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捕捞对北部湾海洋生态系统的影响 总被引:12,自引:0,他引:12
利用Ecopath with Ecosim (EwE) 5.1软件构建了北部湾海洋生态系统1959—1960年的Ecosim模型,包含渔业、海洋哺乳动物、海鸟、中上层鱼类、底层鱼类、底栖无脊椎动物等20个功能组,通过与1997—1999年调查数据对比,分析了捕捞活动对北部湾生态系统的结构和功能的影响.结果表明:近40年来在捕捞强度不断增加的压力下,生态系统的结构和功能发生显著变化,长寿命、高营养级的肉食性鱼类生物量下降明显,系统以短寿命、小型鱼类和无脊椎动物占优势.1999年的大中型鱼类的生物量仅为1960年的6%,而小型鱼类和无脊椎动物则明显上升,尤其是头足类生物量上升了2.7倍,渔获物的营养级则从1960年的3.2降低到1999年的298,体现了“捕捞降低海洋食物网”的特点,目前的开发模式是不可持续的.利用20世纪90年代数据预测了降低捕捞压力后生态系统的变化.本研究证实了可以使用Ecosim模型预测捕捞压力对生态系统的影响. 相似文献
2.
捕捞对长山群岛海域渔业生态系统的影响 总被引:1,自引:0,他引:1
为了评价捕捞对渔业生态系统的综合影响程度,建立渔业生态系统保护管理决策支持系统,本文基于状态、压力和生物群落响应PSR模型、利用层次分析法构建了捕捞对渔业生态系统的影响评价模型,包含渔船数量、捕捞压力指数、渔获量、底层鱼类比重、营养级、优势种单体重量、经济鱼类渔获量、多样性指数、均匀度指数3个层次9个指标,并选择1987—1988年和2006—2007年长山群岛游泳生物调查数据对其进行了定量评价。结果表明:近20年来,在捕捞强度不断增加的压力下,渔业生态系统的结构和功能发生显著变化,长寿命、高营养级的肉食性鱼类生物量下降明显,系统以短寿命、小型鱼类占优势;鱼类资源量、底层鱼类比重、营养级、优势种单体重量、经济鱼类渔获量、多样性指数、均匀度指数年退化率分别为4.75%、3.64%、0.31%、4.28%、2.32%、0.39%、1.14%;通过模型评价,渔业生态系统健康指数为0.34,低于评价等级Ⅲ级,说明近20年捕捞导致长山群岛渔业生态系统处于不健康状态。 相似文献
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为更好地保护和管理西沙永兴岛附近海域珊瑚礁鱼类,于2020—2021年对永兴岛上岸渔获物进行了调查研究,分析了鱼类群落结构组成及其变化和演替特征。结果表明:调查共发现永兴岛附近海域珊瑚礁鱼类101种,隶属于5目21科,以鲈形目鱼类最多,占总种类的84.16%,生物量超总渔获物的90%;科级水平鹦嘴鱼科鱼类最多,达21种,生物量超总渔获物的45%。28种珊瑚礁鱼类是永兴岛附近海域主要捕捞对象,占总渔获物的80%以上。永兴岛附近海域珊瑚礁鱼类呈现过度捕捞,一是主要渔获物中的中大型鱼类均重偏小;二是本海域个体体型最大的鱼类出现较多消亡;三是肉食性鱼类大量消亡;四是植食性鱼类生物量占比超过了肉食性鱼类。永兴岛附近海域珊瑚礁鱼类已经演替到以植食性鱼类为主导的生态系统;大量海胆的出现,表明了这一珊瑚礁生态系统在进一步衰退,向以海胆为主导的生态系统演变。保护西沙永兴岛附近海域珊瑚礁鱼类已经刻不容缓,需要严格地控制本海域的捕捞强度。 相似文献
4.
确定溪流鱼类多样性的时空分布格局可为鱼类多样性保护与管理提供科学基础。尽管溪流鱼类分类群多样性的纵向梯度格局已有大量报道, 但以鱼类生物学特征为基础的功能多样性研究较少。本文基于2009-2010年4个季度对青弋江1-5级溪流共15个样点的调查数据, 利用形态特征数据和食性构建了鱼类复合功能群, 研究了不同级别溪流间鱼类分类群和功能群组成及多样性的异同, 着重探讨了鱼类分类群和功能群的α和β多样性沿溪流纵向梯度的变化规律。采集到的56种鱼类可分为4个营养功能群和5个运动功能群, 共计14个“营养-运动”复合功能群。双因素交互相似性分析结果显示, 鱼类分类群和功能群组成都随河流级别显著变化, 但季节动态不显著; 双因素方差分析后发现, 鱼类分类群和功能群α、β多样性都随河流级别显著变化, 但受季节影响不显著。经回归分析, 分类群和功能群α多样性与河流级别大小呈显著的线性正相关, 但最大分类群α多样性出现于4级河流, 最大功能群α多样性在4级和5级河流间一致; 分类群和功能群β多样性与河流级别大小呈显著的二项式关系, 呈U型分布。分类群β多样性的空间变化主要取决于物种周转, 而功能群β多样性主要由嵌套所驱动。本研究表明, 沿着“上游-下游”的纵向梯度, 河流鱼类的α和β多样性的空间变化规律不同, 分类群和功能群α多样性的空间格局基本一致, 但分类群(主要是物种周转)和功能群β多样性(主要是功能嵌套)的空间变化过程的驱动机制不同。 相似文献
5.
炭疽叶枯病(Glomerella leaf spot)是我国苹果上新发现的一种病害。为了解围小丛壳Glomerella cingulata子囊孢子的交配方式、生物学特性和致病性,从安徽砀山、山东牟平等地采集病害样品,经分离培养和纯化获得单孢菌株。在适宜条件下单孢菌株可产生子囊和子囊孢子,经过毛细管破子囊壁后单孢分离,获得12个子囊,每个子囊有8个子囊孢子。其中10个子囊中有4个“正”孢子(+)和4个“负”孢子(-),2个子囊中只有“负”孢子。子囊孢子单孢菌株培养72h,“正”菌株菌落白色,以营养生长为主;“负”菌株菌落灰白色,直径略小于正菌株,菌丝稀疏,边缘菌丝白色,中部有大量橙色的分生孢子堆。“正”、“负”菌株异宗配合后,可产生大量可育子囊壳;单独的“正”菌株有性生殖产生稀疏丛簇状的可育子囊壳;单个的“负”菌株只能产生分散且不育的子囊壳。“正”、“负”菌株菌落的生长速度没有差异,对温度、营养、光照和pH值的敏感性也没有差异,但“正”、“负”菌株的致病性存在差异。正菌株的有性生殖没有导致rDNA-ITS、β-tubulin基因碱基序列变异。 相似文献
6.
基于渔获统计的太平洋岛国渔业资源开发利用现状评价 总被引:2,自引:0,他引:2
全面评价渔业资源开发利用状况能够为资源的合理利用提供依据,营养指标作为以生态系统为基础的渔业管理方法与模式在近年来广泛运用于渔业管理中,用于评估捕捞活动的影响。根据联合国粮农组织FAO提供的1950—2010年太平洋岛国的渔获生产统计数据,结合Fishbase提供的相关鱼种营养级(Trophic level,TL)以及Sea Around Us Project数据库提供的无脊椎动物营养级,探讨了1950—2010年澳大利亚、新西兰、基里巴斯和斐济等四国的渔获物平均营养级(Mean trophic level,MTL)的变化情况,以此判定各国海洋渔业资源可持续利用情况。结果表明:澳大利亚资源状况较好,尽管其MTL在1950—1984年以0.09/10a的速度下降,但通过剔除TL低于3.25的物种,从而排除生物量受环境影响而波动较大的植食动物、腐生生物和食浮游生物动物对MTL造成的影响,观察TL大于3.25渔获物平均营养级(~(3.25)Mean trophic level,~(3.25)MTL)的变化情况,其~(3.25)MTL在1950—2010年呈波动上升趋势,说明MTL的下降是由低营养级鱼种产量的增加所引起的。新西兰海洋渔业资源遭到了一定程度的破坏,尽管其MTL自20世纪70年代中期开始大幅上升,并在1990—2010年处于高水平上稳定波动,未出现明显的下降趋势;但在不统计TL低于3.25的物种情况下,其~(3.25)MTL经过1977—1980年的加速上升以及1981—1998年的缓慢上升,在1999—2010年稳定下降并趋于平衡。从基里巴斯和斐济整个海域的营养指标变化情况来看,两国渔业资源状况较好,但将基里巴斯和斐济渔业分为外海渔业和沿岸渔业两类时,伴随产量的持续上升,两国的外海渔业MTL均未出现明显的降低,资源处于加速开发状态;而两国的沿岸渔业MTL在近年来均出现下降,资源被过度捕捞。为促使渔业的可持续发展,各国需加强对资源的动态监测与评估,以掌握捕捞活动下资源的变化情况。 相似文献
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8.
稳定同位素技术已广泛地用于分析生态系统中食物网的食物来源和营养级关系,但在海洋哺乳动物食性方面应用较少。通过分析2012年4—6月在辽东湾沿岸海域搁浅而死亡的江豚样本和同时期(6月)取自辽东湾海域主要渔获物的碳氮稳定同位素比值,研究了江豚(Neophocaena asiaeorientalis ssp.sunameri)及其可能摄食饵料的碳氮稳定同位素组成。结果表明:江豚δ13C值为(-18.4±0.3)‰,δ15N值为(13.8±0.4)‰。28种可能生物饵料的δ13C值的范围为-19.5‰—-17.0‰,δ~(15)N值的范围为11.4‰—14.0‰。江豚的营养级为4.5,高于传统胃含物分析法的研究结果。28种测试生物的营养级位于3.8—4.6之间。江豚的食物来源主要以鱼类为主,对食物种类的喜食顺序为中上层鱼类中下层鱼类底层鱼类头足类虾类蟹类,其平均贡献率分别为43.9%、18.2%、13.1%、10.0%、8.8%、6.0%。江豚碳氮稳定同位素比值与体长无明显的线性关系,碳营养源较为稳定,氮营养源复杂多变。 相似文献
9.
运用基因敲入技术,将GFP、mCherry整合到果生刺盘孢 Colletotrichum fructicola组蛋白histone H1位点,实现融合表达,获得细胞核荧光标记菌株。基于标记菌株可以对分生孢子、营养菌丝、附着胞、侵染菌丝等结构中的细胞核进行实时活体观察。果生刺盘孢存在性亲和的“+”、“-”型菌株分化,GFP“+”型菌株和mCherry“-”型菌株接触形成明显杂交线,杂交线上单子囊内含红绿两种孢子,表明“+”、“-”型菌株间发生杂交;杂交线上子囊壳壁表达mCherry,表明由“-”型菌株发育而来。本研究构建的核荧光标记菌株将是研究果生炭疽菌细胞周期调控和有性繁殖过程的重要材料。 相似文献
10.
2019年底暴发并席卷全球的新型冠状病毒肺炎疫情已经成为需要世界各国共同努力克服的全球重大卫生安全挑战。当前,中国已基本控制国内新冠肺炎疫情,并在疫情相关科学研究及公共卫生产品研发方面取得重大进展,同时加强了与“一带一路”参与国家开展国际科技合作。对中国与“一带一路”参与国家抗击新冠肺炎疫情的基础研究合作、国际科技合作项目等方面进行梳理,可以看到:中国与“一带一路”参与国家形成了领域交叉、节点多样的复杂合作网络,并主要与东南亚、中东欧和西亚各国合作密切;中国与“一带一路”参与国家的科研机构已在防控、流行病学和治疗等领域展开了大量实质研究,合作关系更偏向援助型合作。未来应加强与“一带一路”参与国家的生物技术产业合作与技术转移,发挥“一带一路”区域支点国家的示范效应等方面构建与“一带一路”参与国家更丰富、紧密、务实的科技合作关系。 相似文献
11.
The worldwide depletion of major fish stocks through intensive industrial fishing is thought to have profoundly altered the trophic structure of marine ecosystems. Here we assess changes in the trophic structure of the English Channel marine ecosystem using a 90-year time-series (1920–2010) of commercial fishery landings. Our analysis was based on estimates of the mean trophic level (mTL) of annual landings and the Fishing-in-Balance index (FiB). Food webs of the Channel ecosystem have been altered, as shown by a significant decline in the mTL of fishery landings whilst increases in the FiB index suggest increased fishing effort and fishery expansion. Large, high trophic level species (e.g. spurdog, cod, ling) have been increasingly replaced by smaller, low trophic level fish (e.g. small spotted catsharks) and invertebrates (e.g. scallops, crabs and lobster). Declining trophic levels in fisheries catches have occurred worldwide, with fish catches progressively being replaced by invertebrates. We argue that a network of fisheries closures would help rebalance the trophic status of the Channel and allow regeneration of marine ecosystems. 相似文献
12.
Justin Kantoussan Jean Marc Ecoutin Guy Fontenelle Luis Tito de Morais Raymond Laë 《Ecological Indicators》2010,10(5):927-934
Trophic indicators were used to compare two Malian freshwater reservoirs whose main differences are based on their different fishing pressures. Data were collected from a scientific survey of small-scale fishery landings conducted in 2002/2003. The trophic levels of fish species caught by artisanal fisheries are estimated from observations of scientific fishing or from the metabase Fishbase. Important differences exist in the trophic structure of both reservoirs. In Selingue (with high fishing pressure), very few top predators are found in the catches while the low trophic level fishes increase in total catches. In Manantali (with low fishing pressure), the top predators contribute twice as much to catches compared to Selingue. Hence, the mean trophic level of catches in Selingue (2.80) is lower than in Manantali (2.97). When comparing these results with those of study made in 1994/1995, it clearly appears that the effects of the fishing pressure in Selingue are obvious through a decrease of 0.12 in the mean trophic level while in Manantali this mean level has increased by 0.33 due to a recent strategic targeting of top predators. Trophic spectra seem to be relevant tools to characterize exploited fish communities from multi-specific and multi-gear small-scale fisheries catch data. 相似文献
13.
Hugo Bornatowski Ronaldo Angelini Marta Coll Rodrigo R. P. Barreto Alberto F. Amorim 《Reviews in Fish Biology and Fisheries》2018,28(1):241-259
Large pelagic predators occupy high positions in food webs and could control lower trophic level species by direct and indirect ecological interactions. In this study we aimed to test the hypotheses: (1) pelagic predators are keystone species, and their removals could trigger impacts on the food chain; (2) higher landings of pelagic predators could trigger fishing impacts with time leading to a drop in the mean trophic level of catches; and (3) recovery in the pelagic predators populations, especially for sharks, could be achieved with fishing effort reduction. We performed a food web approach using an Ecopath with Ecosim model to represent the Southeastern and Southern Brazil, a subtropical marine ecosystem, in 2001. We then calibrated the baseline model using catch and fishing effort time series from 2001 to 2012. Afterwards, we simulated the impact of fishing effort changes on species and assessed the ecological impacts on the pelagic community from 2012 to 2025. Results showed that the model was well fitted to landing data for the majority of groups. The pelagic predators species were classified as keystone species impacting mainly on pelagic community. The ecosystem was resilient and fisheries seem sustainable at that time. However, the temporal simulation, from 2001 to 2012, revealed declines in the biomass of three sharks, tuna and billfish groups. It was possible observe declines in the mean trophic level of the catch and in the mean total length of landings. Longline fisheries particularly affected the sharks, billfish and swordfish, while hammerhead sharks were mostly impacted by gillnet fishery. Model simulations showed that large sharks’ biomasses could be recovered or maintained only after strong fishing effort reduction. 相似文献
14.
Fishing is the most widespread human exploitation of marine resources, which has an annual cyclical influence on aquatic species in Chinese offshore waters. This study used carbon and nitrogen isotopic ratios as tracers to reveal the changes in trophic level and dietary composition of offshore organisms during four cruises in March, June, August and November 2014. The results indicated that the trophic levels of fishes declined during two fishing periods, from March (average trophic level = 3.36) to June (3.01), and from August (2.99) to November (2.57), while most invertebrates did not show this trend. The self-restoring ability of this ecosystem was reflected in the trophic level changes after the closed fishing season (from June 1 to September 1). The trophic levels of fishes remained stable, and some species even recovered such as Enchelyopus elongates (trophic level increased from 2.84 in June to 2.86 in August), Cryptocentrus filifer (from 3.10 to 3.12), and Ernogrammus hexagrammus (from 2.91 to 2.96). According to the trophic results, we selected the invertebrates Octopus minor and Asterias amurensis from the top trophic levels for dietary composition analysis. The composition of their diets changed significantly after fishing periods, and the proportions of some smaller and “non-commercial” species increased, such as Notoacmea schrenckii and Chlorostoma rustica. After the closed fishing season, the larger and “commercial” species contributed a greater proportion to their diet composition. These results indicated that the closed fishing season should be prolonged to give the ecosystem enough time to restore itself and further halt the trend of this fishery towards environment deterioration. 相似文献
15.
Exploitation dynamics of fish stocks 总被引:1,自引:0,他引:1
I address the question of the fluctuations in fishery landings. Using the fishery statistics time-series collected by the Food and Agriculture Organization of the United Nations since the early 1950s, I here analyze fishing activities and find two scaling features of capture fisheries production: (i) the standard deviation of growth rate of the domestically landed catches decays as a power–law function of country landings with an exponent of value 0.15 and (ii) the average number of fishers in a country scales to the 0.7 power of country landings. I show how these socio-ecological patterns may be related, yielding a scaling relation between these exponents. The predicted scaling relation implies that the width of the annual per capita growth-rate distribution scales to the 0.2 power of country landings, i.e. annual fluctuations in per capita landed catches increase with increased per capita catches in highly producing countries. Beside the scaling behavior, I report that fluctuations in the annual domestic landings have increased in the last 30 years, while the mean of the annual growth rate declined significantly after 1972. 相似文献
16.
厦门同安湾定置网捕获鱼类的多样性及营养级特征 总被引:1,自引:0,他引:1
利用2012年4月至2013年3月在同安湾进行的定置网渔业资源调查资料, 探讨了该海域鱼类多样性及平均营养级特征。结果表明, 周年逐月共鉴定鱼类112种, 隶属于15目53科88属。渔获物组成以沿岸小型底层鱼类为主, 其中中上层鱼类15种, 中下层鱼类18种, 底层鱼类79种; 暖水性种类84种, 暖温性种类28种, 亚热带动物区系特征明显; 杂食性鱼类8种, 低级肉食性鱼类71种, 中级肉食性鱼类30种, 高级肉食性鱼类3种, 以低级肉食性鱼类为主。中华海鲶(Tachysurus sinensis)是夏、秋、冬三季的优势种, 六指多指马鲅(Polydactylus sextarius)、锯脊塘鳢(Butis koilomatodon)和髭缟鰕虎鱼(Tridentiger barbatus)是春、冬两季的优势种。重量和尾数多样性指数最高值均在11月, 分别为3.26和3.29; 最低值均在2月, 分别为1.78和1.77。鱼类种类存在明显的季节更替现象, 其月更替率6月最低, 为40.1%; 3月最高, 达68.6%。鱼类平均营养级也存在明显的季节变化, 其中3月最低, 为3.02; 1月最高, 为3.92; 周年平均营养级为3.52。与2003年调查资料相比, 鱼类种类数明显减少, 鱼类组成和优势种发生了很大的变化, 导致变化的主要原因可能是过度捕捞、栖息地破坏和环境污染等。 相似文献
17.
YE Shao-Wen ZENG Wen-Tao CHEN Yu-Shun ZHANG Tang-Lin LIU Jia-Shou LI Zhong-Jie 《水生生物学报》2018,42(6):1107-1115
了解不同种类和大小的鱼类对各种捕捞方式的脆弱性, 对于制定最佳的捕捞策略和合理开发鱼类资源至关重要。研究从渔获物组成、捕捞效率和个体大小等方面, 对长江中游典型湖泊牛山湖的四种渔具(网簖、刺网、电捕和鸬鹚)的捕捞选择性进行了比较分析。使用相对重要性指数(IRI)评价渔具捕捞对鱼类物种的选择性, 同时通过计算渔获物的平均营养水平(MTL)和饵料鱼与凶猛性鱼类的重量比, 分析捕捞对鱼类群落营养结构的潜在影响。结果表明, 网簖和电捕捕获的鱼类种数多、体长范围广, 对鱼类资源的破坏性最大, 应当加以限制或废除; 鸬鹚是捕获鳜(尤其是高龄鳜)的一种有效方式, 但对幼鳜和其他幼鱼也有较大损害, 应控制其捕捞强度; 刺网主要捕获几种经济鱼类, 并可平衡捕食者和饵料鱼之间数量关系, 是利用鱼类资源的一种较好方式, 关键在于对刺网网目大小和捕捞强度的限制。建议湖泊捕捞应从单一物种转向多物种综合管理, 并考虑物种之间的营养生态关系, 以更好地保护和可持续利用渔业资源。 相似文献
18.
Thomas A. Oliver Kirsten L. L. Oleson Hajanaina Ratsimbazafy Daniel Raberinary Sophie Benbow Alasdair Harris 《PloS one》2015,10(6)