湛江港水域浮游动物群落结构与季节格局

Xue-feng Wang, Cai-xue Zhang, Yuening Gong, Xing-li Sun
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引用次数: 1

摘要

为了进一步了解亚热带典型河口浮游生物生态的物理和生物过程,于2008年11月至2009年2月在湛江港海域进行了4次巡航,调查了浮游动物的种类组成、丰度和多样性。共鉴定出浮游动物128种,浮游幼虫9种/组合,其中桡足类49种,其次是水母类(16种)、原生动物(12种)、十足类(10种)和毛齿类(10种)等。春、夏、秋、冬4个季节分别有51种、45种、27种、59种。总体而言,港内水域浮游动物丰度高于港外水域,丰度为1.1×102±1.5×102个体·m-3(ind)。春、夏、秋、冬季节分别为1.5×102±2.3×102 ind·m-3、4.1×10±3.4×10 ind·m-3、5.6×10±5.0×10 ind·m-3。优势浮游动物的季节更替率大于63%,表明群落结构的季节性变化较大。Shannon-Winner多样性指数年平均为3.08,春夏季呈上升趋势,秋冬季呈一定程度的下降趋势。均匀度指数和丰富度指数的季节变化趋势与多样性指数相似。群落多样性以中部水域最高(3.14),其次为港湾入海口(3.10),最后为沿海水域(2.99)。利用逐步回归方法对浮游动物优势种丰度进行环境适应性分析,结果表明叶绿素a、浮游植物丰度和海水温度对浮游动物优势种丰度有较大影响,且影响程度随物种丰度的不同而不同,也反映了优势种间生态位的差异。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Zooplankton community structure and seasonal patterns in the Zhanjiang Harbor waters, China
To improve our knowledge regarding the physical and biological processes relating the plankton ecology in typical subtropical estuaries, species composition, abundance and diversity of zooplankton were investigated during four cruises conducted in Zhanjiang Harbor waters, China, between Nov, 2008 and Feb, 2009. A total of 128 species of zooplankton and 9 species/assemblages of planktonic larvae were identified, including 49 species of Copepods, followed by Medusas (16 species), Protozoa (12 species), Decapods(10 species) and Chaetognatha(10 species), etc. The species/ assemblages that occurred in spring, summer, autumn and winter were 51, 45, 27, 59 species, respectively. In all, the abundance of zooplankton in the harbor inner waters was higher than that off the mouth of the Harbor waters, and the abundance was 1.1×102±1.5×102 individuals·m-3(ind. ·m-3), 1.5×102±2.3×102 ind·m-3, 4.1×10±3.4×10 ind·m-3, 5.6×10±5.0×10 ind·m-3 in spring, summer, autumn and winter, respectively. The seasonal turnover rate of dominant zooplankton species was higher than 63%, indicating relative large seasonal variation of the community structure. The Shannon-Winner diversity index averaged 3.08 annually, which increased from spring to summer, and decreased form autumn and winter to some extent. And the values of Evenness index and richness index showed similar trends as the diversity index seasonal variation. The value of community diversity was the highest in the middle waters (3.14), the second was in the mouth of the Harbor waters (3.10), and the last was in the coastal waters (2.99). Using step-wise regression method, the environmental adaption of zooplankton dominant species abundance analysis showed that the chlorophyll a, phytoplankton abundance, and sea water temperature had great effects on the dominant zooplankton species abundance, and the effects varied as the different species abundance, also indicating the differences in ecological niches among dominant zooplankton species.
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