{"title":"耳石元素组成显示日本周边水域日本鲭(Trachurus japonicus)幼鱼和幼鱼对栖息地利用的差异","authors":"Yuki Fujinami, Motomitsu Takahashi, Chiyuki Sassa, Yuko Hiraoka, Hiroyuki Kurota, Seiji Ohshimo","doi":"10.1111/fog.12699","DOIUrl":null,"url":null,"abstract":"Trace element analysis of otoliths from core to edge was used to reveal differences in habitats of larvae and early juveniles of Japanese jack mackerel (<jats:styled-content style=\"fixed-case\"><jats:italic>Trachurus japonicus</jats:italic></jats:styled-content>) caught in the East China Sea (ECS), Pacific Ocean, and Sea of Japan. Multi‐element signatures (Sr:Ca, Mg:Ca, Na:Ca, K:Ca, and Ba:Ca) were analyzed with multivariate statistics to determine whether these element signatures provide insight into regional population structure. The median values of elements: Ca ratios in otolith core region differed significantly among areas, with most elements between the ECS and the Pacific Ocean or Sea of Japan showing significant differences. The Sr:Ca ratios exhibited a V‐shaped trend from the otolith core to the edge, which was likely related to the vertical habitat layer shift of larvae and early juveniles of <jats:styled-content style=\"fixed-case\"><jats:italic>T. japonicus</jats:italic></jats:styled-content>. Canonical analysis of principal coordinates using the element: Ca ratios and the hatching day were re‐classified according to the sampling area with higher accuracy in the ECS (88–95%) and the Sea of Japan (76–83%) compared to the Pacific Ocean (69–72%). These results indicate that the proportion of eggs, larvae, and early juveniles transported by the Kuroshio Current from the southern ECS—the main spawning ground—to the Pacific Ocean or the Sea of Japan is low and that juveniles distributed in the coastal waters off southwestern Japan may have originated from local spawners. These results suggest that determining the elemental composition of larvae and juveniles of <jats:styled-content style=\"fixed-case\"><jats:italic>T. japonicus</jats:italic></jats:styled-content> is effective in determining the habitat differences of this species in the three regions. These findings will help to understand population structure and recruitment process of this species around Japan.","PeriodicalId":51054,"journal":{"name":"Fisheries Oceanography","volume":"2 1","pages":""},"PeriodicalIF":1.9000,"publicationDate":"2024-09-03","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Otolith elemental composition indicates differences in the habitat use for larvae and early juveniles of Japanese jack mackerel (Trachurus japonicus) in the waters around Japan\",\"authors\":\"Yuki Fujinami, Motomitsu Takahashi, Chiyuki Sassa, Yuko Hiraoka, Hiroyuki Kurota, Seiji Ohshimo\",\"doi\":\"10.1111/fog.12699\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Trace element analysis of otoliths from core to edge was used to reveal differences in habitats of larvae and early juveniles of Japanese jack mackerel (<jats:styled-content style=\\\"fixed-case\\\"><jats:italic>Trachurus japonicus</jats:italic></jats:styled-content>) caught in the East China Sea (ECS), Pacific Ocean, and Sea of Japan. Multi‐element signatures (Sr:Ca, Mg:Ca, Na:Ca, K:Ca, and Ba:Ca) were analyzed with multivariate statistics to determine whether these element signatures provide insight into regional population structure. The median values of elements: Ca ratios in otolith core region differed significantly among areas, with most elements between the ECS and the Pacific Ocean or Sea of Japan showing significant differences. The Sr:Ca ratios exhibited a V‐shaped trend from the otolith core to the edge, which was likely related to the vertical habitat layer shift of larvae and early juveniles of <jats:styled-content style=\\\"fixed-case\\\"><jats:italic>T. japonicus</jats:italic></jats:styled-content>. Canonical analysis of principal coordinates using the element: Ca ratios and the hatching day were re‐classified according to the sampling area with higher accuracy in the ECS (88–95%) and the Sea of Japan (76–83%) compared to the Pacific Ocean (69–72%). These results indicate that the proportion of eggs, larvae, and early juveniles transported by the Kuroshio Current from the southern ECS—the main spawning ground—to the Pacific Ocean or the Sea of Japan is low and that juveniles distributed in the coastal waters off southwestern Japan may have originated from local spawners. These results suggest that determining the elemental composition of larvae and juveniles of <jats:styled-content style=\\\"fixed-case\\\"><jats:italic>T. japonicus</jats:italic></jats:styled-content> is effective in determining the habitat differences of this species in the three regions. 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引用次数: 0
摘要
利用对耳石从核心到边缘的微量元素分析,揭示了在中国东海(ECS)、太平洋和日本海捕获的日本竹筴鱼(Trachurus japonicus)幼鱼和早期幼鱼栖息地的差异。多元素特征(Sr:Ca、Mg:Ca、Na:Ca、K:Ca 和 Ba:Ca)通过多元统计进行分析,以确定这些元素特征是否有助于了解区域种群结构。元素的中位值为耳石核心区域的元素:Ca 比率中值在不同区域之间存在显著差异,其中大多数元素在东大陆架与太平洋或日本海之间存在显著差异。从耳石核心到边缘,Sr:Ca比值呈V形变化趋势,这可能与日本栉水母幼体和早期幼体的垂直生境层转移有关。使用元素对主坐标进行典型分析:与太平洋(69-72%)相比,ECS(88-95%)和日本海(76-83%)根据采样区域对 Ca 比值和孵化日进行重新分类的准确率更高。这些结果表明,黑潮将卵、幼体和早期幼体从南部 ECS(主要产卵场)运到太平洋或日本海的比例很低,分布在日本西南部近海的幼体可能来自当地的产卵者。这些结果表明,测定日本栉水母幼体和幼鱼的元素组成可以有效地确定该物种在三个地区的栖息地差异。这些发现将有助于了解该物种在日本各地的种群结构和招募过程。
Otolith elemental composition indicates differences in the habitat use for larvae and early juveniles of Japanese jack mackerel (Trachurus japonicus) in the waters around Japan
Trace element analysis of otoliths from core to edge was used to reveal differences in habitats of larvae and early juveniles of Japanese jack mackerel (Trachurus japonicus) caught in the East China Sea (ECS), Pacific Ocean, and Sea of Japan. Multi‐element signatures (Sr:Ca, Mg:Ca, Na:Ca, K:Ca, and Ba:Ca) were analyzed with multivariate statistics to determine whether these element signatures provide insight into regional population structure. The median values of elements: Ca ratios in otolith core region differed significantly among areas, with most elements between the ECS and the Pacific Ocean or Sea of Japan showing significant differences. The Sr:Ca ratios exhibited a V‐shaped trend from the otolith core to the edge, which was likely related to the vertical habitat layer shift of larvae and early juveniles of T. japonicus. Canonical analysis of principal coordinates using the element: Ca ratios and the hatching day were re‐classified according to the sampling area with higher accuracy in the ECS (88–95%) and the Sea of Japan (76–83%) compared to the Pacific Ocean (69–72%). These results indicate that the proportion of eggs, larvae, and early juveniles transported by the Kuroshio Current from the southern ECS—the main spawning ground—to the Pacific Ocean or the Sea of Japan is low and that juveniles distributed in the coastal waters off southwestern Japan may have originated from local spawners. These results suggest that determining the elemental composition of larvae and juveniles of T. japonicus is effective in determining the habitat differences of this species in the three regions. These findings will help to understand population structure and recruitment process of this species around Japan.
期刊介绍:
The international journal of the Japanese Society for Fisheries Oceanography, Fisheries Oceanography is designed to present a forum for the exchange of information amongst fisheries scientists worldwide.
Fisheries Oceanography:
presents original research articles relating the production and dynamics of fish populations to the marine environment
examines entire food chains - not just single species
identifies mechanisms controlling abundance
explores factors affecting the recruitment and abundance of fish species and all higher marine tropic levels