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长江口及邻近海域刀鲚的季节性时空分布特征OA

Seasonal spatio-temporal distribution characteristics of Coilia nasus in the Yangtze River Estuary and adjacent waters

中文摘要英文摘要

[目的]揭示长江口刀鲚不同年龄群体的时空分布特征,评估口门区育幼场功能及其生境驱动机制.[方法]于 2024-2025 年春季(5 月)、夏季(8 月)和秋季(11 月)在长江口及邻近海域开展 6 个航次底拖网调查(55 个站位),将刀鲚划分为当年生群体(0 龄)与非当年生群体(≥1 龄).资源密度标准化为尾/km2,采用密度加权分布重心(CG)、惯性椭圆与全局共位指数等空间统计方法,定量刻画两类群体的空间位置、扩散尺度及季节性重叠格局;同步观测底层水温与盐度,并结合Spearman秩相关与负二项广义线性模型评估环境因子效应.[结果]共采集样本 12 025 尾,群体组成呈显著季节更替,春季以非当年生群体为主(78.6%),夏、秋季以当年生群体为主(62.1%和 74.3%).当年生群体密度由春季(335±757)尾/km2 增至秋季(1 454±3 027)尾/km2,非当年生群体密度则由春季(1 680±2 753)尾/km2 降至秋季(485±1 085)尾/km2.两类群体分布重心均稳定位于口门区核心水域(约 122°E,31.2°~31.4°N).春季空间重叠最高(全局共位指数为 0.996),夏、秋季下降(约 0.940),表明两类群体由春至秋空间分离增强.资源密度与底层盐度呈显著负相关,盐度锋面稳定分布于 122.1°~122.5°E,并与当年生群体分布中心空间吻合.[结论]长江口口门区是刀鲚当年生群体的核心育幼栖息地,底层盐度梯度及其锋面过程是驱动幼鱼聚集与分布的关键生境因子.研究结果可为禁捕背景下刀鲚资源恢复评估、长江口关键栖息地识别与基于生境的保护管理提供科学依据.

The Yangtze River Estuary,situated at the boundary of the Yellow Sea and the East China Sea,is a typical large-scale estuarine system on the western Pacific coast.Coilia nasus(Clupeiformes:Engraulidae)is a representative anadromous species in this system.Over recent decades,C.nasus has experienced marked population declines driven by overfishing,wetland loss,altered hydrodynamics,and reduced sediment discharge.A 10-year fishing ban took effect across key Yangtze waters in 2021,yet the habitat use patterns of different age groups within the estuary remain poorly understood.This study aimed to reveal the spatio-tem-poral distribution characteristics of age-specific groups of C.nasus in the Yangtze River Estuary and adjacent waters,and to evalu-ate the nursery function of the estuarine mouth zone and its environmental drivers.Bottom trawl surveys were conducted during spring(May),summer(August),and autumn(November)of 2024 and 2025 across 55 fixed stations(121°-124°E,31°-32°N),totalling six seasonal cruises.All captured C.nasus were measured for standard length(SL,cm)and assigned to Young-of-the-year(YOY)(age 0)or non-YOY(age≥1)groups based on overwintering bands on scales.Abundance was standardized as numerical density(ind./km2).Density-weighted centres of gravity,inertia ellipses,and the global index of collocation(GIC)were computed for each year×season×age-group combination.Bottom salinity and temperature were recorded at each station,and their effects on density were evaluated using Spearman rank correlations and negative binomial generalized linear models.Salinity fronts were identified within a latitudinal band covering the mouth zone by locating the maximum longitudinal salinity gradient.A total of 12 025 specimens were collected.Population composition shifted markedly across seasons:non-YOY individuals domin-ated in spring(78.6%),while YOY prevailed in summer(62.1%)and autumn(74.3%),reflecting the life-history pattern of spring spawning migration and subsequent summer–autumn juvenile recruitment.YOY density increased from(335±757)ind./km2 in spring to(1 454±3 027)ind./km2 in autumn,whereas non-YOY density declined from(1 680±2 753)ind./km2 in spring to(485±1 085)ind./km2 in autumn.Despite these contrasting trends,density-weighted centres of gravity of both groups remained within the estuarine mouth zone(approximately 122°E,31.2°-31.4°N)across all cruises.Spatial overlap was highest in spring(GIC=0.996)and declined in summer and autumn(GIC ≈ 0.940),indicating progressive spatial segregation while retaining a shared dis-tribution core.Bottom salinity was the primary environmental constraint:density of both groups was negatively correlated with salinity across all seasons(Spearman ρ:−0.508 to −0.807,all P<0.001).Salinity fronts were consistently located between 122.1° and 122.5°E,coinciding spatially with YOY distribution centres.The estuarine mouth zone functions as a stable nursery for C.nasus juveniles,as evidenced by consistently high densities and a spatially persistent distribution centre across seasons.Bottom salinity gradients and salinity front dynamics appear to be primary factors regulating the age-specific spatial distribution of C.nasus in the estuary.These results offer a quantitative basis for delineating critical nursery habitats and developing habitat-ori-ented management measures in the context of the ongoing fishing ban.

郭弘艺;张旭光;刘守海;唐文乔;刘凯

上海海洋大学,海洋动物系统分类与进化上海高校重点实验室,上海 201306上海海洋大学,海洋牧场工程技术研究中心,上海 201306上海海洋大学,海洋动物系统分类与进化上海高校重点实验室,上海 201306||自然资源部东海生态中心,上海 201206上海海洋大学,海洋动物系统分类与进化上海高校重点实验室,上海 201306中国水产科学研究院淡水渔业研究中心,农业农村部淡水渔业与种质资源利用重点实验室,江苏 无锡 214081

农业科技

刀鲚时空分布空间统计分析育幼场长江口

Coilia nasusspatio-temporal distributionspatial statistical analysisnursery habitatthe Yangtze River Estuary

《水产学报》 2026 (4)

240-254,15

中国水产科学研究院中央级公益性科研院所基本科研业务费专项(2024XT1003,2023TD11) Central Public-interest Scientific Institution Basal Research Fund,Chinese Academy of Fishery Sciences(CAFS)(2024XT1003,2023TD11)

10.11964/jfc.20260115355

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