印度洋公海温跃层与黄鳍金枪鱼和大眼金枪鱼渔获率的关系

2005年9月15日-12月12日,金枪鱼延绳钓渔船"华远渔18、19号"对印度洋公海进行了金枪鱼渔业调查.利用多功能水质仪(XR-620)、温盐深仪(CTD SBE37SM)和微型温度深度计(TDR-2050)等获取海洋环境数据,得出作业海域的温跃层深度和强度,结合每天作业时记录的渔获数据,分别计算黄鳍金枪鱼和大眼金枪鱼在温跃层内和深水层的渔获率,研究温跃层与黄鳍金枪鱼和大眼金枪鱼渔获率之间的关系.结果表明:(1)2艘船分别有60.9%和60.0%的作业天数中,温跃层内黄鳍金枪鱼渔获率较高,"华远渔18号"船在温跃层内和温跃层以下的平均渔获率分别为18.22尾每千钩和6.04尾每千钩,"华远渔19号"船温跃层内和温跃层以下平均渔获率分别为2.22尾每千钩和1.31尾每千钩.通过t-检验成对双样本均值分析,温跃层以内和温跃层以下黄鳍金枪鱼总平均渔获率有显著性差异(P=0.02<0.05),温跃层以内比温跃层以下的渔获率明显要高;(2)2艘船分别有69.6%和100%的作业天数中,温跃层以下水深大眼金枪鱼渔获率较高,"华远渔18号"温跃层以内和温跃层以下平均渔获率分别为4.18尾每千钩和4.88尾每千钩."华远渔19号"温跃层以内和温跃层以下平均渔获率分别为0.10尾每千钩和2.57尾每千钩.大眼金枪鱼渔获率在温跃层以下水深较高.通过t-检验成对双样本均值分析,温跃层以内和温跃层以下大眼金枪鱼总平均渔获率无显著性差异(P=0.070.05),但对"华远渔19号"船的渔获率数据经t-检验发现大眼金枪鱼在温跃层以内和温跃层以下的渔获率有显著性差异(P=0.00<0.05).     

南海黄鳍金枪鱼性腺发育形态观察和组织学研究

为了解南海黄鳍金枪鱼（Thunnus albacares）性腺发育规律和繁殖特征,2021年5月—2022年5月,用延绳钓在南海（17.41°N,110.61°E）采集黄鳍金枪鱼41尾,体质量0.6～35.0 kg,采用解剖和常规组织学方法,研究南海黄鳍金枪鱼的性腺发育周期和各发育时期性腺中生殖细胞的形态特征。结果表明,黄鳍金枪鱼卵母细胞发育共分6个时相,卵巢发育分为6个时期：卵原细胞增殖期、初级卵母细胞生长期、皮质液泡形成期、卵黄颗粒积累期、排卵期、退化期。黄鳍金枪鱼为分批非同步产卵类型;精巢为典型的小叶型,发育过程分为6个时期：精原细胞分化期、精原细胞增殖期、早期成熟期、中期成熟期、排精期、退化期。本文阐明了黄鳍金枪鱼性腺在不同发育时期的形态、组织结构特征及发育规律,以丰富黄鳍金枪鱼繁殖生物学基础资料,并为其人工繁育提供科学依据。     

热带金枪鱼箭形标志50年回收数据比较

<正>在过去50年里,全球范围内实施了众多热带金枪鱼箭形标志植入计划。通过这些计划,在太平洋、大西洋,最近主要在印度洋有140万尾金枪鱼被植入了标志,其中的主要鱼种是鲣鱼(85.8万尾)和黄鳍金枪鱼(36万尾)。有17.3万尾植入标志的金枪鱼此后被重新捕获(鲣鱼9.48万尾,黄鳍金枪鱼4.91万,大眼金枪鱼2.96万),这为取得广泛而多样的科学结论提供了重要机会。     

韩国金枪鱼渔业现状和发展趋势

本文主要叙说了韩国在太平洋和中西太平洋地区最近几年来金枪鱼渔业发展的情况。2002年韩国存太平洋地区作业渔船188艘,总的金枪鱼渔获量估计为266,466t,其中围网渔船26艘,产量206,150t,延绳钓渔船162艘,产量60,316t。2002年4种主要种类:鲣鱼、黄鳍金枪鱼、大眼金枪鱼和长鳍金枪鱼的产量占太平洋总产量的96％以上,其中鲣鱼173,693t,黄鳍金枪鱼48,424t,大眼金枪鱼31,754t和长鳍金枪鱼2,470t。     

南朝鲜远洋金枪鱼围网渔业的现状

金枪鱼渔业和虾类渔业一样，是世界性重要的渔业。金枪鱼(蓝金枪、副金枪、长鳍金枪、黄鳍金枪鱼等)是大洋洄游性鱼类，广泛分布于太平洋、印度洋、大西洋，其中以太平洋的产量为最高(约占70％)，其次是大西洋和印度洋。     

南海北部黄鳍金枪鱼幼鱼和成鱼鳃的组织学比较研究

本研究运用光学显微镜、扫描电镜以及透射电镜技术研究了南海北部黄鳍金枪鱼(Thunnus albacares)幼鱼和成鱼鳃的显微组织结构、鳃表面超微结构和鳃小片内部超微结构特点。结果表明, 黄鳍金枪鱼鳃丝顶端弯曲, 鳃弓、 鳃丝和鳃耙表面具有不同类型的细胞。表面超微结构研究显示黄鳍金枪鱼的鳃具有高的片层密度、独特的斜向血流模式以及鳃的融合特性, 幼鱼和成鱼鳃结构之间存在显著不同。鳃小片内部超微结构研究显示鳃扁平上皮细胞覆盖于鳃丝和鳃小片表面, 顶端存在微绒毛或微脊结构, 相对幼鱼, 成鱼具有高的细胞质密度; 离子细胞主要分布于鳃小片以及鳃小片基部, 幼鱼离子细胞顶端开口为微绒毛, 成鱼为小坑状。本研究阐明了黄鳍金枪鱼幼鱼和成鱼鳃的组织结构, 丰富了黄鳍金枪鱼鳃的基础生物学资料, 为研究高速游泳鱼类鳃的形态特征与其高速游泳习性之间的关系提供了参考。     

热带中西太平洋海域黄鳍金枪鱼的摄食生物学特性

利用延绳钓作业方式,于2018年5月—2019年2月对热带中西太平洋海域(163°14'E—173°35'E,2°03'S—11°17'S)的黄鳍金枪鱼(Thunnus albacares)进行了取样.对取样的919尾黄鳍金枪鱼叉长进行了组成和性比分析,对其中的551尾进行了摄食生物学研究,并使用方差分析(ANOVA)...     

南海及临近海域黄鳍金枪鱼渔场时空分布与海表温度的关系

为得到南海及临近海域黄鳍金枪鱼(Thunnus albacores)渔场最适宜栖息海表温度(SST)范围,基于美国国家海洋大气局(NOAA)气候预测中心月平均海表温度(SST)资料,结合中西太平洋渔业委员会(WCPFC)发布的南海及临近海域金枪鱼延绳钓渔业数据,绘制了月平均SST和月平均单位捕捞努力量渔获量(CPUE)的空间叠加图,用于分析南海及临近海域黄鳍金枪鱼渔场CPUE时空分布和SST的关系。结果表明,南海及临近海域黄鳍金枪鱼CPUE在16℃~31℃均有分布。在春季和夏季(3~8月),位于10°~20°N的大部分渔区CPUE较高,其南北侧CPUE较低;而到了秋季和冬季(9月到次年2月),高产渔场区域会向南拓宽。CPUE在各SST区间的散点图呈现出明显的负偏态分布,高CPUE主要集中在26℃~30℃,最高值出现在29℃附近;在22℃~26℃范围内CPUE散点分布较为零散,但在这个范围也会出现相当数量的高CPUE;在22℃以下的CPUE几乎属于低CPUE和零CPUE;零CPUE的平均SST为26.7℃(±3.2℃),低CPUE的平均SST为27.8℃(±2.1℃),高CPUE的平均SST为28.4℃(±1.5℃),高CPUE在各SST区间的分布要比零CPUE和低CPUE更为集中。采用频次分析和经验累积分布函数计算其最适SST范围,得到南海及临近海域黄鳍金枪鱼最适SST为26.9℃~29.4℃。本研究初步得到南海及临近海域黄鳍金枪鱼中心渔场时空分布特征及SST适宜分布区间,可为开展南海及临近海域金枪鱼渔情预报工作提供理论依据和参考。     

中西太平洋终于成立了区域性的金枪鱼类资源的管理委员会

据《2001年金枪鱼渔业年监》的统计资料，2000年世界三大洋金枪鱼类(大眼、黄鳍、长鳍金枪鱼和鲣鱼，下同)的总产量为380．9万t，其中捕自大西洋的为44．4万t(占12％)，捕自印度洋的为85．5t(占22％)，捕自中东太平洋的为61.3万t(占16％)，捕自中西太平洋的为189．7万t(占50％)，表明中西太平洋是为全球捕捞金枪鱼类的重要水域。     

中西太平洋金枪鱼渔业概况

1中西太平洋渔场中西太平洋渔场是指从北纬20°至南纬25°,西经 175°以西的太平洋海域,这一海域中金枪鱼鱼类资源非常丰富。在赤道至北纬5°的海域间,黄鳍金枪鱼的钓获率很高,在东经130-150°的海域里,黄鳍金枪鱼在4、5、6 月和11月时钓获率也很高,而1月和8月的钓获率最低。     

Population structure of bigeye tuna (Thunnus obesus) in the Indian Ocean inferred from mitochondrial DNA

Population structure of bigeye tuna (Thunnus obesus) in the Indian Ocean, Western Pacific Ocean and Eastern Atlantic Ocean were investigated using mitochondrial (mt) DNA sequence data. A total of 380 specimens were sampled from four regions in the Indian Ocean (Cocos Islands, Southeastern Indian Ocean, Southwestern Indian Ocean and Seychelles), and one region each from the Atlantic (Guinea) and the Western Pacific Oceans, respectively. The reconstructed neighbor-joining phylogeny based on the first hypervariable region (HVR-1) of the mitochondrial control region sequence data showed that haplotypes from the Indian and the Western Pacific Oceans could be grouped into two clades (Clades I and III), whereas in the Atlantic Ocean, two divergent clades (Clades I and II) coexisted. A single stock of bigeye tuna in the Indian Ocean was supported by hierarchical AMOVA tests and pairwise Φ_ST analyses. Clade I was the dominant population in the Indian and the Western Pacific Oceans which consisted of more than 96% of the specimens and Clade II was a specific group exclusively restricted to the Atlantic Ocean which made up 77% of its specimens. A new minor Clade, Clade III was discovered in the Indian and the Western Pacific Ocean. Overall, these analyses indicated that bigeye tuna of the Indian Ocean constituted a single panmictic population.     

Genetic population structure of the Pacific bluefin tuna Thunnus orientalis and the yellowfin tuna Thunnus albacares in the North Pacific Ocean

The genetic population structure of the Pacific bluefin tuna (PBF) Thunnus orientalis and the yellowfin tuna (YFT) T. albacares in the North Pacific Ocean was investigated. The polymorphism of microsatellite (SSR) loci and sequences of mitochondrial DNA control region (mtCR) were analyzed for 71 samples of PBF from Japan and Mexico and 45 samples of YFT from Japan and Panama. In the SSR analyses, both single-locus (?0.010 to 0.008 in PBF and ?0.023 to 0.020 in YFT) and global multilocus (0.003 in PBF and ?0.002 in YFT) F _ST values among the geographic populations were low and not significant in these species. In the mtCR analyses, neither the neighbor-joining tree nor the minimum spanning network showed genetic differentiation among the geographic populations in each species. The pairwise F _ST values among the geographic populations of them (?0.005 in PBF and ?0.020 to ?0.014 in YFT) were low and not significant. Our SSR and mtCR data suggested that genetic differentiations were not evident among the eastern and western populations in the North Pacific Ocean either in PBF or in YFT. Mismatch distributions, demographic parameters, and neutrality tests suggested that sudden population expansion of PBF and YFT in the North Pacific Ocean occurred 628,000–731,000 and 450,000–525,000 years ago, respectively.     

印度洋长鳍金枪鱼资源评估的影响因素分析

多个模型被用于印度洋长鳍金枪鱼(Thunnus alalunga)的资源评估,但这些模型的评估结果均存在较大的不确定性,为此,本文对影响印度洋长鳍金枪鱼资源评估的因素进行了分析。分析结果认为:(1)由于渔业数据存在不报、漏报或混报及采样样本数过低、采样协议出现变化等问题,造成印度洋长鳍金枪鱼渔业的渔获量、体长组成或年龄组成数据存在质量问题;(2)尽管对单位捕捞努力渔获量(catch per unit effort,CPUE)进行了标准化,但目标鱼种变化及捕捞努力量空间分布变化仍严重影响了标准化CPUE数据的质量;(3)印度洋长鳍金枪鱼的种群生态学及繁殖生物学研究仍比较薄弱,种群结构、繁殖、生长、自然死亡信息比较缺乏,在资源评估中,相关参数设置需借用其他洋区的研究结果;(4)海洋环境对印度洋长鳍金枪鱼的资源变动与空间分布具有显著影响,但评估模型较少考虑海洋环境的影响。由于上述问题的存在,导致当前评估结果存在较大不确定性。未来,应继续探索提高资源评估质量的方法,同时研究建立管理策略评价框架,以避免渔业资源评估结果的不确定性对该渔业可持续开发的影响。     

Separation of the Taiwanese regular and deep tuna longliners in the Indian Ocean using bigeye tuna catch ratios

ABSTRACT:   Taiwanese longline (LL) fisheries operating in the Indian Ocean usually target albacore tuna (ALB), swordfish (SWO) and yellowfin tuna (YFT) using regular LL. Bigeye tuna (BET), however, is targeted using deep LL. Thus, these two types of LL are considered to be different gears as they target different tuna species. Regular or deep LL fishing is defined by number of hooks per basket (NHB): regular LL if 6 ≤ NHB ≤ 10 and deep LL if 11 ≤ NHB ≤ 20. However, NHB information was available in only some of the recent LL data (1995–1999). This situation had caused problems of biased results in stock analysis in the past. Thus, the objective of our study was to explore an effective method to separate the two types of LL fishing by considering species composition. Some intervals of BET catch ratios were found to be effective in separating the regular and deep LL catches, i.e. 0.0 ≤ BET/(BET + ALB + SWO) ≤ 0.4 and 0.8 ≤ BET/(BET + ALB) ≤ 1.0, respectively. Using these two separators, the LL known data set (1995–1999) (learning data set) was classified. Correct classification occurred in 67.7% of the data, while 23.1% of the data were unclassified (11.9% due to zero catches and 11.2% due to classification into both LL types), and 9.2% were misclassifications. Then, using the methods developed, the LL unknown data set in the historical data (1979–1999) was classified and nominal CPUE values were calculated for four species. The CPUE trends based on this study were likely to be more reliable than those of previous studies.     

印度洋公海海域黄鳍金枪鱼鱼体脂肪含量与生物学参数的关系

研究黄鳍金枪鱼鱼体脂肪含量与其生物学参数的关系有利于确定其鱼体脂肪含量与生物学参数是否有关并掌握鱼类的生长、繁殖和渔场特性。本研究根据2013年10月到2014年4月在印度洋中西部海域延绳钓渔业调查中采集到的91尾黄鳍金枪鱼,测定了其脂肪含量和生物学参数等,应用频率统计法分析了其脂肪含量的时空分布,脂肪含量与性别、体质量、性腺成熟度的关系;应用GAM方法分析了脂肪含量与条件系数(K)、纯重系数(SI)、性腺指数(GSI)、叉长(FL)的关系。结果显示:(1)黄鳍金枪鱼的脂肪含量为0.1%~26.7%,平均脂肪含量为6.94%;(2)黄鳍金枪鱼10—12月份月平均脂肪含量总体较低,12月份以后月平均脂肪含量呈上升趋势;2°N~3°N,59°E~60°E区域的平均脂肪含量最高,为15.3%,7°S~8°S,44°E~45°E区域的最低,为1.2%,两者之间具有显著性差异;(3)各性别、体质量组、性腺成熟度、叉长组的脂肪含量无显著性差异;(4)黄鳍金枪鱼脂肪含量与条件系数(K)、纯重系数(SI)、性腺指数(GSI)、叉长(FL)均无显著相关性。研究表明:(1)3、4月份黄鳍金枪鱼开始进入产卵期;(2)2°N~3°N,59°E~60°E可能是一重要的产卵场;(3)雌性的繁殖能力与鱼体脂肪含量无显著相关性。     

Evidence for fine geographical scale heterogeneity in gene frequencies in yellowfin tuna (Thunnus albacares) from the north Indian Ocean around Sri Lanka

Yellowfin tuna are currently considered by the member nations of the Indian Ocean Tuna Commission to constitute a single stock in the Indian Ocean due to a lack of knowledge about yellowfin tuna population structure in this region. Previous studies of Indian Ocean yellowfin tuna based on morphology and fisheries data have hinted at the presence of multiple stocks in the region, and further, that stocks may mix in the north western Indian Ocean around Sri Lanka. To better understand the genetic stock structure of yellowfin tuna in the north western Indian Ocean, we examined genetic variation in 285 yellowfin individuals collected over a period of 4 years from six fishing grounds around Sri Lanka and a single fishing ground in the Maldive Islands. We screened variation in both the mitochondrial ATPase 6 and 8 region (498 bp) and three microsatellite loci. Significant genetic differentiation was detected among sites for mitochondrial DNA (Φ_ST = 0.1285, P < 0.001) and at two microsatellite loci (F_ST = 0.0164, P < 0.001 and F_ST = 0.0064, P < 0.001), while spatial analysis of molecular variance of mtDNA data identified three genetically heterogenous groups namely; western, south eastern and all remaining sites. These results suggest the possibility that genetically discrete yellowfin tuna populations may be present in the north western Indian Ocean.     

世界主要金枪鱼捕捞产量分析

根据FA0 1950 ～ 2011年世界主要金枪鱼类渔业生产数据统计,将长鳍金枪鱼、黄鳍金枪鱼、大眼金枪鱼和鲣鱼等8种世界主要金枪鱼类每10年的产量总和按不同鱼种和海域进行了总结.结果显示,鲣鱼的累计总产量最高,其平均年产量涨幅最快;除马苏金枪鱼年平均产量有所下降,北方蓝鳍金枪鱼保持稳定外,其他主要金枪鱼类均有增长,但平均增长率最高的是青干金枪鱼.各主要渔区中以中西太平洋海域累计总产量最高,平均年产量有上升趋势,大西洋海域以中东大西洋为产量最高,印度洋海域以西印度洋为产量最高,平均增长率以印度洋海域为最高,其他海域相对持平.我国（包括台湾省）捕获累计总产量最高的是鲣鱼,为418×104 t,占世界总产量比例最高的是长鳍金枪鱼,为22.9％.我国（包括台湾省）主要金枪鱼类捕获总产量占世界总产量比例最高为东南大西洋海域,最低为东南太平洋海域.论文结合世界主要金枪鱼类以及主要捕捞海域的开发现状和我国国情,提出我国目前面临的几点困难以及发展壮大我国金枪鱼渔业的建议.     

Feeding habits of skipjack tuna Katsuwonus pelamis and other tuna Thunnus spp. juveniles in the tropical western Pacific

ABSTRACT: The feeding habits of skipjack tuna Katsuwonus pelamis juveniles (8.5–66.8 mm standard length) were examined, collected from the tropical western Pacific in October to December 1994, and their habits were compared with those of the other tuna Thunnus spp. juveniles (9.8–55.3 mm standard length). The indices, frequency of occurrence of each food item in the total number of stomachs examined (% F ), percentage of number of each food item to the total number of all food items identified (% N ), percentage of wet weight of each food item to the total wet weight of all food items identified (% W ), and relative importance of each food item ( IRI ) were estimated in the north equatorial current (NEC) and the north equatorial countercurrent (NECC) areas. The most dominant prey item of skipjack juveniles in the two areas was fish larvae. Other major prey items in the NEC area were Euphausiacea, Amphipoda, and Copepoda; whereas those in the NECC area were Copepoda, Cephalopoda, Euphausiacea, and Amphipoda. In the other tuna juveniles, the IRI of fish larvae in the two areas was remarkably high. Other prey, Euphausiacea and Cephalopoda in the NEC area only and Cephalopoda in the NECC area, were also found. These results indicate that the skipjack juvenile is primarily a piscivorous feeder although they also depend on various other prey organisms, whereas the other tuna juveniles are stronger piscivorous feeders.     

渔获量不确定性对印度洋大眼金枪鱼资源评估的影响

大眼金枪鱼(Thunnus obesus)是最具经济价值的热带金枪鱼类,其资源状况一直是区域性金枪鱼渔业管理组织关注的重点。由于多种渔业作业、捕捞船队构成复杂,印度洋大眼金枪鱼的历史渔获量统计存在一定的偏差(Bias),但国际上近些年开展资源评估时都忽略了这一偏差。本研究根据1979~2015年的年渔获量、年龄结构渔获量及相对丰度指数数据,运用年龄结构资源评估模型(ASAP)对印度洋大眼金枪鱼资源进行评估,重点考查渔获量的不确定性(观测误差和统计偏差)对资源评估结果的影响。结果显示,印度洋大眼金枪鱼当前资源总体没有过度捕捞,但2015年初显示轻微的过度捕捞,通过对比基础模型与8个灵敏度分析模型的评估结果发现,渔获量观测误差(CV)的预设对资源开发状态的判断有一定的影响。当渔获量统计偏差调整量为15%时(即历史渔获量被低估了),评估结果与基础模型基本一致;统计偏差调整量为20%时,评估结果有过度捕捞的趋势。本研究结果表明,资源评估模型中渔获量观测误差的设定和历史渔获量统计偏差均会对评估结果产生影响,后者更为明显,因此,二者均不能忽略。     

印度洋中南部水域金枪鱼延绳钓钓钩钩型对钓获对象的选择性

基于2008年9月至2009年4月在印度洋中南部水域金枪鱼延绳钓渔场收集的数据,研究分析和比较了3种钓钩钩型(传统金枪鱼钩、“J”形钩和圆形钩)的渔获效益及对钓捕对象的选择性。结果表明:(1) 从渔获种类上看,大眼金枪鱼和大青鲨金枪鱼钩钓获比例最高,“J”形钩和圆形钩的钓获比例相当;而长鳍金枪鱼则为金枪鱼钩钓获比例最高,其次为“J”形钩和圆形钩。(2) 大眼金枪鱼存活率以金枪鱼钩最高,“J”形钩最低;长鳍金枪鱼则为“J”形钩稍高于圆形钩,金枪鱼钩最低;大青鲨则以圆形钩最高,“J”形钩最低。(3) “J”形钩钓获的长鳍金枪鱼和鲨鱼平均叉长较金枪鱼钩和圆形钩稍大;而金枪鱼钩钓获的大眼金枪鱼平均叉长较圆形钩和“J”形钩稍大。(4) 3种钩型钓获的长鳍金枪鱼、大眼金枪鱼和大青鲨叉长分布均不存在显著性差异。