南海中南部主要经济种类渔业资源声学评估  被引量：13

作　　者：张立[1] 李渊[1] 林龙山[1] 姚壮[1] 晏磊[2] 张鹏[2] ZHANG Li LI Yuan LIN Long-shan YAO Zhuang YAN Lei ZHANG Peng(Third Institute of Oceanography, State Oceanic Administration, Xiamen 361005, China Key Laboratory of South China Sea Fishery Resources Exploitation ＆ Utilization of Ministry of Agriculture, South China Sea Fisheries Research Institute, Chinese Academy of Fishery Sciences, Guangzhou 510300, China)

机构地区：[1]国家海洋局第三海洋研究所,厦门361005 [2]中国水产科学研究院南海水产研究所,农业部南海渔业资源开发利用重点实验室,广州510300

出　　处：《海洋渔业》2016年第6期577-587,共11页Marine Fisheries

基　　金：全球变化与海气相互作用专项(GASI-02-SCS-YSWspr,GASI-02-SCS-YSWaut)

摘　　要：2012年9~10月(秋季)和2013年3~4月(春季),利用科学探鱼仪(Simrad EY60)结合灯光罩网对南海中南部(5°00'N^16°00'N)渔业资源进行了声学调查与评估。通过分析渔业声学数据,并结合渔业资源采样和生物学测定数据,对鸢乌贼(Symplectoteuthis oualaniensis)、鲭科(鲣Katsuwonus pelamis、圆舵鲣Auxis rochei、扁舵鲣Auxis thazard)、鲹科(长体圆鲹Decapterus macrosoma、颌圆鲹Decapterus lajang和无斑圆鲹Decapterus kurroides等)和金枪鱼属(黄鳍金枪鱼Thunnus albacores和大眼金枪鱼Thunnus obesus)等4类大宗经济鱼类的资源尾数和生物量做了初步评估与分析。结果表明,2012年秋季调查海域上述4类经济种类的资源尾数依次为3.67×10^(10)、2.28×10~9、8.78×10~9、0.80×10~9 ind,合计为4.86×10^(10) ind;生物量依次为2.07×10~6、8.62×10~5、1.78×10~5、2.70×10~5t,合计为3.38×10~6t。2013年春季的资源尾数依次为2.98×10^(10)、1.39×10~9、4.40×10~9、0.65×10~9 ind,合计为3.62×10^(10) ind;生物量依次为2.44×10~6、2.68×10~5、2.44×10~5、1.88×10~5t,合计为3.14×10~6t。秋季渔业资源密度较高的海域位于10°00'N^16°00'N、110°00'E^118°00'E;春季渔业资源密度较高的海域位于8°00'N^9°00'N、110°00'E^118°00'E和10°00'N^16°00'N、110°00'E^118°00'E。From September to October in 2012 and from March to April in 2013, the scientific sounder （Simrad EY60） combined with light cover net sampling method was employed to evaluate the acoustic survey and fishery resources in the central and southern part of the South China Sea （5°00＇N -16°00＇N）. The acoustic data were collected according to the pre-set survey route by the dual split beam Simrad EY60 portable scientific sounder （70 kHz and 120 kHz） and the analysis processing was mainly done through Echoview （ version 5.3 ） software. The aqueous layer was from 10 to 200 m and the basic unit of integral voyage was set to 5 nmi. Biological samples collected by a light cover net, each station worked one network, depth was from surface to 100 m. The time to light to lure the fish was 19：00 and buckle cover trapped fish after 2 h . After each hauling, catches were randomly sampled by proportion of category on the deck, all catches were classified and counted, and then measured and recorded by body length （ mantle length or fork length ）, weight, gender, gonad maturity and feeding level of catches. Through the analysis of fisheries acoustic data, and combined with the fishery resources sampling and determination of biological data, the abundance and biomass of Symplectoteuthis oualaniensis, Scombridae （Katsuwonus pelamis, Auxis rochei, Auxis thazard ）, Carangidae （Decapterus macrosoma, Decapterus lajang and Decapterus kurroides etc. ）and Thunnus （Thunnus albacores and Thunnus obesus ）and other large economic fish resources were assessed and analyzed preliminarily. In the two surveys, their proportion of total catch weight was 87. 94% and 83. 39% respectively, and the proportion of total catches mantissa was 87.01% and 82.55% respectively,which were the dominant and major economic species in the South China Sea. Therefore, it＇ s representative that this paper was based on the evaluation and analysis of these four categories, it can also reflect the present situation of fishery resourc

关 键 词：南海 生物量 声学评估 渔业资源 

分 类 号：S932.4[农业科学—渔业资源]