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热带海洋学报 >

2014 , Vol. 33 >Issue 2: 87 - 93

DOI: https://doi.org/10.11978/j.issn.1009-5470.2014.02.012

海洋生物学

砗磲研究现状及在我国南海开展养殖的前景

  • 周勤 ,
  • 王玉芬 ,
  • 姜秀凤
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  • 中国水产科学研究院北戴河中心实验站, 河北 北戴河 066100
周勤(1963~), 男, 四川省乐山市人, 副研究员, 学士, 主要从事海水鱼类遗传育种方面的研究。E-mail: laozhou_529@foxmail.com

收稿日期: 2012-12-24

  修回日期: 2013-05-24

  网络出版日期: 2014-04-02

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Giant clam research and prospect of aquaculture in the South China Sea

  • ZHOU Qin ,
  • WANG Yu-fen ,
  • JIANG Xiu-feng
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  • China Academy of Fishery Sciences, Beidaihe Station, Beidaihe 066100, China

Received date: 2012-12-24

  Revised date: 2013-05-24

  Online published: 2014-04-02

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摘要

砗磲是软体动物门瓣鳃纲砗磲科生物的统称, 广泛分布于热带珊瑚礁海域。20世纪八九十年代, 澳大利亚、美国以及菲律宾等太平洋岛屿国家集中开展了砗磲增养殖及与之相关的生理、生态和经济学等基础研究。砗磲通过与其共生的虫黄藻获得营养, 这一特性使得砗磲生长速度极快。砗磲的单位面积保有量可达400t·hm-2, 使得它们在热带珊瑚礁海域中具有重要的生态学和养殖意义。不仅如此, 砗磲在其生长过程中所体现出来的珊瑚礁修复价值以及碳汇渔业价值对于海洋开发和保护都有着极其重要的意义。同时, 我国南海拥有环境优越的广阔热带海域, 可开展砗磲养殖的面积达3000km2以上。结合以上认识, 作者认为砗磲养殖具有形成热带海洋贝类养殖重大产业的潜力, 可以为我国南海珊瑚礁保护和生态文明建设工程提供支撑。

关键词: 砗磲; 增养殖; 南海; 珊瑚礁保护; 碳汇渔业

本文引用格式

周勤 , 王玉芬 , 姜秀凤 . 砗磲研究现状及在我国南海开展养殖的前景[J]. 热带海洋学报, 2014 , 33(2) : 87 -93 . DOI: 10.11978/j.issn.1009-5470.2014.02.012

Abstract

Giant clams are of the family Tridacnidae with 10 living species in only two genera, Tridacna and Hippopus. In the 1980s and 1990s, the Pacific Rim countries, including Australia, the Philippines and the U.S., conducted a series of joint research on the cultivation of giant clams and the relevant physiological, ecological and economic factors. The unique feature of giant clams among bivalve molluscs is their symbiotic relationship with dinoflagellate algae, zooxanthellae (Symbiodinium. sp); this gives them a nutritional and growth advantage over normal bivalve molluscs. Since the stocking of giant clams can reach 400 tonnes per hectare, giant clams have great significance to both mariculture sector and tropical coral reef ecosystem. Moreover, due to benefits to coral reef restoration and carbon sink fisheries, the growth of giant clams also has a significance for marine development and protection. Meantime The South China Sea has 3000 km2 tropical reef water, which is suitable for developing mariculture. We suggest that giant clams cultivation have the potential to become a principle sector of tropical mariculture that could facilitates the protection of coral reefs as well as the recovery and conservation of the South China Sea ecosystem.

Key words: giant clam; aquaculture and enhancement; South China Sea; coral reef protection; carbon sink fisheries

参考文献

[1]丁导生. 1958. 西沙群岛贝类资源丰富[J]. 中国水产, 9: 19-20.
[2]董志军, 黄晖, 黄良民. 2008. 虫黄藻的分类和遗传多样性研究进展[J]. 海洋通报, 27(3): 95-101.
[3]黄晖, 董志军, 练健生. 2008. 论西沙群岛珊瑚礁生态系统自然保护区的建立[J]. 热带地理, 28(6), 541-544.
[4]居占杰, 刘兰芬. 2010. 我国沿海渔民转产转业的困难与对策[J]. 中国渔业经济, 8(3): 18-22.
[5]孔凡斌. 2007. 退耕还林(草)工程生态补偿机制研究[J]. 林业科学, 43(1): 95-101.
[6]李纯厚, 齐占会, 黄洪辉, 等. 2010. 海洋碳汇研究进展及南海碳汇渔业发展方向探[J]. 南方水产, 6(6): 81.
[7]李纯厚, 贾晓平, 刘桂茂, 等. 2011. 热带离岸海域珊瑚礁澙湖养殖生态环境研究[C]. 北京:中国科协: 721-722.
[8]李成林, 宋爱环, 胡炜, 等. 2011. 山东省扇贝养殖产业现状分析与发展对策[J]. 海洋科学, 35(3): 92-98.
[9]李怒云, 宋维明, 章升东. 2009. 中国林业碳汇管理现状与展望[J]. 绿色中国, 3: 23-26.
[10]林志华, 尤仲杰. 2005. 浙江滩涂贝类养殖高产技术模式[J]. 海洋科学, 29(8): 95-99.
[11]马绣同. 1977. 我国西沙群岛一些常见的贝类[J]. 海洋科学家, 3: 4-13.
[12]农业部渔业局计划处. 2007. 2006年全国渔业统计情况综述[J] 渔业致富指南, 2007(14): 35-36.
[13]欧阳统, 张阁卿, 陈盛. 1992. 西沙群岛生物资源面临的困扰及保护建议[J]. 海洋与海岸带开发, 2: 40-43.
[14]王丽荣, 赵焕庭. 2002. 珊瑚礁生态学的研究和展望[J]. 海洋科学, 26(3): 20-23.
[15]吴鹏, 孙耀, 徐林梅, 等. 2007. 乳山湾东流区滩涂贝类养殖环境中自身污染现状分析[J]. 海洋水产研究, 28(1): 87-94.
[16]肖乐, 刘禹松. 2010. 碳汇渔业对发展低碳经济具有重要和实际意义——专访中国科学技术协会副主席中国工程院院士唐启升[J]. 中国水产, 8: 4-8.
[17]张继红, 方建光, 唐启升. 2005. 中国浅海贝藻养殖对海洋碳循环的贡献[J]. 地球科学进展, 20(3): 359-365.
[18]张素萍. 2008. 中国海洋贝类图鉴[M]. 北京: 海洋出版社: 317-320.
[19]张小泉, 武曙红. 1999. 中国CDM造林再造林项目指南[M]. 北京: 中国林业出版社: 98-100.
[20]赵美霞, 余克服, 张乔民. 2006. 珊瑚礁区的生物多样性及其生态功能[J]. 生态学报, 26(1): 186-193.
[21]久保弘文, 岩井憲司, 木村美紀. 2006. シャコガイ増養殖技術開発(市場実態)[J]. 沖縄水海研セ事報, 67: 217-223.
[22]ALCALA A C. 1986. Distribution and abundance of giant clams (family Tridacnidae) in the south central Philippines[J]. Silliman J, 33(1-4): 1-19.
[23]ANTONINE T, KIM F, 2008. Successes and failures in reintroducing giant clam in the Indo-Pacific region[J]. SPC Trochus Information Bulletin, 14: 19-26.
[24]BECKVAR N. 1981. Cultivation, spawning and growth of the giant clams Tridacna gigas, Tridacna derasa and Tridacna squamosa in Palau, Caroline Islands[J]. Aquaculture, 24: 21-30.
[25]BRALEY R D. 1988. Recruitment of the giant clams Tridacna gigas and T. derasa at four sites on the Great Barrier Reef[G]//COPLAND J W, LUCAS J S. Giant clams in Asia and the Pacific. Canberra: Australian Centre for International Agricultural Research: 73-77.
[26]BRALEY R D. 1992. The giant clam: Hatchery and nursery culture manual[G]. Canberra: Australian Centre for International Agricultural Research: 1-144.
[27]BRALEY R D. 2011. Aquacultured giant clam, Tridacna gigas and Hippopus hippopus, used as main biofilter in a saltwater aquarium recirculation system[J]. SPC Trochus Information Bulletin, 8: 24-27.
[28]CABAITAN P C, GOMEZ E D, ALIÑO P M. 2008. Effects of coral transplantation and giant clam restocking on the structure of fish communities on degraded patch reefs[J]. Journal of Experimental Marine Biology and Ecology, 357(1): 85-98.
[29]CALUMPONG P H. 1992. The giant clam: An ocean culture manual[G]. Canberra: Australian Centre for International Agricultural Research: 1-68.
[30]COPLAND J W, LUCAS J S. 1988. Giant clams in Asia and the Pacific[G]. Canberra: Australian Centre for International Agricultural Research: 1-274.
[31]DAVIES P S. 1984. The role of zooxanthellae in the nutritional energy requirements of Pocillopora eydouxii[J]. Coral Reefs, 2: 181-186.
[32]DAVIES P S. 1991. Effects of day light variation on energy budgets of shallow water corals[J]. Marine Biology, 108: 137-144.
[33]DAWSON R F. 1988. Giant clam exploitation in the southwest Pacific[G]//COPLAND J W, LUCAS J S. Giant clams in Asia and the Pacific. Canberra: Australian Centre for International Agricultural Research: 254-255.
[34]DIZON R M, EDWARDS A J, EDGARDO D. GOMEZ E D. 2008. Comparison of three types of adhesives in attaching coral transplants to clam shell substrates[J]. Aquatic Conserv: Mar. Freshw. Ecosyst. doi: 10.1002/aqc.944. http://www. interscience.wiley.com.
[35]FITT W K. 1993. Biology and mariculture of giant clams[G]. Canberra: Pirie Printers: 1-154.
[36]GILBERT A, YAN L, REMOISSENET G, et al. 2005. Extraordinarily high giant clam density under protection in Tatakoto atoll (Eastern Tuamotu archipelago, French Polynesia)[J]. Coral Reefs, 24: 495.
[37]GILBERT A, PLANES S, FRIEDMAN K, et al. 2007. First observation of the giant clam Tridacna squamosa in French Polynesia: A species range extension[J]. Coral Reefs, 26: 229.
[38]GOMEZ E D, ALCALA A C. 1988. Giant clams in the Philippines[G]//COPLAND J W, LUCAS J S. Giant clams in Asia and the Pacific. Canberra: Australian Centre for International Agricultural Research: 51-53.
[39]GOMEZ E D, MINGOA L S. 2006. Achievements and lessons learned in restocking giant clam in Philippines[J]. Fisheries Research, 80: 46-52.
[40]HAMNER W M, JONES M S. 1976. Distribution, burrowing and growth rates of the clam, Tridacna crocea, on interior reef flats[J]. Oecologia (Berl.), 24: 207-227.
[41]HESLINGA G A, PERRON F E, ORAK O. 1984. Mass culture of giant clams (F. Tridacnidae) in Palau[J]. Aquaculture, 39: 197-215.
[42]HESLINGA G A, WATSON T C, ISAMU T. 1988. Status of the MMDC giant clam hatchery Republic of Palau[M/OL]. Noumea: South Pacific Commission: 1-9. http://www. spc.int/ fame/en/ publications/digital-library.
[43]HESLINGA G A. 1996. Clams to cash: How to make and sell giant clam shell products[G]. Hawaii: Center for Tropical and Subtropical Aquaculture: 1-47.
[44]HUGHES T P, HUANG H, YOUNG M A L. 2013. The wicked problem of China’s disappearing coral reefs[J]. Conservation Biology, 27(2): 261-269.
[45]ISHIKURA M, HAGIWARA K, TAKISHITA K et al. 2004. Isolation of new symbiodinium strains from Tridacnid giant clam (Tridacna crocea) and sea slug (Pteraeolidia ianthina) using culture medium containing giant clam tissue homogenate[J]. Mar Biotechnol, 6: 378-385.
[46]LEWIS A D, ADAMS T J H, LEDUA E. 1988. Fiji's giant clam stocks—A review of their distribution, abundance, exploitation and management[G]//COPLAND J W, LUCAS J S. Giant clams in Asia and the Pacific. Canberra: Australian Centre for International Agricultural Research: 66-72.
[47]LUCAS J S. 1988. Giant clams: Description, distribution and life history[G]//COPLAND J W, LUCAS J S. Giant clams in Asia and the Pacific. Canberra: Australian Centre for International Agricultural Research: 21-32.
[48]LUCAS J S, LINDSAY S R, BRAIEY R D, et al. 1993. Density of clams and depth reduce growth in grow-out culture of Tridacna gigas[G]//FITT W K. Biology and mariculture of giant clams. Canberra: Pirie Printers: 67-73.
[49]LUCAS J S. 2003. Giant clam mariculture _ Unique bivalves have traditional roles, commercial potential[J]. Global Aquaculture Alliance, 6(3): 52-54.
[50]MUNRO J L, HESLINGA G A. 1983. Prospects for the commercial cultivation of giant clams (Bivalvia: Tridacnidae)[J]. Proc Gulf Caribb Fish Inst, 35: 122-134.
[51]MUNRO J L. 1988. Growth, mortality and potential aquaculture production of Tridacna gigas and T. Derasa[G]//COPLAND J W, LUCAS J S. Giant clams in Asia and the Pacific. Canberra: Australian Centre for International Agricultural Research: 218-220.
[52]MUNRO J L. 1989. Fisheries for giant clams (Tridacnidae: Bivalvia) and prospects for stock enhancement[M]. New York: John Wiley & Sons Inc: 541-558.
[53]MURAKOSHI M. 1986. Farming of the boring clam, Tridacna crocea Lamarck[J]. Galaxea, 5: 239-254.
[54]NASH W J, LUCAS J S. 1986. Spawning induction, and larval and juvenile rearing of the giant clam, Triducna gigas[J]. Aquaculture, 58: 281-295.
[55]NASH W J, PEARSON R G, WESTMORE S P. 1988. A histological study of reproduction in the giant clam Tridacna gigas in the north-central Great Barrier Reef[G]//COPLAND J W, LUCAS J S. Giant clams in Asia and the Pacific. Canberra: Australian Centre for International Agricultural Research: 89-94.
[56]NORTON J H, SHEPHERD M A, LONG H M, et al. 1992. Zooxanthellal tubular system in the giant clam[J]. Biological Bulletin, 183: 503-506.
[57]OTHMAN A Y, GIDEON H S G, PETER A T. 2010. The distribution and status of giant clams (family Tridacnidae)—A short review[J]. The Raffles Bulletin of Zoology, 58(1): 103-111.
[58]PINXON J H, DEVIN-DURANTE M K, WEBER M X, et al. 2011. Microsatellite loci for Symbiodinium A3 (S. fitti) a common algal symbiont among Caribbean Acropora (stony corals) and Indo-Pacific giant clams (Tridacna)[J]. Conservation Genet Resour, 3: 45-47. doi: 10.1007/s12686-010-9283-5.
[59]SAHARI A, LLIAS Z, SULONG N, et al. 2002. Giant clam species and distribution at Pulau Layang Layang, Sabah[G/OL]. Marine Biodiversity of Pulau Layang Layang Malaysia. Kuching: Sabah Marine Research Station Layang Layang (MARSAL): 25-28.[2013-05-06] http://www.fri. gov.my/marsal/research.html
[60]SIMON E. 1999. Spawning and early larval rearing of giant clams (Bivalvia: Tridacnidae)[G]. Hawaii: Center for Tropical and Subtropical Aquaculture: 1-55
[61]SIMON E. 2000. Nursery and grow-out techniques for giant clams[G]. Hawaii: Center for Tropical and Subtropical Aquaculture: 1-99.
[62]SMITH S V. 1978. Coral reef area and contribution of reefs to processes and resources of the world's ocean[J]. Nature, 273(5659): 225-226.
[63]STEPHEN C J. 1976. Early life history of the giant clams Tridacna crocea Lamarck, Tridacna maxima (Roding), and Hippopus hippopus (Linnaeus)[J]. Pacific Science, 30(3): 219-233.
[64]SUZANNE S, MINGOA M. 1988. Photoadaptation in juvenile Tridacna gigas[G]//COPLAND J W, LUCAS J S. Giant clams in Asia and the Pacific. Canberra: Australian Centre for International Agricultural Research: 145-150.
[65]WATANABE T, SUZUKIB A, KAWAHATA H, et al. 2004. A 60-year isotopic record from a mid-Holocene fossil giant clam (Tridacna gigas) in the Ryukyu Islands: Physiological and paleoclimatic implications[J]. Palaeogeography, Palaeoclimatology, Palaeoecology, 212: 343-354.
[66]YAN HONG, SHAO DA, WANG YUHONG, et al. 2013. Sr/Ca profile of long-lived Tridacna gigas bivalves from South China Sea: A new high-resolution SST proxy[J]. Geochimica et Cosmochimica Acta, 112: 52-65.
[67]YELLOWLEES D, REES T A V.FITT W K. 1993. The giant clam as a model animal for study of marine algal-invertebrate associations[G]//FITT W K. The biology and mariculture of giant clams. Canberra: Pirie Printers: 27-30.
[68]YONGE C M. 1975. Giant clams[J]. Scientific American, 23: 96-105.
[69]ZUSCHIN M, HOENEGGERA J, STEININGERB F F. 2000. A comparison of living and dead molluscs on coral reef associated hard substrata in the northern Red Sea — implications for the fossil record[J]. Palaeogeography, Palaeoclimatology, Palaeoecology, 159: 167-190.
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