长江口春季鱼类浮游生物群落结构与环境因子的关系

随着源源不断的淡水径流入海与营养物质的输入，使长江口及其邻近海域成为生产力最高的水域，也孕育了我国近海重要的舟山渔场、吕泗渔场和长江口渔场。成淡水的交汇形成了长江口水域复杂的水文物理条件，使之成为众多鱼类的产卵场和育幼场(赵保仁等，1992；罗秉征等，1994)。河口鱼类浮游生物群落结构及其季节变化格局，既受制于其生殖种群的资源量，也与水域环境稳定性密切相关(Blaber et al.，1997；Joyeux，1998；Whitfield，1999)，因而受到国内外的广泛关注。有关以成体为基础的河口鱼类群落生态学已有较多的调查研究(杨伟祥等，1992；朱鑫华等，1994a，b)；而鱼类补充群体的研究，亦多集中于鱼卵和仔稚鱼的种类组成和分布等(杨东菜等，1990；沙学绅，1962)。本文利用1999年5月长江口生态环境与资源综合调査资料，主要研究鱼类浮游生物群落结构及其与环境因子的关系，以期深入探讨河口区鱼类补充过程与近海资源数量变动的关系，为动态监测三峡工程对河口生态环境影响提供科学依据。     

珠江口及邻近水域鱼类群落结构研究

根据１９８６－１９８７年珠江口及邻近水域底拖网鱼类采样资料，运用系统聚类与排序等多元分析方法和群落多样性指数，研究该水域鱼类群落结构及其与环境因素的关系。分析结果把该水域鱼类划分为淡水，河口和沿岸３个群落，分别位于莲花山－虎门河道，珠江河口伶仃洋和珠江口浅海水域，各群落结构组成呈沿盐度梯度成带分布的格局。     

应用VPA方法概算黄海鲱鱼的渔捞死亡和资源量

本文应用VPA方法概算黄海鲱鱼1967-1984年各年龄组渔捞死亡、资源数量和实际产卵的亲体数量,结果表明:(1)与太平洋白令海鲱和大西洋北海鲱相比,黄海鲱渔捞死亡高、世代渔捞寿命短;(2)由于世代数量波动剧烈以及捕捞强度过大,资源数量波动幅度很大,并直接影响渔获量;(3)1982年以来出现明显的补充型过度捕捞,实际产卵的亲体数量已下降到正常水平之下.因此,控制渔捞死亡,减少对产卵亲体的捕捞,仍是当前黄海鲱渔业管理中需要认真考虑的问题. 误差分析表明,自然死亡M值的估计精度是提高VPA方法计算精度的关键,文内对此提出相应的建议.     

黄河口鱼类群落分类学多样性的研究

根据2013-2014年在黄河口水域进行的7个航次的鱼类资源底拖网调查数据，应用分类多样性指数分析了黄河口水域鱼类群落生物多样性的时空变化。黄河口鱼类主名录的平均分类差异指数△+理论平均值为75.5。2013-2014年调查中，该水域共捕获鱼类51种，隶属10目、27科、43属，以鲈形目、鲱形目和鲉形目鱼类居多。本次调查中鱼类群落分类多样性指数△和分类差异指数△*月变化范围分别为39.98~65.48和59.15~75.54，均表现为夏季月份最高，春、秋季月份次之，冬季最低。除春季月份外，其他月份鱼类平均分类差异指数△+均显著低于黄河口鱼类主名录的△+理论平均值。不同月份中平均分类差异指数△+也呈现一定的空间变化，夏、秋季月份绝大部分站位平均分类差异指数处于95%置信范围内，春、冬季月份个别站位的平均分类差异指数显著低于理论平均值，这与这些站位绝大多数种类集中在鲈形目有关。黄河口水域鱼类分类学多样性具有明显的时空变化，鱼类资源衰退，应加强该水域鱼类资源养护和多样性保护。     

台湾海峡及其邻近海域鱼类生活史特征及其变化研究

世界范围内,海洋渔业资源广泛面临着过度捕捞的压力.鱼类的不同生活史特征可表征不同的生活史对策,其变化可揭示鱼类种群对渔业捕捞压力的响应.台湾海峡及其邻近海域的主要渔场30多年来面临着过度捕捞的压力,导致了鱼类群落结构发生改变.本研究分析了该海域51种主要经济鱼类的生态参数,系统研究了其生活史特征及其变化.采用主成分分析法可将51种鱼类分成5个不同的生活史对策组,分组结果表明超过60%的鱼类被归纳入第5组,即近r对策组,且多为中上层鱼类.在此基础上收集相关历史数据,对其中25种经济鱼类进行生活史变化分析,讨论不同鱼类种群对渔业开发的响应.分析结果表明,在长期的渔业开发活动下多数鱼类表现出小型化、低龄化、早熟和生长率加快等趋势.此外,本研究计算了每种鱼类的开发率以进一步研究渔业捕捞压力对鱼类种群的影响,发现其中4种底层和近底层鱼类的生活史特征变化显著,提示某些物种可能对捕捞压力更敏感.本研究可为渔业管理和保护提供重要的科学依据.     

珠江口及邻近水域鱼类群落结构研究

根据1986～1987年珠江口及邻近水域底拖网鱼类采样资料,运用系统聚类与排序等多元分析方法和群落多样性指数,研究该水域鱼类群落结构及其与环境因素的关系,分析结果把该水域鱼类划分为淡水、河口和沿岸3个群落,分别位于莲花山,虎门河道、珠江河口伶仃洋和珠江口浅海水域,各群落结构组成呈沿盐度梯度而成带分布的格局.淡水群落结构简单稳定,沿岸群落结构比较复杂,河口群落受水动力过程和生物活动影响最大,群落结构的季节变化较为显着.     

捕捞和气候变化在南海北部湾口鱼类长期种类演替和种群动态的作用

捕捞压力在改变南海鱼类种类演替和生物量波动方面所起的作用大于气候和环境因素是一个普遍的、有争议的假设。根据1959~2010年南海北部北部湾口底拖网的调查数据，报告了该海域鱼类种类组成、优势类群的丰度比例、生物量的季节和年际变化。建立了鱼类生物量与捕捞压力和气候变化外部因素之间的广义加性模型。结果表明，捕捞压力驱动底层渔业资源急剧下降的主要因素，并随着时间的推移，高值鱼类被低值鱼类所取代。1993年和1998年期间鱼类生物量的突然减少与同期厄尔尼诺事件相对应，气候变化可能是渔业拖网捕捞中中上层鱼类比例变化的主要驱动因素。为了更好地了解鱼类群落动态，需要区分捕捞压力和环境驱动因素对不同生活史策略鱼类物种的影响。     

烟威近海鱼类群落分类β多样性及其组分空间变化的驱动因素分析

β多样性是区域生物多样性研究的重要方向,根据2020年在烟威近海的底拖网调查数据,采用Mantel检验分析和冗余分析(RDA)等方法,对驱动烟威近海鱼类群落β多样性及其组分的环境因素和空间距离进行了研究。结果显示,烟威近海调查共出现鱼类33种,其中优势种有3种,鱼类群落的β多样性均值为0.711～0.737,整体处于较高水平;全部鱼类群落和弱扩散鱼类群落β多样主要以物种替换(周转)组分为主,强扩散鱼类群落β多样性由丰富度差异(嵌套)组分来解释;空间距离和环境因素共同驱动烟威近海鱼类群落β多样性,离岸距离OD是影响烟威近海鱼类群落β多样性的关键因素,地理距离GD是物种替换的决定性驱动因子,环境因子影响了弱扩散鱼类群落的丰富度差异。表明空间距离驱动烟威近海鱼类群落β多样性的作用强于环境过滤,扩散限制是其β多样性的关键影响因素,研究结果可为烟威近海生物多样性保护提供理论依据。     

长江口张网鱼类群落结构特征及月相变化

为了解长江口鱼类群落结构的现状及变化特征,用张网作业对长江口2010年5月至2011年4月12个月鱼类群落进行了调查。结果1周年共记录56种鱼类,以鲈形目(27种)和鲱形目(10种)种类数目最多。鱼类区系为典型的亚热带动物区系,只出现暖水种(25种)及暖温种(31种)2种适温类型。鱼类种类数目以底栖鱼类(26种)和中上层鱼类占多数(21种),底层鱼类数目较少(9种)。丰度或生物量均由少数几种鱼类占优势。根据鱼类生态类群,海洋洄游性鱼类及河口性鱼类占据种类数目的主要地位,而生物量或丰度均由海洋洄游性鱼类占据主导。每网平均种类数目的最大值和最小值分别出现在7月(18.3种)和1月(7.2种),每网丰度最大值和最小值出现在11月(2 272尾/网)和1月(71尾/网),生物量的最大值出现在9月(11 892g/网),最小值出现在1月(351g/网),而主要种类丰度的时间分布差异也较大;基于丰度计算的Shannon-Wiener多样性指数及Simpson优势度集中指数在时间上也有较大差异,NMDS非度量多维尺度分析显示根据相似性鱼类群落在时间上可分为4组,相邻月一般相似性较近,但2010年12月和2011年1月相似性较小。此外,多元回归分析表明,在径流量、盐度及水温3个环境因素中,引起张网鱼类群落丰度时间变化的主要影响因素是水温。鉴于当前长江口张网捕捞努力量有增加趋势,为保护长江口鱼类群落,需要控制过高的捕捞努力量。     

浙江南部外海鱼类种类组成和数量分布

根据2006年5月、9月、11月和2007年2月浙江南部外海渔业资源调查结果，用渔获率作为鱼类资源分布的数量指标，对浙江南部外海的鱼类种类组成、数量分布、季节变化趋势作了定量分析。结果表明，浙江南部外海调查海域鱼类种类约有205种，其中海南鲽鲆、长臂沙鲽是2个东海区新记录种。刺鲳、竹笑鱼、发光鲷、条尾鲱鲤、尖牙鲷、短鳍红娘鱼、短鳄齿鱼、带鱼、多棘腔吻鳕、花斑蛇鲻等22种鱼类是调查海域底拖网的主要捕捞鱼类，约占鱼类总渔获量的64．58％，而其它种类的渔获量较少。不同季节的经济鱼类渔获物组成相差较大，渔获量高峰期主要出现在夏、秋季，主要捕捞刺鲳、竹笑鱼、条尾鲱鲤、短鳍红娘鱼、黄鳍马面钝等，而带鱼主要出现在春、夏季和冬季。资源数量分布较高的海区是27°30′-28°30′N海域以及26°00′-27°00′N、121°30′-123°00′E海域，而春季、秋季和冬季虽然资源密度没有夏季高，秋季和冬季调查海域的鱼类资源数量明显下降，但其数量的地理分布趋势与夏季基本相同。主要种类的空间分布特点如下：刺鲳、带鱼、海鳗、日本红娘鱼、日本方头鱼等的主要渔场分布在80-100m水深海域；黑鲮蟓、真鲷、鲐鱼、高体若鳕等的主要渔场分布在100-200m水深海域；而竹笑鱼、条尾鲱鲤、短鳍红娘鱼等则在整个调查海域都有分布，属于分布范围广的种类。     

Application of the sequential t-test algorithm for analysing regime shifts to the southern Benguela ecosystem

Long-term ecosystem changes, such as regime shifts, have occurred in several marine ecosystems world-wide. Multivariate statistical methods have been used to detect such changes. A new method known as the sequential t-test algorithm for analysing regime shifts (STARS) is applied to a set of biological state variables as well as environmental and anthropogenic forcing variables in the southern Benguela. The method is able to correct for auto-correlation within time-series by a process known as prewhitening. All variables were tested with and without prewhitening. Shifts that were detected with both methods were termed robust. The STARS method detected shifts in relatively short time-series and identified when these shifts occurred without a priori hypotheses. Shifts were generally well detected at the end of time-series, but further development of the method is needed to enhance its performance for auto-correlated time-series. Since 1950, two major long-term ecosystem changes were identified for the southern Benguela. The first change occurred during the 1960s, caused predominantly by heavy fishing pressure but with some environmental forcing. The second change occurred in the early 2000s, caused mainly by environmental forcing. To strengthen these findings, further analyses should be carried out using different methods.     

Long-term changes in the fish community structure from the Tsushima warm current region of the Japan/East Sea with an emphasis on the impacts of fishing and climate regime shift over the last four decades

Japanese fisheries production in the Japan/East Sea between 1958 and 2003 increased to their peak (1.76 million tons) in the late 1980s and decreased abruptly with the collapse of Japanese sardine. Catch results for 58 fisheries and various environmental time-series data sets and community indices, including mean trophic level (MTL) and Simpson’s diversity index (DI), were used to investigate the impacts of fishing and climate changes on the structure of the fish community in the Tsushima warm current (TWC) region of the Japan/East Sea. The long-term trend in fisheries production was largely dependent on the Japanese sardine that, as a single species, contributed up to 60% of the total production in the Japanese waters of the Japan/East Sea during the late 1980s. Excluding Japanese sardine, production of the small pelagic species was higher during 1960s and 1990s but lower during 1970s and 1980s. This variation pattern generally corresponds with the trend in water temperature, warmer before early 1960s and after 1990s but colder during 1970s and 1980s. The warm-water, large predatory fishes and cold water demersal species show opposite responses to the water temperature in the TWC region, indicating the significant impact of oceanic conditions on fisheries production of the Japan/East Sea. Declines in demersal fishes and invertebrates during 1970s and 1980s suggested some impact of fishing. MTL and DI show a similar variation pattern: higher during 1960s and 1990s but lower during 1970s and 1980s. In particular, the sharp decline during the 1980s resulted from the abundant sardine catches, suggesting that dominant species have a large effect on the structure of the fish community in the Japan/East Sea. Principal component analysis for 58 time-series data sets of fisheries catches suggested that the fish community varied on inter-annual to inter-decadal scales; the abrupt changes that occurred in the mid-1970s and late 1980s seemed to correspond closely with the climatic regime shifts in the North Pacific. These results strongly suggest that the structure of the fish community in the Japan/East Sea was largely affected by climatic and oceanic regime shifts rather than by fishing. There is no evidence showing “fishing down food webs” in the Japan/East Sea. However, in addition to the impacts of abrupt shifts that occurred in the late 1980s, the large predatory and demersal fishes seem to be facing stronger fishing pressure with the collapse of the Japanese sardine.     

Regime shifts in upwelling ecosystems: observed changes and possible mechanisms in the northern and southern Benguela

A regime shift is considered to be a sudden shift in structure and functioning of a marine ecosystem, affecting several living components and resulting in an alternate state. According to this definition, regime shifts differ from species replacement or alternation of species at similar trophic levels, whereby the ecosystem is not necessarily significantly altered in terms of its structure and function; only its species composition changes. This paper provides an overview of regime shifts, species replacements and alternations that have been observed in the northern and southern Benguela ecosystems over the past few decades. Bottom-up control, initiating and sustaining regime shifts or species replacements via environmental forcing, is documented for both the southern and the northern Benguela ecosystems. Fishing (a case of top-down control) appears to have played an important role in regime shift processes in the Namibian ecosystem. Very low biomass levels of exploited fish stocks associated with less efficient energy transfer in the northern Benguela are indicative of a regime shift. Very high biomass levels have been reached in the southern Benguela in the 2000s. However the alternation between sardine and anchovy that has been observed in the southern Benguela over the last two decades appears not to have had major effects on the overall functioning of the ecosystem. The consequences of regime shifts for exploitation are highlighted, suggesting that fisheries managers should move towards a more effective ecosystem approach to fisheries.     

不同模态下气候变化对智利竹筴鱼补充量的影响

智利竹筴鱼(Trachurus murphyi)是东南太平洋重要的经济鱼类之一,其资源量受补充量影响明显,了解补充量状况对智利竹筴鱼资源可持续利用和科学管理具有重要意义。本文基于模态分析将1971?2017年间智利竹筴鱼补充量划分不同模态,运用贝叶斯模型平均法,分析海表面温度、海表面盐度、海表面高度、厄尔尼诺和太平洋年代际振荡5个环境因子在不同模态中对补充量的解释能力,并探讨模态变动对补充量预测的影响。结果表明,第1模态(1971?1980年)更多的受捕捞因素的干扰;第2模态(1981?1990年)厄尔尼诺对补充量变动的解释概率最高;第3模态(1991?2001年)解释概率最高的环境因子为太平洋年代际振荡;第4模态(2002?2015年)厄尔尼诺为解释概率最高的环境因子。对比不考虑模态变动的分析结果,两者存在明显差异,基于不同模态的分析结果对智利竹筴鱼补充量变动的解释更为合理。研究认为,智利竹筴鱼补充量变动受到多个环境因子的影响,在不同模态时期起主导作用的环境因子也不同,推测年代际太平洋年代际振荡冷暖期交替与厄尔尼诺现象可能是诱发智利竹筴鱼补充量发生模态转变的重要因素。建议在未来智利竹筴鱼资源评估与管理中,应该考虑不同的模态变化及其影响因子。     

黄海中南部近岸海域春季鱼类浮游生物群落空间格局研究

根据2015年春季在黄海中南部近岸海域进行的鱼类浮游生物大型浮游生物网水平拖网数据,采用生态多样性指数和多元统计分析等方法,研究了该海域鱼类浮游生物的种类组成和群落空间格局及其与环境因子的关系。结果表明,本次调查共采集到鱼类浮游生物35种,其中鱼卵21种,仔稚鱼23种。鱼类浮游生物隶属于8目18科34属,优势种为鳀（Engraulis japonicus）、鲬（Platycephalus indicus）、鱼衔属（Callionymus spp.）和小黄鱼（Pseudosciaena polyactis）。其中,鳀和鱼衔属主要分布于海州湾渔场海域,鲬主要分布于吕泗渔场海域,小黄鱼多分布于吕泗渔场北部海域。生态类型包括半咸水型、沿岸型和近海型种类。聚类分析表明,鱼类浮游生物群落可划分为以鱼衔属、鳀为优势种的站位组A（主要分布于海州湾海域）、以小黄鱼、黄鲫（Setipinna taty）等为优势种的站位组B（主要位于江苏沿岸海域）和以鲬为优势种的站位组C（主要位于江苏沿岸-近海海域）,以站位组B的群落物种多样性指数和均匀度指数最高。各站位组的鱼类浮游生物的生态类型和适温类型组成不同,这与其所处的海域生境有关。典范对应分析（CCA）表明,影响春季黄海中南部鱼类浮游生物群落空间结构的主要环境因子为水深和表层温度。同时也受洋流、底质类型等多种因素的综合影响。研究结果初步揭示了黄海中南部近岸海域鱼类浮游生物群落的空间格局,可为今后科学制定该海域水产种质资源保护区、资源量化管理等资源养护管理措施提供科学依据与技术支撑。     

Changes in the northern Gulf of St. Lawrence ecosystem estimated by inverse modelling: Evidence of a fishery-induced regime shift?

Mass-balance models have been constructed using inverse methodology for the northern Gulf of St. Lawrence for the mid-1980s, the mid-1990s, and the early 2000s to describe ecosystem structure, trophic group interactions, and the effects of fishing and predation on the ecosystem for each time period. Our analyses indicate that the ecosystem structure shifted dramatically from one previously dominated by demersal (cod, redfish) and small-bodied forage (e.g., capelin, mackerel, herring, shrimp) species to one now dominated by small-bodied forage species. Overfishing removed a functional group in the late 1980s, large piscivorous fish (primarily cod and redfish), which has not recovered 14 years after the cessation of heavy fishing. This has left only marine mammals as top predators during the mid-1990s, and marine mammals and small Greenland halibut during the early 2000s. Predation by marine mammals on fish increased from the mid-1980s to the early 2000s while predation by large fish on fish decreased. Capelin and shrimp, the main prey in each period, showed an increase in biomass over the three periods. A switch in the main predators of capelin from cod to marine mammals occurred, while Greenland halibut progressively replaced cod as shrimp predators. Overfishing influenced community structure directly through preferential removal of larger-bodied fishes and indirectly through predation release because larger-bodied fishes exerted top-down control upon other community species or competed with other species for the same prey. Our modelling estimates showed that a change in predation structure or flows at the top of the trophic system led to changes in predation at all lower trophic levels in the northern Gulf of St. Lawrence. These changes represent a case of fishery-induced regime shift.     

Trends in the demersal fish community off Namibia from 1983 to 1990

Demersal fish communities off southern Namibia were analysed on the basis of seven winter and five summer stratified random sampling cruises between 1983 and 1990. The 37 most abundant species selected for analysis represented 78-&ndash96 per cent of the total estimated biomass. The biomass of most of them decreased over the period of study. However, the decreases were only substantial for winter cruises; the fluctuations recorded on the summer cruises appeared to be more closely related to hydrographic conditions. In relatively cool summers the estimated biomasses of seven species (including Merluccius capensis and Lophius vomerinus) were quite similar to, or lower than, the biomasses estimated six months earlier. In contrast, the estimated biomasses of the same seven species during relatively warm summers were distinctly higher than the estimates made the previous winter. In all, 10 species, including the commercially important Austroglossus microlepis, Lophius vomerinus and Merluccius capensis, were more available to bottom trawls in summer than in winter. Multivariate analysis revealed several distinct assemblages separated by latitude and depth, but with seasonal variation. Similarity indices between cruises were high (mean Schoener index around 0,7), indicating that changes in biomass do not affect the structure of the demersal fish community. It is suggested that, although the high levels of fishing effort deployed in the region lowered the total fish biomass, community stability, expressed as absence of change in species assemblages, was significantly high.     

浙江南部近海春季鱼类群落结构特征及其年际变化

根据2016年和2020年5月在浙江南部近海采集的渔业资源调查资料,采用相对重要性指数、Bray-Curtis聚类和相似性百分比SIMPER分析、生物量谱及ABC曲线等方法,分析该水域春季鱼类群落结构特征及其稳定性的年际变化。结果显示:(1)2016年春季共捕获鱼类65种,优势种为带鱼Trichiurus lepturus、七星底灯鱼Benthosema pterotum和鳀Engraulis japonicus,而2020年春季共捕获鱼类30种,优势种为七星底灯鱼和带鱼;(2)通过聚类分析发现,2016和2020年春季鱼类群落空间格局相似,均可划分为南、北群落;(3)通过SIMPER分析,2016年春季南部群落典型种为二长棘鲷Evynnis cardinalis、龙头鱼Harpadon nehereus和鳀,北部群落典型种为龙头鱼,群落间的分歧种为带鱼;2020年南部群落典型种为七星底灯鱼,北部群落典型种为镰鲳Pampus echinogaster和小黄鱼Larimichthys polyactis,群落间的分歧种为带鱼、镰鲳和小黄鱼;(4)基于生物量谱分析,2016年和2020年春季鱼类标准生物量谱的斜率均小于-1,表明生物量均随个体平均体质量的增加而减少;(5)ABC曲线结果表明,2016年春季鱼类群落处于中等干扰状态(W=-0.22),而2020年春季鱼类群落则处于严重干扰状态(W=-0.09);(6) 经RDA排序分析,2016年和2020年春季影响鱼类群落分布的主要环境因子均为表层水温、盐度和水深。综上所述,浙江南部近海的鱼类年际变化为鱼类种类显著下降,群落特征种更替明显,群落受外界干扰影响加剧。     

Decadal changes in fish assemblages in waters near the Ieodo ocean research station (East China Sea) in relation to climate change from 1984 to 2010

We compiled and analyzed past time-series data to evaluate changes in oceanographic conditions and marine ecosystems near the Ieodo ocean research station (IORS) in the East China Sea (N 31°15??C33°45??, E 124°15??C127°45??) in relation to longterm changes in climate and global warming. The environment data we used was a depth-specific time-series of temperature and salinity for the water columns at 175 fixed stations along 22 oceanographic lines in Korean waters, based on bimonthly measurements since 1961 taken by the National Fisheries Research & Development Institute. As an indicator for the ecosystem status of the waters off Ieodo, we analyzed species composition in biomass of fishes caught by Korean fishing vessels in the waters near the IORS (1984?C2010) and summarized the data in relation to the environmental changes using canonical correspondence analysis (CCA). To detect step changes in the time-series of environmental factors, we applied a sequential t-test analysis of regime shift. Correspondence analysis detected a major shift in fish assemblage structure between 1990 and 1993: the dominant species was filefish during 1981?C1992, but chub mackerel during 1992?C2007. This shift in fish assemblage structure seemed to be related to the well-established 1989 regime shift in the North Pacific, which was confirmed again with respect to temperature in the Yellow Sea and the Korea Strait (but not in the waters off the IORS). In overall from 1984 to 2010, salinity was more important than water temperature in CCA, implying that the fluctuation of the Tsushima warm current is a most important force driving the long-term changes in fish assemblage structure in the waters off the IORS. Further multidisciplinary researches are required to identify oceanographic and biological processes that link climate-driven physical changes to fish recruitment and habitat range fluctuations.