D A, FINGERMAN M. Molt staging in the fiddler crab Uca pugilator[J]. Journal of Crustacean Biology,1985,5(3):386-396.
[40] BUCHHOLZ F. Drach′s molt staging system adapted for euphausiids[J]. Marine Biology,1982,66(3): 301-305.
[41] 徐宾朋.拟穴青蟹蜕皮周期中离子转运相关基因的研究[D].杭州:浙江大学,2016.
[42] 康现江, 田志环, 吴江立, 等.中华绒螯蟹蜕皮周期及蜕皮过程中肝胰腺消化酶活性的变化[J].中国水产科学,2012,19(5):806-812.
[43] MILLER T W, HANKIN D G. Descriptions and durations of premolt setal stages in female Dungeness crabs, Cancer magister[J]. Marine Biology,2004,144(1):101-110.
[44] BENHALIMA K, MORIYASU M, HÉBERT M. A technique for identifying the early-premolt stage in the male snow crab Chionoecetes opilio (Brachyura:Majidae) in Baie des Chaleurs, southern Gulf of St. Lawrence[J]. Canadian Journal of Zoology,1998,76(4):609-617.
[45] 王战芳.中华锯齿米虾繁殖及蜕皮特征的研究[D].保定:河北大学,2014.
[46] MORIYASU M, MALLET P. Molt stages of the snow crab Chionoecetes opilio by observation of morphogenesis of setae on the maxilla[J]. Journal of Crustacean Biology,1986,6(4):709-718.
[47] GUERAO G, ROTLLANT G, ANGER K. Characterization of larval moulting cycles in Maja brachydactyla (Brachyura, Majidae) reared in the laboratory[J]. Aquaculture,2010,302(1/2):106-111.
[48] LYLE W G, MACDONALD C D. Molt stage determination in the Hawaiian spiny lobster Panulirus marginatus[J]. Journal of Crustacean Biology,1983,3(2):208-216.
[49] TURNBULL C T. Pleopod cuticular morphology as an index of moult stage in the ornate rock lobster, Panulirus ornatus (Fabricius 1789)[J]. Marine and Freshwater Research,1989,40(3):285-293.
[50] RADHAKRISHNAN E. Physiological and biochemical studies on the spiny lobster Panulirus homarus[D]. Chennai, India:University of Madras, 1989.
[51] GROENEVELD, BRANCH. Development of a pleopod index to assess the moulting season of rock lobster, Palinurus gilchristi (Decapoda, Palinuridae) off South Africa[J]. Crustaceana,2001,74(10):1083-1100.
[52] MARCO H G. The moult cycle of Jasus lalandii (H. Milne Edwards,1837) (Decapoda,Palinuridae), a cold water spiny lobster species:changes in ecdysteroid titre and setogenesis[J]. Crustaceana,2012,85(10):1221-1239.
[53] MILLS B J, LAKE P S. Setal development and moult staging in the crayfish Parastacoides tasmanicus (Erichson), (Decapoda Parastacidae)[J]. Marine and Freshwater Research,1975,26(1):103.
[54] ROBERTSON L, BRAY W, LEUNG-TRUJILLO J, et al. Practical molt staging of Penaeus setiferus and Penaeus stylirostris[J]. Journal of the World Aquaculture Society,1987,18(3):180-185.
[55] VIJAYAN K, MOHAMED K S, DIWAN A D. Studies on moult staging, moulting duration and moulting behaviour in Indian white shrimp Penaeus indicus Milne Edwards (Decapoda:Penaeidae) [J]. Journal of Aquaculture in Tropics,1997,12(1):53-64.
[56] HUNTER D A, UGLOW R F. Setal development and moult staging in the shrimp Crangon crangon (L. ) (Crustacea:Decapoda:Crangonidae)[J]. Ophelia,1998,49(3):195-209.
[57] HAYD L A, ANGER K, VALENTI W. The moulting cycle of larval Amazon River prawn Macrobrachium amazonicum reared in the laboratory[J]. Nauplius,2008,16(2):55-63.
[58] DA SILVA M A S, DE OLIVEIRA RAMIRO B, DE ALMEIDA NETO M E, et al. Moulting cycle stages in Macrobrachium rosenbergii by setogenesis method[J]. Boletim Do Instituto De Pesca,2019,45(2):e428.
[59] ALHAJEE S, SULTAN E, ALNOOR S. Identification of the primary and secondary moulting stages in the shrimp Metapenaeus affinis (h. milne-edwards,1837) by the recognize changes in the uropod[J]. Plant Archives, 2019, 19(2):1671-1676.
[60] FOGUESATTO K, NERY L E M, SOUZA M M. Setogenesis and characterization of the new moult substages in the freshwater shrimp Palaemon argentinus (Nobili,1901) (Caridea:Palaemonidae)[J]. Nauplius,2019,27:e2019013.
[61] CORNET S, LUQUET G, BOLLACHE L. Influence of female moulting status on pairing decisions and size-assortative mating in amphipods[J]. Journal of Zoology,2012,286(4):312-319.
[62] REAKA M L. Molting in stomatopod crustaceans. I. Stages of the molt cycle, setagenesis, and morphology[J]. Journal of Morphology,1975,146(1):55-80.
[63] 田志环,康现江,焦传珍.中华绒螯蟹蜕皮过程中体壁结构和主要成分的变化[J].水生生物学报,2013,37(5):899-904.
[64] VATCHER H E, ROER R D, DILLAMAN R M. Structure, molting, and mineralization of the dorsal ossicle complex in the gastric mill of the blue crab, Callinectes sapidus[J]. Journal of Morphology,2015,276(11):1358-1367.
[65] MARLOWE R L, DILLAMAN R M. Acridine orange staining of decapod crustacean cuticle[J]. Invertebrate Biology,1995,114(1):79-82.
[66] PROMWIKORN W, BOONYOUNG P, KIRIRAT P. Histological characterization of cuticular depositions throughout the molting cycle of the black tiger shrimp (Penaeus monodon)[J]. Songklanakarin Journal of Science and Technology,2005,27(3):765-772.
[67] PRATOOMCHAT B, SAWANGWONG P, GUEDES R, et al. Cuticle ultrastructure changes in the crab Scylla serrata over the molt cycle[J]. Journal of Experimental Zoology,2002,293(4):414-426.
[68] 杜娟,张俊芳,郑征帆,等.日本沼虾蜕皮过程中头胸甲外骨骼超微结构的改变[J].中国水产科学,2018,25(2):301-307.
[69] GABE M. Quelques acquisitions récentes sur les glandes endocrines des Arthropodes[J]. Experientia,1953,9(9):352-356.
[70] 姚俊杰,赵云龙.甲壳动物蜕皮的调节机制研究进展[J].水利渔业,2006,27(6):8-10.
[71] 崔晓雨,朱冬发,汤洁,等.三疣梭子蟹EcR基因的克隆及表达分析[J].水产学报,2013,37(11):1645-1654.
[72] 朱小明,李少菁.甲壳动物幼体蜕皮的调控[J].水产学报,2001,25(4):379-384.
[73] HOPKINS P M. Hormonal control of the molt cycle in the fiddler crab Uca pugilator[J]. American Zoologist,1992,32(3):450-458.
[74] 汪春建,朱冬发,亓一舟,等.三疣梭子蟹蜕皮周期中MIH基因mRNA水平与蜕皮激素浓度变化[J].水生生物学报,2013,37(1):22-28.
[75] 裴思慧,落继先,邹恩民,等.摘除眼柄对河南华溪蟹蜕皮激素与几丁质酶含量和β-NAGase活性的影响[J].水产学报,2014,38(5):677-683.
[76] 焦满静.中华绒螯蟹蜕皮机制与影响因素的研究[D].保定:河北大学,2013.
[77] NAKATSUJI T, KEINO H, TAMURA K, et al. Changes in the amounts of the molt-inhibiting hormone in sinus glands during the molt cycle of the American crayfish, Procambarus clarkii[J]. Zoological Science,2000,17(8):1129-1136.
[78] 罗荣生,王幽兰,曹梅讯,等.中华绒螯蟹血淋巴20-羟蜕皮酮诱发蜕皮和卵巢发育的作用[J].动物学报,1990,36(2):157-164.
[79] O′CONNOR J D. Radioimmunoassay and the characterization of crustacean ecdysteroids[J]. American Zoologist,1985,25(1):173-178.
[80] FAADILA M I N, HARIVAINDARAN K V, TAJUL A. Biochemical and texture property changes during molting process of tiger prawn, Penaeus monodon[J]. International Food Research Journal, 2013, 20(2):751-758.
[81] LANDMAN M J, FITZGIBBON Q P, WIRTZ A, et al. Physiological status and nutritional condition of cultured juvenile Thenus australiensis over the moult cycle[J]. Comparative Biochemistry and Physiology Part B:Biochemistry and Molecular Biology,2020,250:110504.
[82] BERRY S E, SIMON C J, FOOTE A R, et al. Evaluation of baseline haemolymph biochemistry, volume and total body energetics to determine an accurate condition index in the black tiger shrimp, Penaeus monodon[J]. Comparative Biochemistry and Physiology Part B:Biochemistry and Molecular Biology,2019,228:1-9.
[83] LORENZON S, MARTINIS M, FERRERO E A. Ecological relevance of hemolymph total protein concentration in seven unrelated crustacean species from different habitats measured predictively by a density-salinity refractometer[J]. Journal of Marine Biology,2011,2011:1-7.
[84] LIU L, FU Y Y, XIAO L C, et al. iTRAQ-based quantitative proteomic analysis of the hepatopancreas in Scylla paramamosain during the molting cycle[J]. Comparative Biochemistry and Physiology Part D:Genomics and Proteomics,2021,40:100870.
[85] CASTEJÓN D, ALBA-TERCEDOR J, ROTLLANT G, et al. Micro-computed tomography and histology to explore internal morphology in decapod larvae[J]. Scientific Reports,2018,8:14399.
[86] WHEATLY M G. An overview of calcium balance in crustaceans[J]. Physiological Zoology,1996,69(2):351-382.
[87] BELL D, BURY N, WOOLNOUGH L, et al. Use of X-ray micro-computed tomography to study the moult cycle of the freshwater amphipod Gammarus pulex[J]. Zoology,2020,143:125833.
[88] PAVEY C R, FIELDER D R. Use of gastrolith development in moult staging the freshwater crayfish Cherax cuspidatus Riek,1969[J]. Crustaceana,1990,59(1):101-105.
[89] SCALICI M, GIBERTINI G. Molt and gastroliths in Austropotamobius pallipes(lereboullet,1858)[J]. Knowledge and Management of Aquatic Ecosystems,2009(394/395):14.
[90] WILDER M N, JASMANI S, JAYASANKAR V, et al. Hemolymph osmolality, ion concentrations and calcium in the structural organization of the cuticle of the giant freshwater prawn Macrobrachium rosenbergii:changes with the molt cycle[J]. Aquaculture,2009,292(1/2):104-110.
[91] LI C H, CHENG S Y. Variation of calcium levels in the tissues and hemolymph of Litopenaeus vannamei at various molting stages and salinities[J]. Journal of Crustacean Biology,2012,32(1):101-108.
[92] SHECHTER A, TOM M, YUDKOVSKI Y, et al. Search for hepatopancreatic ecdysteroid-responsive genes during the crayfish molt cycle:from a single gene to multigenicity[J]. Journal of Experimental Biology,2007,210(20):3525-3537.
[93] ABEHSERA S, GLAZER L, TYNYAKOV J, et al. Binary gene expression patterning of the molt cycle:the case of chitin metabolism[J]. PLoS One,2015,10(4):e0122602.
[94] NAGABHUSHANAM R, VASANTHA N. Moulting and colour changes in the prawn, Caridina weberi[J]. Hydrobiologia,1971,38(1):39-47.
[95] GAO Y, ZHANG X J, WEI J K, et al. Whole transcriptome analysis provides insights into molecular mechanisms for molting in Litopenaeus vannamei[J]. PLoS One,2015,10(12):e0144350.
[96] NICOL S, STOLP M. A refinement of the moult-staging technique for Antarctic krill (Euphasia superba)[J]. Marine Biology,1990,104(1):169-173.
[97] DILLAMAN R, HEQUEMBOURG S, GAY M. Early pattern of calcification in the dorsal carapace of the blue crab, Callinectes sapidus[J]. Journal of Morphology,2005,263(3):356-374.
[98] CALHOUN S, ZOU E M. Epidermal carbonic anhydrase activity and exoskeletal metal content during the molting cycle of the blue crab, Callinectes sapidus[J]. Journal of Experimental Zoology Part A:Ecological Genetics and Physiology,2016,325(3):200-208.
[99] DE OLIVEIRA CESAR J R, ZHAO B P, MALECHA S, et al. Morphological and biochemical changes in the muscle of the marine shrimp Litopenaeus vannamei during the molt cycle[J]. Aquaculture,2006,261(2):688-694.
[100] HUMPHREYS C R, STEVENSON J R. Changes in epidermal DNA, protein and protein synthesis during the molt cycle of the crayfish Orconectes sanborni (Faxon)[J]. Comparative Biochemistry and Physiology Part A:Physiology,1973,44(4):1121-1128.
[101] BURSEY C R, LANE C E. Ionic and protein concentration changes during the molt cycle of Penaeus duorarum[J].Comparative Biochemistry and Physiology Part A:Physiology,1971,40(1):155-162.
[102] GALINDO C, GAXIOLA G, CUZON G, et al. Physiological and biochemical variations during the molt cycle in juvenile Litopenaeus vannamei under laboratory conditions[J]. Journal of Crustacean Biology,2009,29(4):544-549.
[103] CHISAKA H, KOZAWA Y. Fine structure and mineralization of the gastric mill in the crayfish Procambarus clarkii during intermolt stage[J]. Journal of Crustacean Biology,2003,23(2):371-379.
[104] SHECHTER A, BERMAN A, SINGER A, et al. Reciprocal changes in calcification of the gastrolith and cuticle during the molt cycle of the red claw crayfish Cherax quadricarinatus[J]. The Biological Bulletin,2008,214(2):122-134.
[105] STEVENSON J R. Changing activities of the crustacean epidermis during the molting cycle[J]. American Zoologist,1972,12(2):373-379.
[106] VAN HERP F, BELLON-HUMBERT C. Setal development and molt prediction in the larvae and adults of the crayfish,Astacus leptodactylus (Nordmann,1842)[J]. Aquaculture,1978,14(4):289-301.
[107] HANKIN D. A new method to estimate duration of molt stages in crustaceans[C] // Crabs in Cold Water Regions: Biology, Management, and Economics. Lowell Wakefield Fisheries Symposium Series, AK-SG-02-01. Fairbanks: Alaska Sea Grant Press, 2002: 351-365.
[108] LEMOS D, WEISSMAN D. Moulting in the grow-out of farmed shrimp:a review[J]. Reviews in Aquaculture,2021,13(1):5-17.
[109] AQUACOP. Penaeid reared brood stock:closing the cycle of P. monodon, P. stylirostris and P. vannamei [J]. Proceedings of the World Mariculture Society,1979,10(1/2/3/4):445-452.
[110] BROWDY C L, SAMOCHA T M. The effect of eyestalk ablation on spawning, molting and mating of Penaeus semisulcatus de Haan[J]. Aquaculture,1985,49(1):19-29. |
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2024, Vol. 43 
