北部湾北部沿岸海域鱼类资源时空分布特征及多样性变化

Spatial-temporal distribution and diversity variation of fish in the coastal waters of northern Beibu Gulf

  • 摘要: 【目的】掌握北部湾北部沿岸海域鱼类资源时空分布特征及群落结构多样性变化趋势,为其渔业资源科学管护及合理开发利用提供科学依据。【方法】于2018年1月(冬季)和8月(夏季)采用底拖网调查方式对北部湾北部沿岸海域的30个调查站位进行渔业资源调查数据采集,通过扫海面积法、生态特征指数法、丰度/生物量比较法(ABC曲线)等手段评估鱼类资源空间分布及多样性变化,并结合历年文献资料,与不同历史时期的鱼类资源状况进行比较。【结果】在北部湾北部沿岸海域共调查捕获鱼类140种,隶属于14目57科89属,以鲈形目为绝对优势类群,且生态群落优势种组成在季节间存在明显差异,即鱼类群落结构受季节变化的影响,夏季优势种为鹿斑鲾、二长棘鲷和短吻鲾,冬季优势种包括鹿斑鲾、矛尾虾虎鱼、大头白姑鱼和带鱼。北部湾北部沿岸海域鱼类丰度呈现极显著的季节差异(P<0.01,下同),夏季(146.3×103 ind/km2) >冬季(36.8×103 ind/km2),但不同海域间的丰度差异不显著(P>0.05,下同);鱼类生物量也存在极显著的季节差异,表现为夏季(1394.73 kg/km2) >冬季(328.24 kg/km2),不同海域间的生物量差异也不显著。在物种多样性方面,夏季北部湾北部海域鱼类群落各多样性指数[Shannon-Wiener多样性指数(H')、Pielou均匀度指数(J')和Margalef物种丰富度指数(D)]总体上明显高于冬季,而不同海域间的差异均不显著。ABC曲线分析发现,鱼类丰度曲线一直在生物量曲线上方,说明鱼类群落结构受中度及以上的干扰,即个体较大鱼类的优势度被削弱,主要以生长较快、个体相对较小的鱼类为主。【结论】北部湾北部沿岸海域渔业资源量和多样性指数较历史水平均呈下降趋势,且群落结构更替明显。因此,今后应在渔业资源持续监测的基础上,改善北部湾生态环境,加强渔业资源养护管理,降低人为干扰,以确保鱼类群落的功能多样性和可持续开发利用。

     

    Abstract: 【Objective】The objective of this study was to investigate the spatial and temporal distribution of fish resources and the change tendency of community structure diversity in the coastal waters of northern Beibu Gulf, and provide scientific basis for the sustainable conservation and management and rational development of fisheries resources. 【Method】In 2018,bottom trawl surveys were conducted in the coastal waters of northern Beibu Gulf during January (winter)and August(summer). Data on fisheries resources were collected from 30 sampling stations. The spatial distribution and diversity variation of fisheries resources were assessed using methods such as area-sweeping,ecological index,and abundance/biomass comparison(ABC curve). Historical literature data were also used for comparing the fish resource status in different historical periods.【Result】 A total of 140 fish species, belonging to 14 orders, 57 families, and 89 genera, were captured in the northern Beibu Gulf. The dominant group was the Perciformes order,and the composition of dominant species in the ecological community showed obvious seasonal variations. Fish community structure was affected by season variation. During summer,the dominant species were Leiognathus ruconiusParargyrops edita,and Leiognathus brevirostris,whereas during winter,the dominant species included L. ruconiusChaeturichthys stigmatiasPennahia macrocephalus,and Trichiurus haumela. The abundance of fish species in the coastal waters of northern Beibu Gulf exhibited extremely significant seasonal differences(P<0.01,the same below),with higher abundance observed in summer(146.3×103 ind/km2)compared to winter(36.8×103 ind/km2). However,there was no significant difference in abundance among different sea zones(P>0.05,the same below). The biomass of fish species also showed extremely significant seasonal differences,with higher biomass in summer(1394.73 kg/km2)compared to winter(328.24 kg/km2). There was no significant difference in biomass among different sea zones. In terms of species diversity,the diversity indexes [Shannon-Wiener diversity index(H'),Pielou evenness index(J'),and Margalef species richness index(D)]of fish communities in the northern Beibu Gulf were generally higher in summer compared to winter,but there was no significant difference among different sea zones. ABC curve analysis revealed that the abundance curve of fish species consistently remained above the biomass curve,indicating a moderate to high disturbance level on the fish community structure. It meant that the dominance of the larger fish was weakened,and the fish that grew faster and were relatively small were the predominated ones.【Conclusion】 The resource quantity and diversity indexes of fisheries resources in the northern Beibu Gulf exhibit a declining trend compared to historical levels,and obvious changes are observed in the community structure. Therefore,future efforts should focus on continuous monitoring of fisheries resources,improving the ecological environment,strengthening fisheries resources conservation and management,and reducing human disturbances to ensure the functional diversity and sustainable development of fish communities.

     

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