东海中南部外海虾类群落结构特征分析
COMM UNITY CHARACTERISTICS OF SHRIM PS IN THE OFFSHOREWATERS OF THEM ID2SOUTHERN EAST CHINA SEA
-
摘要: 依据2006年5月(春)、9月(夏)、11月(秋)和2007年2月(冬)在东海中南部外海(26°00′N-28°30′N,126°00′E以西)海域虾类资源调查资料,分析了虾类的种类组成、优势度、多样性等群落结构特征。共采获虾类32种,隶属于11科22属,优势种有长角赤虾(Metapenaeopsis longirostris)、戴氏赤虾(Metapenaeopsis dalei)、高脊管鞭虾(Solenocera alticarinata)、东海红虾(Plesionika izumiae)、九齿扇虾(Ibacus novemdentatus)、假长缝拟对虾(Parapenaeus fissuroides)、凹管鞭虾(Soleno cerakoelbeli)、大管鞭虾(Solenocera crassicornis)、哈氏仿对虾(Parapenaeopsis hardwickii)和中华管鞭虾(Solenocera crassicornis),其中长角赤虾、戴氏赤虾、东海红虾、假长缝拟对虾和哈氏仿对虾是主要优势种,常见种是须赤虾(Metapenaeopsis barbata)、日本囊对虾(Penaeus japonicus)、脊单肢虾(Sicyonia cristata)、葛氏长臂虾(Palaemongravieri)、日本鼓虾(Alpheusjaponicus)、全刺拟长额虾(Parapandalusspinipes)和齿额红虾(Plesion-ika dentirostris)。东海中南部外海大部分虾类属于高温高盐生态群落,虾类丰度空间分布呈现120m等深线以西的站位高,120m等深线以东站位低的特征,但是秋季和冬季的生物丰度普遍减小,冬季整个海域的虾类丰度基本达到全年的最低值。不同季节中,秋季种类最多(22种),其次是冬季(20种),春、夏季较少(分别为17种、18种);Margalef指数(D)和Shannon-Wiener多样性指数(H′)以夏秋季较高,冬春季较低,整个海区四个季节的均匀性指数(J′)较为稳定。从空间分布来看,4个季节中东海中南部外海120m等深线以西站位多样性指数高于120m等深线以东的站位;运用聚类和非线性多维标序对群落结构的相似性进行分析,结合水深等环境因子,表明东海中南部外海虾类可分为两个群聚类型,即较深海域群聚和外缘群聚。Abstract: Based on the data of the shrimp resources sampled by single trawler as investigation boat in 18 stations in the offshore waters of the Mid-Southern East China Sea (26°00′N-28°30′N, 121°00′E-126°00′E) in May, August, November, 2006 and February, 2007, total catch from each trawlerwas counted and identified to species in taxonomy, and the spatial variation of the shrimp species composition, index of relative importance (IRI),the diversity and similar characteristics of the community structure were analyzed. 32 species of shrimp were caught in this survey, which belonged to 22 families under 11 genera1 Comparison of the amounts of various species in different seasons: there are 22 species in the autumn which are the most; 20 species in winter, 17 and 18 species in the spring and the summer respectively. According to the standard of index of relative importance (IRI) (the specieswith IRI above 1000 were regarded as the dominant species in this paper), there were 10 dominant species: M etapenaeopsis longirostris, M etapenaeopsis dalei, Solenocera alticarinata, Plesionika izum iae, Ibacus novemdentatu, Parapenaeus fissuroides, Solenocera koelbeli, Solenocera crassicornis, Parapenaeopsis hardwickii and Solenocera crassicornis, and 5 of them were major dominant specieswhich were M etapenaeopsis long irostris, M etapenaeopsis dalei, Plesionika izum iae, Parapenaeus fissuroides and Parapenaeopsis hardwickii. Defined the ones with IRI values ranging from 100 to 1000 as common species, we got 7: M etapenaeopsis barbata, Penaeus japonicus, Plesionika dentirostris, Palaemon gravieri, Alpheus japonicus, Parapandalus spinipes and Sicyonia cristata. The abundance of the dominant species was varied with seasons. For example, 5 were in May: M etapenaeopsis longirostris, M etapenaeopsis dalei, Parapenaeopsis hardwickii, Solenocera alticarinata and Plesionika izum iae, 89.15% of the total catch and 92.14% of the total individuals. In August, there were 7 dominant species: M etapenaeopsis dalei, Plesionika izum iae, M etapenaeopsis longirostris, Parapenaeus fissuroide, Solenocera crassicornis, Ibacus novemdentatus and Solenocera alticarinata, 91.82% of the total catch and 95.05% of the total individuals. In November, the number of dominant species increased to 8: M etapenaeopsis longirostris, Plesionika izum iae, Parapenaeus fissuroides, M etapenaeopsis dalei, Solenocera crassicornis, Ibacus novemdentatus, Solenocera koelbeli and Solenocera alticarinata, occupying 95.31% and 97.56% of the total catch individuals, respectively. In February, the number reduced to 5: M etapenaeopsis longirostris, Parapenaeus fissuroides, M etapenaeopsis dalei, Solenocera koelbeli and Plesionika izum iae, 88.76% and 94.93% respectively. Based on their adaptability to habitats, all recorded species of shrimpswere categorized into the hyperthermal and hysaline community in the Mid-Southern EastChina Sea. The stationswith high abundance were mainly located in the west of the 120m isobaths, and gradually lower toward the autumn to winter, while it reached the lowest in winter1Margalef index (D) and Shannon-Wienner index (H′) were higher in summer and autumn than those in winter and spring, Pielou’s evenness index (J′) in the offshorewatersof theMid2Southern East China Seawas stable through every season. The result indicated that the diversity index west of the 120m isobaths was higher than in the east. By hierarchical cluster analysis and non-metric multidimensional scaling (NMDS) assisted analyzing, the types of shrimp assemblage determined by influential factor such as aquatic system, watermass and salinity etc. in the East China Sea in spring were also discussed in the article, two main assemblages were identified in the offshore waters of the Mid-Southern East China Sea, which were deeper costal shrimp assemblage and out shelf sea shrimp assemblage.
-
Keywords:
- Shrimps /
- Community structure /
- Dominant species /
- Diversity /
- The offshore waters
-
-
[1] Dong YM, Yu Y Y, Hu Y Y. A report on shrimps of Zhejiang Coastal-Ⅰ[J]. Chinese Journal of Zoology, 1959, 3: 389-394 [董聿茂, 虞研原, 胡萸英. 浙江沿海游泳虾类报告 Ⅰ. 动物学杂志, 1959, 3: 389-394]
[2] Dong YM, Hu Y Y. A report on shrimps of Zhejiang coastal-Ⅱ [J]. Chinese Journal of Zoology, 1980, 2: 20-24 [董聿茂,胡萸英. 浙江沿海游泳虾类报告 Ⅱ. 动物学杂志, 1980, 2:20-24]
[3] Dong YM, Hu Y Y, WangB Y. A reporton shrimpsof Zhejiang Coastal-Ⅲ [J]. Chinese Journal of Zoology, 1986, 5: 4-6[董聿茂, 胡萸英, 汪宝永. 浙江沿海游泳虾类报告 Ⅲ. 动物学杂志, 1986, 5: 4-6]
[4] Liu R Y. Notes on the economic macrurous crustacean fauna of the Yellow Sea and the East China Sea [J]. Oceanologia etLimnologia Sinica, 1959, 2 (1) : 35-42 [刘瑞玉. 黄海及东海虾类区系的特点. 海洋与湖沼, 1959, 2 (1) : 35-42]
[5] Wang Y H. Noteson the shrimp and lobster fauna of the Zhoushan archipelago waters [J]. Oceanologia et Limnologia Sinica, 1987, 18 (1) : 48-54 [王彝豪. 舟山沿海经济虾类及其区系特点. 海洋与湖沼, 1987, 18 (1) : 48-54]
[6] Song H T, Yao G Z, Yu C G, et al. The quantitative distribution and biological characteristics of Parapenaeus fissuroides in the East China Sea [J]. M arine Fisheries Research, 2002, 23 (4) :8-12 [宋海棠, 姚光展, 俞存根, 等. 东海假长缝拟对虾的数量分布和生物学特性. 海洋水产研究, 2002, 23 (4) : 8-12]
[7] Yu C G, Song H T, Ding Y P, et al. A Primary Estimation on Shrimp Resource of Zhejiang Costal Area [J]. Journal of Zhejiang Fishery College, 1994, 13 (3) : 149-155 [俞存根, 宋海棠, 丁跃平, 等. 浙江近海虾类资源量的初步评估. 浙江水产学院学报, 1994, 13 (3) : 149-155]
[8] Song H T, Yao G Z, Yu C G, et al. Composition and distribution of shrimp species in the East China Sea [J]. Acta Oceanologica Sinica, 2003, 1 (suppl) : 8-12 [宋海棠, 姚光展, 俞存根, 等. 东海虾类的种类组成和数量分布. 海洋学报,2003, 1 (增刊) : 8-12]
[9] Zhang T S, Yang X J, Zou Z J, et al. Studies on the tetraplody induction in the giant freshwaterprawn, Macrobrachium Rosenbergll [J]. Acta Hydrobiologica Sinica, 2005, 29 (5) : 538-543[张天澍, 杨晓菁,邹中菊,等. 罗氏沼虾四倍体诱导的研究.水生生物学报, 2005, 29 (5) : 538-543]
[10] Zhu D F, Wang G Z, Li S J. UL trastructure of OO genesis in Thenus orientalis [J]. Acta Hydrobiologica Sinica, 2006, 30 (4) : 439-445 [朱冬发, 王桂忠, 李少菁. 东方扁虾卵子发生的超微结构. 水生生物学报, 2006, 30 (4) : 439-445]
[11] Pinkas L, Oliphant M S, Iverosn K. Food habits of albacore, bluefin tuna, and bonito in California waters [M]. Fishery Bulletin. 1971, 152
[12] MargalefD R. Information theory in ecology [J]. Gen. System, 1958, 3: 36-71
[13] Shannon E C, WeaverW. The mathematical Theory of communication [M]. University of Illinois Press, Urbana. 1948, 125
[14] Pielou E C. Mathematical Ecology. John W iley [M]. New York. 1977, 385
[15] Field J G, Clarke K R, Warwick R M. A practical strategy for analysingmultispecies distribution patterns [J]. M arine Ecology Progress Series, 1982, 8: 37-52
[16] Brazner J C, Beals EW. Patterns in fish assemblages from coastalwetland and beach habitats in Green Bay, Lake Michigan: A multivariate analysisof abiotic and biotic forcing factors [J]. Canadian Journal of Fisheries and Aquatic Sciences, 1997, 54:1743-1761
[17] KhalafM A, KochziusM. Change in trophic community structure of shore fishes at an industrial site in the Gulf ofAqaba, Red Sea[J]. M arine Ecology Progress Series, 2002, 239: 287-299
[18] Clarke K R. Non-parametric multivariate analysis of changes in community structures [J]. Australian Journal of Ecology, 1993, 18: 117-143
[19] Clarke K R, Warwick R. Change in Marine Communities: An Approach to Statistical Analysis and Interpretation [M].Plymouth, UK: Natural Environmental Research Council.1994, 144
[20] Yu C G, Song H T, Yao G Z. Crab community structure in The East China Sea [J]. Oceanologia et Limnologia Sinica, 2005, 36 (3) : 213-220 [俞存根, 宋海棠, 姚光展. 东海蟹类群落结构特征的研究. 海洋与湖沼, 2005, 36 (3) : 213-220]
[21] Zheng S Z, Wu Q H, Wang H B, et al. General Ecology [M]. Shanghai: Fudan University Press. 1994, 148-175 [郑师章,吴千红, 王海波, 等. 普通生态学. 上海: 复旦大学出版社. 1994, 148-175]
[22] Shen G Y, Shi B Z. Marine Ecology [M]. Beijing: Science Press. 2002, 153-183 [沈国英, 施并章. 海洋生态学. 北京: 科学出版社. 2002, 153-183]
[23] Song H T, Yu C G, Xue L J, et al. Economic Shrimp and Crab Species in The East China Sea [M]. Beijing: Ocean Press. 2006, 50 [宋海棠, 俞存根, 薛利建, 等. 东海经济虾蟹类.北京: 海洋出版社. 2006, 50]
[24] Song H T. The ecological colony and fauna characteristics of East China Sea shrimp [J]. StudiaM arina Sinica, 2002, 44: 124-133 [宋海棠. 东海虾类的生态群落与区系特征. 海洋科学集刊, 2002, 44: 124-133]
[25] Song H T, Yu C G, Ding Y P, et al. Shrimp resources in the offshore waters of central and southern Zhejiang Province [J].DonghaiM arine Science, 1992, 10 (3) : 53-60 [宋海棠, 俞存根, 丁耀平, 等. 东海中南部外侧海区的虾类资源. 东海海洋, 1992, 10 (3) : 53-60]
[26] QuetglasA, CarbonellA, Sanchez P. DemersalContinental Shelf and Upper Slope Cephalopod Assemble from the Balearic Sea (North-WesternMediterranean)BiologicalAspectsof SomeDeepSea Special [J]. Estuarine, Coastal and Shelf Science, 2000, 50: 739-749
计量
- 文章访问数: 1055
- HTML全文浏览量: 3
- PDF下载量: 730
下载: