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应用生态学报 ›› 2017, Vol. 28 ›› Issue (10): 3409-3416.doi: 10.13287/j.1001-9332.201710.040

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基于空间自相关的东海带鱼聚集特征年代际变化

袁兴伟,刘尊雷,金艳,崔学森,周为峰,程家骅   

  1. 中国水产科学研究院东海水产研究所/农业部东海与远洋渔业资源开发利用重点实验室, 上海 200090
  • 收稿日期:2017-02-13 修回日期:2017-07-22 出版日期:2017-10-18 发布日期:2017-10-18
  • 作者简介:袁兴伟,男,1982年生,副研究员.主要从事渔业资源评估研究.E-mail:yuanxw@ecsf.ac.cn
  • 基金资助:

    本文由国家公益性行业(农业)科研专项(201303047)和农业部近海渔业资源调查项目(1999-2011)资助

Inter-decadal variation of spatial aggregation of Trichiurus japonicus in East China Sea based on spatial autocorrelation analysis

YUAN Xing-wei, LIU Zun-lei, JIN Yan, CUI Xue-sen, ZHOU Wei-feng, CHENG Jia-hua*   

  1. East China Sea Fisheries Research Institute, Chinese Academy of Fishery Sciences/Key Laboratory of East China Sea & Oceanic Fishery Resources Exploitation and Utilization, Ministry of Agriculture, Shanghai 200090, China
  • Received:2017-02-13 Revised:2017-07-22 Online:2017-10-18 Published:2017-10-18
  • Supported by:

    This work was supported by the Special Fund for Agro-Scientific Research in the Public Interest (201303047) and the Offshore Fisheries Resources Investigation Program of Ministry of Agriculture of China (1999-2011).

摘要: 海洋鱼类通常以集群的形式分布在特定空间内,具有高度的空间异质性特征.基于1971—2011年中国机轮拖网渔业捕捞统计及底拖网科学调查获取的东海带鱼数据,并结合夏季研究水域内海表温度及黑潮区PN断面表层盐度数据,利用空间统计方法对东海带鱼资源的聚集特征进行年代际分析.全局自相关性分析显示,1971—2011年Moran I指数先减小再增大且均为正值,表明东海带鱼聚集性呈先减弱再增强的趋势;PN断面表层盐度均值变化趋势与之相反.局部自相关性分析显示,除1971年带鱼热点分布受作业水域范围限制而集中在中部外,1981—2011年带鱼分布热点区域呈现先向南部外海移动,随后逐步向北部外海移动的格局,且相应的热点分布范围亦呈现先集中后扩散的趋势.带鱼热点分布区域随海表温度第一模态变化做适应性移动,且均靠近黑潮北分支左侧水域.

Abstract: Marine fish shows high heterogeneity in spatial aggregation. We analyzed the inter-deca-dal variations of stock density for Trichiurus japonicus in East China Sea (ECS) using geo-statistical approaches such as spatial autocorrelation and hotspot analysis, based on the data of T. japonicus from both bottom trawl fishery and research surveys in the open waters of ECS during 1971 to 2011, combined with the sea surface temperature (SST) and surface salinity data in the PN section in August. The global spatial autocorrelation statistics showed that Moran’s I firstly decreased and then went up, indicating that the spatial aggregation patterns of T. japonicus was weakened in the beginning and then increased during 1971 to 2011. The surface salinity in the PN section displayed the opposite trend during the same period. The local spatial autocorrelation statistics showed that the population firstly moved to the southern ECS and then to the northern ECS except in 1971 in which the population concentrated in the middle of ECS because of the restriction of offshore fishing ground. The movement of hotspot areas of T. japonicus adaptively varied with the first EOF mode of SST in summer (sumEOF1), which indicated that the hotspot areas first moved southeastward with decreasing sumEOF1, and moved northeastward with increasing sumEOF1, but all of the hotspot areas were close to the northward branch of the Kuroshio Current.