东太平洋长鳍金枪鱼个体大小与钓获深度的关系

长鳍金枪鱼(Thunnus alalunga)具有重要的经济价值,其个体大小与钓获深度有一定的关联。本研究利用2013年东太平洋渔业观察员的数据,将渔获物分为76~85 cm、86~95 cm、96~105 cm、106~115 cm和116~125 cm 5个叉长组,运用悬链线公式得到钓获深度,统计各叉长组渔获个体钩位差异和各钩位渔获个体大小差异,分析个体大小与钓获深度的关系,得到结果如下:渔获物钓获深度范围为61.3~236.1 m。各叉长组主要渔获钩位随叉长增大而增大。各钩位主要渔获个体随序号增大而增大。76~85 cm叉长组的渔获物主要分布在61.3~121.8 m水层,平均钓获深度为(110.6±11.7)m;86~95 cm叉长组的在102.3~174.4 m,平均钓获深度为(144.1±4.5)m;96~105 cm叉长组的在189.4~202.8 m,平均钓获深度为(184.9±1.6)m;106~115 cm叉长组的在214.3~223.6 m,平均钓获深度为(193.8±3.8)m;116~125 cm叉长组的在230.5~236.1 m,平均钓获深度为(219.3±7.2)m。研究结果表明:东太平洋长鳍金枪鱼随叉长增大,栖息深度也加深,二者有相关关系。生产时调整钓具深度可有效保护资源可持续发展。     

金枪鱼延绳钓环形钩和圆形钩钓获率比较

根据"华远渔18号"和"华远渔19号"两艘冰鲜金枪鱼延绳钓渔船2005年9月15日~12月12日在印度洋热带公海水域(0°47′~10°16′N,61°40′~70°40′E)作业期间收集的数据,以每千钩钓获尾数和平均净重,对环型钩与圆型钩对大眼金枪鱼和黄鳍金枪鱼的选择性、钓获率差异等进行了比较研究。结果表明:不同钓具漂移速度下环型钩与圆型钩各自对大眼金枪鱼和黄鳍金枪鱼的选择性无显著差异;不同钓具漂移速度下环型钩与圆型钩之间对大眼金枪鱼和黄鳍金枪鱼的钓获率无显著差异;环型钩与圆型钩之间对大眼金枪鱼和黄鳍金枪鱼渔获物净重无显著差异。     

北太平洋金枪鱼延绳钓钓钩垂直分布及浸泡时间对渔获物的影响

根据中国金枪鱼延绳钓渔业观察员于2018年9—12月在北太平洋公海(150°W—164°W,30°N—37°N)采集的金枪鱼延绳钓渔获数据,分析了钓钩的垂直分布及浸泡时间与渔获物之间的关系。结果表明,11种主要渔获物钓获深度差异很大,鲣(Katsuwonus pelamis)的平均钓获深度最浅,大青鲨(Prionace glauca)最深;除大青鲨和帆蜥鱼(Alepisaurus ferox)外,其他兼捕鱼类的钓钩深度分布与大眼金枪鱼(Thunnus obesus,目标鱼种)之间差异显著;随着浸泡时间的增加,总渔获率呈先增加后下降的趋势,10～14 h内渔获率较高,且在第10小时达到峰值[1.44尾·(千钩·h)~(-1)];浸泡时间在10～16 h内大眼金枪鱼的渔获率较高,且在第11小时达到峰值[0.45尾·(千钩·h)~(-1)]。研究结果可为渔业生产和CPUE的标椎化提供参考,为制定有效减少兼捕鱼种的管理措施提供科学依据。     

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).     

中西太平洋金枪鱼延绳钓主要渔获物垂直结构的初步研究

根据2012年7~11月金枪鱼科学观察员在中西太平洋采集的钩位深度以及渔获物的钓获钩位数据,分析了各钩位的上浮率和钓获鱼种的垂直分布结构,并比较了不同鱼种垂直分布的差异性。结果表明:(1)钓钩绝对上浮率变化范围为0.49~44.73 m,相对上浮率的变化范围为0.65%~16.69%,平均绝对上浮率为23.29 m,平均相对上浮率为8.87%。(2)12种主要渔获钓获深度范围差异很大,大魣(Lampris guttatus)的平均钓获深度最浅,为75.92 m,蓝枪鱼(Makaira nigricans)的平均钓获深度最深,为228.19 m。聚类分析显示12种主要渔获物可以分成3种垂直分布结构。(3)11种主要兼捕渔获钓获深度均与长鳍金枪鱼(Thunnus alalunga)钓获深度呈显著性差异。     

中西太平洋延绳钓兼捕大青鲨渔获率、性比及叉长分析研究

大青鲨(Prionace glauca)是一种分布广泛的大型中上层远洋性鲨鱼,在以金枪鱼等经济鱼种为目标的延绳钓渔业中渔获率较高。根据中国远洋延绳钓渔船2015—2018年在中西太平洋(Western Central Pacific Ocean,WCPO)海域共51个航次采集的兼捕大青鲨数据,分析了该海域兼捕到的大青鲨渔获率、性别及叉长(Fork length,FL)特征。结果显示,大青鲨兼捕的捕捞努力量渔获量(Catch per unit effort,CPUE)在170°30'E—124°50'W、33°30'N—34°40'S范围内分布较高;2015—2018年间大青鲨兼捕CPUE波动较大,以2017年最高,兼捕CPUE与月份之间无显著性差异(P>0.05);大青鲨的雌、雄个体分布范围基本一致,优势叉长区间均为160~220 cm,各自所占比例为89.26%和85.19%,雌、雄个体的叉长分布存在显著性差异(P<0.05),雌雄比例为1.75。     

热带中西太平洋海域大眼金枪鱼摄食生态学

为了解热带中西太平洋海域大眼金枪鱼(Thunnus obesus)的摄食生态学特性,利用金枪鱼延绳钓作业方式,于2018年5月—2019年2月期间,对该海域(2°03′S～11°17′S、163°14′E～173°35′E)的682尾大眼金枪鱼进行了食性分析,并使用方差分析(ANOVA)和有序多元Logistic回归模型,结合圆形统计方法分析了叉长、性别、性腺指数等生物因素以及渔获水深、月相等时空因素对摄食生态位宽度和摄食强度的影响。结果表明：1)叉长范围在81～195 cm的大眼金枪鱼雌雄个体的性别比例为1∶1.85;2)空胃率为25.4%,而在非空胃的个体胃含物中,枪乌贼属(Loligo sp.)、虾类和沙丁鱼属(Sardina sp.)的出现频率较高,依次为40.3%、39.7%、30.1%;3)个体摄食强度以0～2级为主,空胃率随着叉长的增加而增加,高摄食强度的比例随着渔获水深的增加而增加;4)方差分析(ANOVA)结果显示,性别、叉长、月相等因素对Shannon-Wiener多样性指数H′和Pielou均匀度指数J均没有显著影响,但渔获水深对J具有显著影响(P=0.024);...     

金枪鱼延绳钓钓具的最适浸泡时间

根据2010年10月—2011年1月金枪鱼延绳钓海上调查数据,分两种起绳方式,建立每次作业每一根支绳的浸泡时间计算模型。将钓具的浸泡时间以1 h为间隔分别统计每个区间的支绳数量及大眼金枪鱼(Thunnus obesus)、黄鳍金枪鱼(Thunnus albacores)的渔获尾数,并计算其钓获率(CPUE)。结果表明:1)大眼金枪鱼和黄鳍金枪鱼的CPUE都随浸泡时间的增加呈现先增后减的趋势,这是由于饵料的诱引效果变化及渔获的丢失引起的;2)二次曲线可拟合浸泡时间与大眼金枪鱼和黄鳍金枪鱼CPUE的关系;3)大眼金枪鱼和黄鳍金枪鱼CPUE最高的浸泡时间分别为9.9 h和10.1 h。建议:1)今后在金枪鱼延绳钓作业中,保证每一根支绳在水中的浸泡时间为9.5~10.5 h,以提高捕捞效率并减少副渔获物;2)可把延绳钓钓具的浸泡时间作为有效捕捞努力量,并用于CPUE的标准化。研究结果可用于提高捕捞效率并减少副渔获物的技术方案制订,并为渔业生产和CPUE的标准化提供科学参考。     

东太平洋南北部海域大眼金枪鱼生物学特性对比研究

明确大眼金枪鱼(Thunnus obesus)的生物学特征是进行种群资源评估并依此制定和实施养护管理措施的重要前提。为掌握广泛的时间和空间范围内东太平洋大眼金枪鱼种群特征, 本研究利用 2013—2019 年执行东太平洋金枪鱼延绳钓资源探捕调查期间采集的大眼金枪鱼渔获数据, 对东太平洋南、北部海域大眼金枪鱼的叉长、净重、摄食等级、性腺成熟期等生物学特性进行了分析, 结果显示: (1)北部海域大眼金枪鱼的叉长范围为 72~229 cm, 优势叉长为 80~160 cm, 平均叉长(121.53±29.11) cm, 雌雄比为 0.91∶1, 优势性腺成熟期为 III、Ⅳ期; (2)南部海域大眼金枪鱼的叉长范围为 63~209 cm, 平均叉长为(134.87±25.73) cm, 优势叉长组 110~150 cm, 雌雄性比为 0.62∶1, 优势性腺成熟期为 III、Ⅴ期; (3)南北海域大眼金枪鱼的优势摄食等级分别为 1 级和 2 级, 空胃率分别为 46.98%和 3.22%, 总体上摄食强度随叉长的增大而增加; (4) ANCOVA 结果显示, 南部和北部海域叉长与净重的关系存在较明显的差异(P<0.05); (5) ANOVA 结果显示, 大眼金枪鱼雌雄个体性腺成熟差异不显著(P>0.05); (6)钓获后处于存活状态的个体占比较高, 死亡状态仅占 8.52%。研究表明, 东太平洋南北部海域大眼金枪鱼的叉长、性比和摄食强度等生物学特性具有一定的空间异质性。     

中西太平洋金枪鱼围网渔获物组成分析

根据 2 0 0 4年 7月 2 8日至 9月 1日在中西太平洋海域的金枪鱼围网生产调查结果 ,以及“金汇 2号”2 0 0 3年全年的生产数据 ,对中西太平洋金枪鱼围网渔获物组成进行了初步分析。结果显示 ,渔获物种类有鲣鱼 (Katsuwonuspelamis)、黄鳍金枪鱼 (Thunnusalbacares)和大眼金枪鱼 (Thunnusobesus)等 19种 ;渔获物重量组成中鲣鱼占 70 .5 1% ,黄鳍金枪鱼占 2 6 .92 % ,其它鱼类占 2 .5 6 % ;鲣鱼的叉长范围为 2 7～ 81cm ,优势叉长组为 4 0～ 5 0cm ,占 4 1% ;黄鳍金枪鱼叉长范围为 32～ 16 5cm ,优势叉长组为 5 0～ 70cm ,占 33% ,另一优势叉长组为 110～ 130cm ,占 2 0 % ;渔获物重量组成存在海域差异 ,在 16 2°E以东海域鲣鱼比例高于以西海域 ,黄鳍金枪鱼则是在 16 2°E以西海域的比例较高。     

金枪鱼延绳钓渔获性能研究进展

金枪鱼延绳钓渔获性能主要按目标鱼种和兼捕物种渔获效率进行评价。对其研究有助于改进延绳钓渔具渔法, 提高目标鱼种捕捞效率和减少兼捕。本文以时间顺序为主对国内外关于金枪鱼延绳钓渔获性能研究的文献进行梳理, 从钓具选择性、钓钩深度、饵料选择性、环境因素以及钓具浸泡时长等方面概括了金枪鱼延绳钓渔获性能的研究进展, 并提出存在的不足和建议, 为金枪鱼延绳钓渔获性能的研究提供参考。前人研究取得的成果有: (1)不同鱼种最佳作业深度和钓具浸泡时长不同; (2)较大尺寸的圆形钩能减少兼捕; (3)拟饵也具有选择性, 鱼类饵料和蓝色染色饵料有利于减少兼捕; (4)具体水层的环境因素对延绳钓渔获性能影响较大。建议今后金枪鱼延绳钓渔获性能研究应: (1)确定钓钩最佳沉降速度和深度; (2)分水层建立不同物种渔获性能预测模型; (3)针对不同的目标鱼种探索最佳尺寸和钩形; (4)研究不同气味和颜色的饵料或拟饵对物种选择性的影响; (5)考虑诱饵、钓钩类型和尺寸和钓具浸泡时长对渔获率、死亡率、兼捕率和兼捕物种释放后存活率的潜在协同效应。     

Do habitat models accurately predict the depth distribution of pelagic fishes?

Habitat models are used to correct estimates of fish abundance derived from pelagic longline fishing gear. They combine information on hook depth with the species’ preferences for ambient environmental conditions to adjust the gear's catchability. We compare depth distributions of bigeye tuna (Thunnus obesus) catch predicted by a habitat model with distributions derived from data collected by observers on longliners in the tropical Pacific Ocean. Our analyses show that the habitat model does not accurately predict the depth distribution of bigeye tuna; its predictions are worse than those from models that assume no effect of depth on catches. Statistical models provided superior fits to the observed depth distribution. The poor performance of the habitat model is probably due to (1) problems in estimating hook depth, (2) fine‐scale variations in environmental conditions, (3) incomplete knowledge of habitat preferences and (4) differences between the distribution of bigeye tuna and their vulnerability to longline gear.     

吉尔伯特群岛海域延绳钓渔场大眼金枪鱼的环境偏好

为了掌握基里巴斯吉尔伯特群岛附近海域大眼金枪鱼的环境偏好,2009年9月至12月,金枪鱼延绳钓船"深联成719"在该海域进行了调查。利用仪器获取海洋环境数据,结合每天渔获数据,应用逐步回归方法,建立钓钩深度预测模型,计算大眼金枪鱼在各水层、温度、盐度、叶绿素、含氧量、水平海流和垂直海流范围内的渔获率,渔获率最大的各环境因子范围为大眼金枪鱼偏好的环境。结果表明:(1)大眼金枪鱼偏好的水层、水温、盐度、叶绿素、含氧量、水平海流和垂直海流范围分别为200.0~240.0 m、14.0~15.0℃、35.00~35.10、0.24~0.26μg/L、3.0~4.0 mg/L、0.00~0.20 m/s和0.03~0.04 m/s;(2)一般情况下,接近成熟的大眼金枪鱼偏好的水温为14.0~17.0℃;(3)大眼金枪鱼的适盐性较广;(4)溶解氧高于门限值(0.8 mg/L)时,大眼金枪鱼的分布由其它环境因子决定。     

Catch rate and at‐vessel mortality of circle hooks versus J‐hooks in pelagic longline fisheries: A global meta‐analysis

We conducted a meta‐analysis of literature reporting on the use of circle hooks and J‐hooks in pelagic longline fisheries. Our study included more data than previous meta‐analyses of the effects of hook type, due to both a larger number of relevant studies available in recent years and a more general modelling approach. Data from 42 empirical studies were analysed using a random effects model to compare the effects of circle hooks and J‐hooks on catch rate (43 species) and at‐vessel mortality (31 species) of target and bycatch species. Catch rates with circle hooks were greater for 11 species, including four tuna species, six shark species and one Istiophorid billfish. Catch rates on circle hooks were lower for seven species, including two Istiophorid billfishes and two species of sea turtle. At‐vessel mortality was significantly lower with circle hooks in 12 species, including three tuna species, three Istiophorid billfishes, swordfish (Xiphias gladius) and three shark species. No species had significantly greater at‐vessel mortality when captured with a circle hook rather than a J‐hook. While our general approach increased model variability compared to more detailed studies, results were consistent with trends identified in previous studies that compared the catch rates and at‐vessel mortality (between hook types) for a number of species. Our results suggest that circle hooks can be a promising tool to reduce mortality of some bycatch species in pelagic longline fisheries, although the effects depend on the species and the metric (catch rate or at‐vessel mortality), emphasizing the need for fishery‐specific data in conservation and management decisions.     

A comparison of circle hook and J hook performance in a western equatorial Atlantic Ocean pelagic longline fishery

Catch composition, catch rates, hooking location, and status at release at haulback were monitored during 81 experimental sets (launches and hauling fishing per day) in a commercial pelagic longline fishery targeting tuna in the equatorial South Atlantic Ocean. Circle hooks (size 18/0, 0° offset) and J-style hooks (size 9/0, 10° offset) with squid baits were deployed in an alternating fashion. The catch composition was not significantly different for most species between the two types of hooks, except for bigeye tuna, which showed a significantly higher proportion of catches on the circle hook (p ? 0.001) and for sailfish, pelagic stingray, and leatherback sea turtle, which had higher catch rates on the J-style hook (p = 0.018, p ? 0.001, and p = 0.044, respectively). Bigeye and yellowfin tuna showed significantly higher rates of survival at the time of gear retrieval with circle hooks, and circle hooks hooked bigeye tuna, yellowfin tuna, swordfish, and sailfish significantly more often externally than internally. Our results suggest that the use of size 18/0, 0° offset circle hooks in the equatorial pelagic longline fishery may increase the survival of bycatch species at the time of gear retrieval with minimal effects on the catches of target species.     

Effects of 17/0 circle hooks and bait on fish catches in a Southern Atlantic swordfish longline fishery

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The development of the northern European fishery for north Atlantic bluefin tuna Thunnus thynnus during 1900–1950

North Atlantic bluefin tuna, Thunnus thynnus, used to migrate to northern European waters (Norwegian Sea, North Sea, Skagerrak, Kattegat, and Øresund) where it supported important commercial and sportfisheries. The species disappeared from the region in the early 1960s and the species is now still extremely rare. The factors which led to the development of the fishery and its subsequent decline remain unclear and poorly documented. This investigation documents the development of the fishery in terms of landings, effort, and gears with focus on the time period from 1900 to 1950 when landings were increasing. The species was frequently sighted while fishermen were targeting other species (herring, mackerel) and occasionally was caught as bycatch with these and other species. Information from scientifically trained observers demonstrate that tuna schools were common in the North Sea for 2–3 months during the summers of 1923–1931. As fishermen realized that the species had market value, new catch methods were developed and employed. These included harpoon-rifle, improved hook and line methods, and hydraulically operated purse seines. Landings rose sharply as did the number of vessels and the capacity of processing facilities for bluefin tuna. Bluefin tuna in this area were generally medium-large (>50 kg whole weight). The most important countries which participated in bluefin tuna fisheries in this period were Norway, Denmark and Sweden, but bluefin tuna were also exploited by France, Germany, The Netherlands and the United Kingdom. Similarly sportfishing increased in popularity in some of these countries and attracted many foreign participants. The increase in landings between 1900 and 1950 was driven particularly by an increase in fishing effort and technology. We found no evidence that the increase was due to a temperature-related shift in habitat into the region. Our results demonstrate that the species was an important part of the ecosystem at least back to the early 1900s and that commercial and recreational fisheries were well established in northern European waters before official ICCAT records.     

环型和圆型钓钩的力学性能

为了在我国金枪鱼延绳钓渔业中推广应用圆型钓钩,必须掌握圆型钓钩、环型钓钩受力时的位移和应变等力学性能。实验对环型钓钩3.4~4.5和圆型钓钩14/0~4.5采用万能实验机进行拉伸实验,利用数字图像相关测试系统对实验过程中钓钩的位移、应变等进行动态测量。结果显示:(1)当拉力为0~500 N、500~800 N时,圆型钩14/0~4.5最大应变分别为0.012、0.018,环型钩3.4~4.5最大应变分别为0.010、0.025;(2)当拉力为0~500 N、500~800 N时,圆型钩14/0~4.5最大位移分别为5.16 mm、8.50 mm,环型钩3.4~4.5最大位移分别为4.36 mm、6.01 mm。环型钓钩3.4~4.5为4.36 mm。对环型钓钩3.4~4.5和圆型钓钩14/0~4.5应变、位移进行卡方检验,发现环型钓钩3.4~4.5、圆型钓钩14/0~4.5力学性能无显著性差异。研究建议今后在金枪鱼延绳钓渔业中推广应用圆型钓钩。     

Environmental preferences of longlining for yellowfin tuna (Thunnus albacares) in the tropical high seas of the Indian Ocean

A survey of yellowfin tuna, Thunnus albacares , fishing ground was carried out on board of the Chinese longliners from September 15 to December 12, 2005 in the tropical high seas of the Indian Ocean. The depth at which each yellowfin tuna was hooked was estimated using a stepwise regression analysis of theoretical hook depth and observed average hook depth measured using a temperature depth recorder. Water temperature, salinity, chlorophyll  a , dissolved oxygen and thermocline, which are important variables influencing yellowfin tuna habitats, were measured in the survey. Catch rates of yellowfin tuna were then analyzed with respect to depth, temperature, salinity, chlorophyll  a , dissolved oxygen and thermocline. We suggest that the optimum ranges of swimming depth, water temperature, chlorophyll  a and dissolved oxygen concentration for yellowfin tuna are 100.0–179.9 m, 15.0–17.9°C, 0.090–0.099  μ g L⁻¹, 2.50–2.99 mg L⁻¹, respectively; that salinity has less influence on the vertical distribution of adult yellowfin tuna; and that yellowfin tuna are mainly distributed within the thermocline in the high seas of the Indian Ocean. Our results match the yellowfin tuna's vulnerability to deep longline fishing gear well.