中国水产科学
中國水產科學
중국수산과학
Journal of Fishery Sciences of China
2013年
2期
361-371
,共11页
逄志伟%徐宾铎%陈学刚%任一平
逄誌偉%徐賓鐸%陳學剛%任一平
방지위%서빈탁%진학강%임일평
胶州湾%虾类%群落结构%种类多样性
膠州灣%蝦類%群落結構%種類多樣性
효주만%하류%군락결구%충류다양성
Jiaozhou Bay%shrimp%community structure%species diversity
根据2008年9月至2009年8月在胶州湾中部海域进行的逐月底拖网调查数据,应用相对重要性指数、生物多样性指数和多元统计分析等方法对虾类群落结构及多样性进行了研究.结果表明:该调查海域捕获虾类共17种,隶属于6科15属.虾类相对资源量具有明显的月间变化,9月、10月、6月资源量较高,平均网获质量的变化范围为223.9~3422.9 g/h,平均网获尾数为41~1608 ind/h;优势种组成具有较为明显的月间变化,全年的优势种为鹰爪虾(Trachysalambra curvirostris)、细巧仿对虾(Parapenaeopsis tenella)和日本鼓虾(Alpheus japonicus).虾类种类丰富度指数(D)的变化范围为0.77~1.89, Shannon-wiener 多样性指数(H′)变化范围为0.90~2.34,均匀度指数(J)变化范围为0.26~0.76,多样性指数月变化较大,且春夏季高于秋冬季.CLUSTER 聚类分析与 MDS 分析可将胶州湾中部海域全年虾类群落划分为4个月份组群:Ⅰ组群(4月、5月),Ⅱ组群(12月—翌年3月),Ⅲ组群(6月、9月、10月)和Ⅳ组群(7月、8月、11月).ANOSIM 分析表明,Ⅱ组群与Ⅲ组群、Ⅱ组群与Ⅳ组群差异显著,其他组群间差异不显著.各组群典型种与组群间分歧种对群落结构的影响明显.BIOENV 分析表明,底层水温是影响胶州湾中部海域虾类群落结构月变化的主要环境因子.本研究旨在为保护与合理利用胶州湾海域虾类资源对策的制定提供科学依据.
根據2008年9月至2009年8月在膠州灣中部海域進行的逐月底拖網調查數據,應用相對重要性指數、生物多樣性指數和多元統計分析等方法對蝦類群落結構及多樣性進行瞭研究.結果錶明:該調查海域捕穫蝦類共17種,隸屬于6科15屬.蝦類相對資源量具有明顯的月間變化,9月、10月、6月資源量較高,平均網穫質量的變化範圍為223.9~3422.9 g/h,平均網穫尾數為41~1608 ind/h;優勢種組成具有較為明顯的月間變化,全年的優勢種為鷹爪蝦(Trachysalambra curvirostris)、細巧倣對蝦(Parapenaeopsis tenella)和日本鼓蝦(Alpheus japonicus).蝦類種類豐富度指數(D)的變化範圍為0.77~1.89, Shannon-wiener 多樣性指數(H′)變化範圍為0.90~2.34,均勻度指數(J)變化範圍為0.26~0.76,多樣性指數月變化較大,且春夏季高于鞦鼕季.CLUSTER 聚類分析與 MDS 分析可將膠州灣中部海域全年蝦類群落劃分為4箇月份組群:Ⅰ組群(4月、5月),Ⅱ組群(12月—翌年3月),Ⅲ組群(6月、9月、10月)和Ⅳ組群(7月、8月、11月).ANOSIM 分析錶明,Ⅱ組群與Ⅲ組群、Ⅱ組群與Ⅳ組群差異顯著,其他組群間差異不顯著.各組群典型種與組群間分歧種對群落結構的影響明顯.BIOENV 分析錶明,底層水溫是影響膠州灣中部海域蝦類群落結構月變化的主要環境因子.本研究旨在為保護與閤理利用膠州灣海域蝦類資源對策的製定提供科學依據.
근거2008년9월지2009년8월재효주만중부해역진행적축월저타망조사수거,응용상대중요성지수、생물다양성지수화다원통계분석등방법대하류군락결구급다양성진행료연구.결과표명:해조사해역포획하류공17충,대속우6과15속.하류상대자원량구유명현적월간변화,9월、10월、6월자원량교고,평균망획질량적변화범위위223.9~3422.9 g/h,평균망획미수위41~1608 ind/h;우세충조성구유교위명현적월간변화,전년적우세충위응조하(Trachysalambra curvirostris)、세교방대하(Parapenaeopsis tenella)화일본고하(Alpheus japonicus).하류충류봉부도지수(D)적변화범위위0.77~1.89, Shannon-wiener 다양성지수(H′)변화범위위0.90~2.34,균균도지수(J)변화범위위0.26~0.76,다양성지수월변화교대,차춘하계고우추동계.CLUSTER 취류분석여 MDS 분석가장효주만중부해역전년하류군락화분위4개월빈조군:Ⅰ조군(4월、5월),Ⅱ조군(12월—익년3월),Ⅲ조군(6월、9월、10월)화Ⅳ조군(7월、8월、11월).ANOSIM 분석표명,Ⅱ조군여Ⅲ조군、Ⅱ조군여Ⅳ조군차이현저,기타조군간차이불현저.각조군전형충여조군간분기충대군락결구적영향명현.BIOENV 분석표명,저층수온시영향효주만중부해역하류군락결구월변화적주요배경인자.본연구지재위보호여합리이용효주만해역하류자원대책적제정제공과학의거.
@@@@Based on monthly bottom trawl surveys in the central waters of Jiaozhou Bay from September 2008 to August 2009, a study on the community structure and diversity of shrimps was carried out using an index of rela-tive importance, ecological diversity indices, multivariate analysis and other methods. Survey results indicated that 17 shrimp species, belonging to 15 families and six genera, were caught. The relative monthly shrimp re-source, which was highest in September, October and June, varied dramatically among months. The average catch weight per haul (h) ranged from 223.9 g/h to 3 422.9 g/h, and the average catch number per haul varied from 41 ind/h to 1 608 ind/h. Monthly changes were observed in the dominant species Trachysalambria curvirostris, Parapenaeopsis tenella and Alpheus japonicus. There were severe changes in the diversity index among months, with the indices in spring and summer being higher than those in autumn and winter. The Margalef’s species rich-ness index (D), Shannon-Wiener diversity index (H') and Pielou’s evenness index (J) of the community structure ranged from 0.77-1.89, 0.90-2.34 and 0.26-0.76, respectively. MDS and CLUSTER analysis identified four month groups, comprising Group I (April and May), Group II (December, January, February and March), Group III (June, September and October) and Group IV (July, August and November), for shrimp communities during the entire year in this area. ANOSIM analysis revealed significant differences in species composition between Group II and Group III or Group II and Group IV, but no significant differences between other groups. Typical species within-group and discriminating species between groups had a significant influence on the community structure. BIOENV analysis showed that bottom water temperature was the most important environmental factor affecting monthly variations in shrimp community structure in the central waters of Jiaozhou Bay.