禁渔初期鄱阳湖鱼类时空分布特征

研究于2020—2021年使用Simrad EY60鱼探仪对鄱阳湖进行了秋季、春季和冬季共3次的水声学调查,并同步开展渔获物调查作为补充,分析鄱阳湖鱼类资源时空分布变化特征。结果表明:在季节分布上,鱼类目标强度和密度值都存在显著差异(P<0.05),在目标强度上表现为冬季[(–51.0±14.13) dB]>春季[(–52.10±4.59) dB]>秋季[(–52.71±9.95) dB],在鱼类密度上表现为冬季(54.61 ind./1000 m3)>秋季(46.10 ind./1000 m3)>春季(18.54 ind./1000 m3);在水平分布上,鱼类资源空间分布不均且不同湖区间有显著差异(P<0.05),秋季鱼类主要分布在中部湖区松门山,冬季鱼类主要分布在北部湖区通江水道;在垂直分布上,秋季和冬季均表现为底层>中层>表层,春季表现为表层>中层>底层。综合来看,鄱阳湖鱼类时空分布与鱼类的生活习性如产卵、育肥和越冬等因素密切相关。研究结果为从宏观空间尺度分析区域鱼类时空变动特征提供参考,也为鄱阳湖禁捕效果评估及生物完整...     

基于水声学频差技术的镇江长江豚类省级自然保护区鱼类资源时空特征

为掌握镇江长江豚类省级自然保护区鱼类资源现状,于2020年春季(4月)和秋季(9月)利用水声学频差技术和网具调查方法同步开展鱼类资源调查,评估调查江段鱼类资源时空特征。水声学调查结果表明,调查江段鱼类资源密度均值为(0.094±0.183)尾/m²,鱼类单体目标强度(Target strength, TS)均值为–(57.33±5.69) dB,主要分布在–62.5—–50.5 dB,随着水深的增加, TS逐渐增大;网具调查结果表明,调查江段共采集鱼类758尾、53.53 kg,鉴定鱼类种类达48种,其中以鲤形目(Cypriniformes)鱼类占优,中上层鱼类群体数量和质量占比分别为36.15%和66.12%,长江江豚饵料鱼类(体长小于20 cm、体高小于6 cm、体重小于100 g的中上层鱼类)数量和质量占比分别为23.22%和8.72%。在时间特征上, 4月和9月鱼类资源密度差异不显著(P>0.05), 4月鱼类TS均值小于9月,且4月鱼类平均规格小于9月。在空间特征上,鱼类资源主要分布于和畅洲北汊和焦北滩附近水域,中上层鱼类资源相对较多,且4月鱼类资...     

鲢鳙鱼养殖小型水库底栖动物群落季节动态

底栖动物是鱼类重要的天然饵料,评估水体中底栖动物的现存量可以指导渔业生产中鱼类的放养数量。为了探究淡水生态养殖水库中底栖动物群落的季节动态,于2013年4月、7月、10月和2014年1月对三河水库的底栖动物群落进行了调查分析。研究共采集到7个属的底栖动物,隶属于颤蚓科、摇蚊科和蠓科,未采集到软体动物。相对重要性指数(IRI)计算结果表明,菱跗摇蚊属Clinotanypus(IRI=7136)、颤蚓属Tubifex(IRI=6734)和尾鳃蚓属Branchiura(IRI=1384)是优势类群,分别占总捕获数量的34.26%、50.38%和10.96%。不同季节之间底栖动物的总密度和生物量差异显著(P0.05),均为冬季春季夏季秋季。冬季总密度(4100个/m~2)和总生物量(10.14 g/m~2)最高,春季(1446个/m~2;1.07 g/m~2)次之,夏季(579个/m~2;0.66 g/m~2)较低,秋季(492个/m~2;0.64 g/m~2)最低。非度量多维尺度分析(MDS)和群落相似性分析表明底栖动物群落结构季节差异显著(P=0.001),2013年三河水库的底栖动物群落可明显划分为3个:春季群落、夏秋季群落和冬季群落。皮尔森相关分析表明,底栖动物总密度与溶氧和营养盐呈正相关关系,与其他水理化因子呈显著负相关关系(P0.05)。冗余分析表明,氨氮、盐度、pH和浊度是三河水库底栖动物群落季节差异的显著影响因子(P0.05),总氮对底栖动物群落的季节差异具有边缘显著影响(P=0.08)。     

三峡库区大宁河鱼类的时空分布特征

为了解大宁河鱼类资源量及其分布特点,于2006年12月和2007年4月利用HTI Model 241鱼探仪对三峡库区大宁河进行了声学调查。结果表明：冬季鱼类密度显著高于春季,这与鱼类自身的繁殖越冬行为有关。统计分析显示,鱼类水平分布的差异与水深没有明显的相关性,可能主要由群聚行为引起。另外,冬季大宁河鱼类主要分布在中下层,上层和中下层的鱼类密度分布存在极显著性差异(p <0.01);春季鱼类主要分布在中上层,中层和下层的鱼类密度分布差异显著(p <0.05)。大宁河鱼类在冬季和春季均属于成群分布,并且春季各层鱼类密度的变异系数高于冬季,这与水温和鱼类的防御机制有关。     

舟山近岸海域春秋季鱼类种类组成及其数量时空分布

根据2015 年11 月(秋季)、2016 年5 月(春季)在舟山近岸海域开展的渔业资源调查中所获得的鱼类资源资料, 对该海域鱼类的种类组成、数量分布、优势种变化及其影响因素等进行了研究。结果如下: 根据本次调查所获得的样品, 经分析共鉴定出鱼类种类81 种, 隶属于12 目39 科63 属; 春季和秋季鱼类重量密度分别为10.36 kg·km^-2 和98.01 kg·km^-2, 尾数密度分别为26.29×10³ ind·km^-2和33.30 ind·km^-2; 两个季节鱼类资源密度的平面分布特征呈相同规律, 都是东部外侧海域高于122.3°E 以西海域; 不同季节优势种种类不同, 春季的优势种为六丝钝尾虾虎鱼, 秋季优势种为龙头鱼, 均为小型低值鱼类; 鱼类春季和秋季总种类数变化较为稳定, 但种类数的季节变化较大, 春季以沿岸浅海附近种类较多, 秋季以调查海域东北部较多; 水深对鱼类资源密度及种类数分布影响明显; ABC 曲线显示, 舟山近岸海域的鱼类群落处于严重干扰的状态。与以往调查结果相比,舟山渔场鱼类种类组成、群落结构等都发生了较大的变化。     

浙江沿岸产卵场春、夏季鱼类资源密度和群落多样性研究

根据2015年4月(春季)和7月(夏季)在浙江沿岸产卵场进行的渔业资源底拖网调查资料, 采用多重比较(LSD)和分类回归树(CART)方法研究了浙江沿岸产卵场春、夏季群落多样性和鱼类资源的变化, 以及多样性与诸多环境因子(生物和非生物)的关系, 结果表明: (1)该水域春季共捕获鱼类92种, 隶属17目50科77属, 夏季捕获鱼类114种, 隶属16目59科92属; (2)春季全区生物量平均为434.40 kg/km2, 中部和南部生物量差异极显著(P=0.005), 全区尾数密度平均为58.42千尾/km2, 不同区域差异不显著; 夏季全区生物量平均为1532.73 kg/km2, 北部生物量与中部差异极显著(P=0.000), 与南部差异显著(P=0.017), 全区尾数密度平均为205.50千尾/km2, 北部尾数密度与南部差异显著(P=0.034), 其他区域间差异不显著; (3)春季H′平均值为1.52, D平均值为2.18, 北部和南部D差异显著(P=0.048), 其他区域间H′和D差异均不显著; 夏季H′平均值为1.34, D平均值为1.81, 中部和北部H′差异极显著(P=0.000), 和南部差异接近极显著(P=0.01), 北部和中部D差异显著(P=0.039), 其他区域间差异不显著; (4)CART分析表明, 影响春季多样性和丰富度的主要因素有水深、浊度和溶氧; 秋季多样性水平主要受的水深、桡足类、温度和浊度的影响; (5)从空间和时间上与其他水域的多样性水平相比较得出, 在空间上, 纬度与H′并不存在简单的线性关系, 但当纬度跨度比较大时, 低纬度水域的H′值明显高于高纬度水域的H′值; 在时间上, 多样性水平较2008年明显升高, 但与2011年的调查结果相近, 表明产卵场(南部)近几年渔业生态环境处于相对较稳定的状态。     

不同渔业方式水库鱼类资源的水声学评估

采用Biosonics DT-X回声探测仪(208 kHz)在2011年的秋末冬初对大溪、沙河、金牛山3个不同渔业方式的中等营养化水库进行了水声学调查,并构建了水库中鱼类资源分布的GIS模型.结果表明： 3个水库间鱼类平均大小无显著性差异,但鱼类目标强度(TS)分布曲线表明鱼类大小分布比例并不一致,受渔业方式影响明显.大溪水库鱼类密度(平均0.0183 ind·m^-3)与沙河水库鱼类密度(平均0.0124 ind·m^-3)差异不显著,金牛山水库鱼类密度(平均0.0085 ind·m^-3)显著小于大溪水库和沙河水库,3个水库中鱼类密度水平分布与水深没有显著的相关关系.3个水库中鱼类均成群分布,对大溪水库和沙河水库调查时还发现鱼类聚群行为.3个水库的鱼类资源量分布均在下游最高,除沙河水库受赶鱼作业影响外,其他2个水库大坝前鱼类资源量分布明显偏高.基于鱼类分布GIS建模的栅格化数据、各个栅格的水面面积,对TS>-60 dB鱼类资源总量进行估算,大溪水库约为48万尾,沙河水库约为61万尾,金牛山水库约为52万尾;对TS>-40 dB的鱼类进行统计评估,大溪水库约为5.04万尾,沙河水库约为5.29万尾,金牛山水库约为9.07万尾.     

采用渔业声学方法和GIS模型对楠溪江鱼类资源量及空间分布的评估

采用快捷、直接、经济的渔业声学调查方法,结合GIS模型对温州楠溪江4个主要渔业作业区域的鱼类空间分布及资源量进行了评估。结果表明,4个区域的鱼类平均目标强度为(-55.03±5.44)dB,平均体长约为7cm,范围3—10cm,各区域的鱼类大小没有显著的统计学差异(P0.05)。同时4个区域的鱼类平均密度为8.87ind./1000m3,95%置信区间为1.66—16.09ind./1000m3。其中区域Ⅲ的鱼类密度最高,平均密度为(20.06±9.34)ind./1000m3。通过鱼类分布的GIS图形得知,鱼类的空间分布呈现斑块状的分布形式。按照ArcGIS对鱼类密度进行的栅格化数据,并结合各个栅格所代表的水体体积,进行鱼类资源量的估算,结果为4个探测区域的鱼类总尾数为2.5万尾,各个区域的鱼类资源量分别为:3971ind.、11478ind.、6587ind.、2978ind.。     

基于水声学方法的天目湖鱼类资源捕捞与放流的生态监测

本文在天目湖捕捞赶鱼前（2011年12月）、赶鱼后（2012年1月）、捕捞与放流后（2012年3月）3个渔业阶段,结合渔业捕捞统计,采用水声学方法对天目湖鱼类资源（赶鱼后为不包括集鱼网箱的湖区鱼类资源）的捕捞与放流进行了生态监测,并构建GIS模型,得到鱼类种群结构、大小组成、鱼类密度、鱼类集群、鱼类资源量及其分布,为天目湖保水渔业的实施和渔业生产提供科学依据。天目湖鱼类种群以鲤科鱼类为主,鲢鳙2011年捕捞统计重量占比为98.07%,单网簖采样尾数占比为68.72%,鱼类资源受放流种类和规格影响较大;赶鱼前后和捕捞与放流后3个渔业阶段的鱼类平均目标强度（TS）分别为（-47.84?4.79）dB、（-48.58?4.98）dB、（-47.24?5.10）dB,且差异性显著（P<0.05）,捕捞与放流后TS在-45—-40 dB的鱼类明显升高到24.40%;3个渔业阶段的鱼类密度（FPCM）分别为（0.0124?0.0292）ind/m3、（0.0062?0.0227）ind/m3、（0.0098?0.0185）ind/m3,捕捞赶鱼作业显著（P<0.05）降低了鱼类密度,而捕捞与放流后鱼类密度显著（P<0.05）低于赶鱼前则是由于水深上升所致;在冬季的中下层水体出现典型的鱼类聚群,且随温度降低团聚程度提高;通过构建GIS模型评估鱼类资源量,赶鱼前约61万尾、赶鱼后约38万尾、捕捞与放流后约67万尾,资源量在中下游分布较高。     

东海太平洋褶柔鱼生殖群体的空间分布及其与环境因子的关系

依据1997-2000年在东海(26°00′-33°00′N、120°30′-128°00′E)进行的4个季节的底拖网调查资料,分析了该海区太平洋褶柔鱼生殖群体的时空分布特征,同时结合广义相加模型(GAM),量化分析了各环境因子对于其种群成熟度指数(PMI)空间分布的影响机制。结果表明:太平洋褶柔鱼生殖群体春、夏、秋、冬4个季节在东海均有分布;秋季PMI值最高,春季最低;4个季节太平洋褶柔鱼生殖群体的分布范围均较广,主要集中在东海外海受台湾暖流和黑潮控制的水域。太平洋褶柔鱼生殖群体的环境适应性存在明显的季节差异:其分布的底温范围为:春季14.70-18.30℃、夏季13.18-20.91℃、秋季13.96-24.67℃、冬季14.33-19.75℃。底盐范围为:春季29.52-34.63、夏季31.57-34.27、秋季32.26-34.72、冬季34.25-34.70。水深范围为:春季55-179m,夏季43-176m、秋季40-184m、冬季79-152m。综上所述,东海太平洋褶柔鱼生殖群体的时空分布具有广范围、多季度的特点,这种分布特征可有效降低其幼体间的种间竞争,为确保其种群繁衍提供有利保障。     

Seasonal inter‐calibration between acoustic and multi‐mesh gillnets sampling for fish biomass assessment in reservoirs

This paper presents the results of an inter‐calibration between acoustic and gillnets sampling in two North African reservoirs according to seasons. Gillnets with multi‐mesh were designed for sampling fish in lakes while acoustic surveys were performed with a split beam Simrad EK60 echosounder. Sampling events were carried out during summer (September 2015), autumn (December 2015), winter (March 2016) and spring (June 2016) in two Tunisian reservoirs (Kasseb and Siliana) with different depths and shapes. Gillnet catches showed a high proportion of barbell whatever the seasons in Kasseb Reservoir, while at Siliana Reservoir, significant seasonal changes in relative abundances have been evidenced. The highest fish biomass of the entire water column was observed in winter daytime (103 kg/ha) in Kasseb Reservoir and in summer daytime (283 kg/ha) in Siliana Reservoir. Average biomass observed in autumn (December) for the two reservoirs were lower than the other seasons. During spring, density daytime values in Kasseb were higher than during nighttime while it was the opposite in summer and autumn. Fish densities detected in Kasseb Reservoir in vertical beaming was higher than those detected in horizontal beaming (p < .05). The longitudinal distribution of fish in the reservoirs showed that there is no clear trend in fish densities according to strata. High numbers of fish were detected in deep strata and big fish were located in the surface water near the dam of Kasseb Reservoir. A significant linear correlation was showed between acoustic density/NPUE and acoustic biomass/BPUE but the perfect correlation with the 1:1 fit was showed only between acoustic biomass/BPUE.     

Spatiotemporal variation in the population structure of the European hake in the NW Mediterranean

The bathymetric distribution of Merluccius merluccius was studied as a function of length, age and maturity of specimens caught by commercial trawl and longline in Different seasons. Males matured first at 28·8 cm (3 years old), and females at 38·0 cm (3·5 years old). Reproductive activity was noted practically throughout the year with its most pronounced spawning peak in the autumn. Most fish <37–40 cm were males and >46 cm were females. Specimens occurred between 50 and 750 m depth, although density was low at >400 m. Adults were found at all depth strata studied. Recruits and juveniles were limited to inshore waters <400 m, most were found between 100 and 200 m. Spring and summer were the preferred seasons for recruitment; although for both seasons there was some interannual variation. Adult distribution also varied, according to the season. Young adults were spread over the entire depth range, with the biggest ones concentrated at the edge of the shelf (150–350 m), especially in autumn and winter. The main spawning peak coincided with this concentration of adults suggesting that spawning occurred in autumn/winter at the edge of the shelf.     

Ontogenetic variation in habitat associations for four flatfish species in the Gulf of Maine-Georges Bank region

Multivariate ordination techniques were used to examine how size classes of four flatfish species, American plaice Hippoglossoides platessoides , winter flounder Pseudopleuronectes americanus , yellowtail flounder Limanda ferruginea and fourspot flounder Paralichthys oblongus , are related to bottom depth, bottom temperature, substratum grain size and temporal factors using a 35 year time series from autumn and spring in the Gulf of Maine-Georges Bank region. Depth had the most explanatory value during both seasons in most cases, with fish size generally increasing with depth. One exception was yellowtail flounder in the spring for which a temporal factor explained the most variance, reflecting an increase in size over the time series due to changes in fishing pressure. Temperature was secondarily important for yellowtail flounder in the autumn and for fourspot flounder in both seasons. Substratum type was secondarily important for winter and yellowtail flounders in the spring with smaller fish associated with larger substratum types. Seasonal associations with depth, temperature and substratum are related to seasonal spawning migrations, thermal preferences and other ecological factors.     

Seasonal dynamics of Proteocephalus sagittus in the stone loach Barbatula barbatula from the Hana River, Czech Republic

The seasonal cycle of the cestode Proteocephalus sagittus (Cestoda: Proteocephalidae) was studied for the first time in the stone loach Barbatula barbatula from the Hana River, Czech Republic. A total of 180 loaches were examined monthly from January to December 2001. The parasite occurred in loaches throughout the year but infection parameters differed significantly among seasons, with the highest values of prevalence and abundance from the late winter to the early summer. Parasite recruitment took place in the winter and early spring and the worms sexually matured in the late spring and early summer. In contrast to P. torulosus, the gravid worms of which laid eggs only at the end of the spring/beginning of the summer, gravid worms of P. sagittus were also found, although in low numbers, in the autumn and early winter. The rate of infection of loach with P. sagittus was neither dependent on the sex nor on the size of its fish host.     

黄海中南部细纹狮子鱼的生物学特征及资源分布的季节变化

根据2009年7—8月、10月和2010年1月、5月黄海中南部渔业生物底拖网调查数据,对该海域细纹狮子鱼的生物学特征及其分布的季节变化作了分析。结果表明,细纹狮子鱼平均体长和平均体重从春季(4.7 cm、3.3 g)到冬季(34.2 cm、764.9 g)呈显著增加,并且雄性个体平均体长显著大于雌性个体(P<0.05,春季除外)。性比(♀∶♂)随体长组和季节变化,体长越大趋向于雄性,反之趋向于雌性;夏季雄鱼居多(0.70∶1,P<0.05),秋季则为雌鱼居多(1.35∶1,P<0.05),而冬季(产卵群体)和春季性比接近于1∶1。细纹狮子鱼各季节摄食等级均在2.5以上,冬季雄性个体摄食等级显著大于雌性个体(P<0.05),但雄性个体肥满度为全年最低(1.52)。细纹狮子鱼相对资源量和贡献率从春季(0.17 kg/h,1.54%)到秋季(15.36 kg/h,33.05%)呈上升状态,而冬季(2.37 kg/h,5.60%)有所下降。相比2000年,夏秋季相对渔获量和贡献率提高明显。全年集中分布于7.8—13.6℃,3.20%—3.38%的水域,平均体重和水深有显著的相关性(秋季除外)。另外,根据性成熟个体分布区和稚幼鱼分布的相关历史资料分析发现,除海州湾外,黄海中部深水区可能是细纹狮子鱼的产卵场。     

黄河口邻近海域浮游动物群落时空变化特征

利用2012年12月—2013年9月4个季度的现场调查资料研究了黄河口邻近海域浮游动物群落的时空分布特征。研究表明,黄河口邻近海域共鉴定出浮游动物70种,包括浮游幼虫19类。浮游动物优势种主要由夜光虫(Noctiluca scintillans)、小拟哲水蚤(Paracalanus parvus)、双刺纺锤水蚤(Acartia bifilosa)、拟长腹剑水蚤(Oithona similis)、强额拟哲水蚤(Paracalanus crassirostris)、近缘大眼剑水蚤(Corycaeus affinis)、强壮箭虫(Sagitta crassa)、双壳类幼体(Bivalvia larvae)、多毛类幼体(Polychaeta larvae)等种类。黄河口邻近海域浮游动物丰度夏季最高(60620个/m~3),春季(31228个/m~3)和秋季(21540个/m~3)次之,冬季最低(7594个/m~3)。不同季节浮游动物丰度的空间分布具有差异性,春季浮游动物丰度呈现出从近岸到外海降低的趋势;夏季浮游动物形成两个高丰度区,分别位于河口邻近海区和河口东部海区;秋季和冬季浮游动物丰度高值区均位于河口东部海区。浮游动物生物多样性指数均呈现从河口到外海升高的趋势,低值区位于黄河口入海口附近海区。相关性分析显示,黄河口邻近海域浮游动物丰度与海水温度显著正相关(r=0.212,P0.05),表明温度为影响黄河口邻近海域浮游动物丰度变化的主要因素。     

Seasonal variation in haematological parameters in male and female Tinca tinca

This study was designed to investigate any seasonal (spring, summer, autumn and winter) changes in haematological parameters in the blood of Tinca tinca measuring the number of red blood cells (RBC), haematocrit, white blood cells, and total plasma proteins.The results show significant changes in RBC and haematocrit in males comparing spring and summer with autumn and winter, whereas in females the RBC remained constant for all 4 seasons but the haematocrit decreased in autumn and winter compared to spring and summer. The white blood cells of male and female animals were significantly lower in spring and winter compared to summer and autumn. In male fish total protein contents significantly decreased in autumn and winter compared to spring and summer, whereas in females protein output significantly decreased in winter compared to the other seasons. The results indicate marked seasonal variation in the blood of male and female Tinca tinca. This variation may play a important protective role for the survival of the animals.