首页 | 本学科首页   官方微博 | 高级检索  
相似文献
 共查询到20条相似文献,搜索用时 113 毫秒
1.
提高摄食-反捕食能力导向的鱼类野化训练方法述评   总被引:1,自引:0,他引:1  
鱼类的人工增殖放流未达到预期效果,原因之一是人工放流的鱼在放流后死亡率很高.鱼类在放流前的野化训练可能对提高其成活率有积极作用.本文分析了国内外增殖鱼类放流后成活率低的原因,指出摄食-反捕食能力是影响鱼类放流后成活率的关键要素之一;探讨了影响摄食-反捕食能力的重要因素,包括认知食物和捕食者信息、社会学习经验、环境的复杂程度和鱼类的游泳能力等;展望了鱼类野化训练技术的发展方向.  相似文献   

2.
中国淡水鱼类人工增殖放流现状   总被引:15,自引:0,他引:15  
随着鱼类资源的持续衰退以及保护水产学的兴起,鱼类人工增殖放流已由传统渔业增殖发展成为特有珍稀鱼类种群恢复的主要技术手段。近年来,我国淡水鱼类人工增殖放流涉及水系多、规模大且种类丰富,取得了显著效果并积累了大量基础资料和经验。为深入开展人工增殖放流基础研究,规范技术并提升生态效益,该文收集整理了国内、外相关文献资料,分别从基础理论、塘养种群管理及效果评价等方面阐述人工增殖放流的理论背景,并结合我国"四大家鱼"、中华鲟、胭脂鱼、滇池金线鲃及其他珍稀濒危鱼类人工增殖放流现状,讨论了野外监测和效果评价的作用和意义,提出放流种群遗传局限性、数量和规格权衡以及经济效益与生态效益权衡等问题,旨在为相关研究和人工放流实践提供系统资料。  相似文献   

3.
增殖放流已成为恢复和保护水生生物资源的重要措施,水生生物增殖放流生态风险评价是指对水生生物增殖放流引发的正在发生或可能发生的不利生态过程的评估,目前相关研究处于发展阶段。文章综述了国内外生态风险评价研究进展,结合水生生物的生物学属性、生态学特征和增殖放流特点,探讨评价水生生物增殖放流对环境、环境生物、遗传和病害等的风险,并提出了生态风险防控措施,以期为今后水生生物增殖放流的实施、管理和研究提供参考依据。  相似文献   

4.
牙鲆是我国黄渤海重要的增殖放流鱼类,野生群体和放流群体的鉴别是评估牙鲆增殖效果的前提。为了研究稳定同位素技术在增殖放流牙鲆群体鉴别中的应用,本研究以秦皇岛近海增殖放流区捕捞牙鲆幼鱼为对象,先使用项目组前期开发的形态学和分子标记相结合的方法区分野生群体和放流群体,再分别测定肌肉碳、氮稳定同位素值和耳石(全耳石和耳石核心区域)碳、氧稳定同位素值,并以养殖群体为对照。结果表明: 利用肌肉δ13C值(野生群体:-17.19‰±0.73‰;放流群体:-17.10‰±0.61‰;养殖群体:-20.75‰±0.07‰)和δ15N值(野生群体:11.81‰±0.38‰;放流群体:11.62‰±0.48‰;养殖群体:8.64‰±0.60‰)及全耳石中δ13C值(野生群体:-4.47‰±0.35‰;放流群体:-4.63‰±0.29‰;养殖群体:-6.59‰±0.58‰)可鉴别出养殖群体,但是无法区分野生群体和放流群体;利用耳石核心区δ13C值(野生群体:-4.66‰±0.30‰;放流群体:-5.41‰±0.21‰;养殖群体:-5.37‰±0.19‰)可鉴别出野生群体。3个群体全耳石和耳石核心区δ18O值均有重叠,无法对群体进行鉴别。表明利用耳石核心区δ13C值可鉴别重建牙鲆幼鱼群体中的野生群体和放流群体,并在生殖洄游亲鱼群体的鉴别方面有一定的应用前景,这为后续估计增殖放流对牙鲆早期资源量的补充及深入开展增殖放流效果评估工作提供了基础数据和技术手段。  相似文献   

5.
胡蜂Vespidae是重要的捕食性天敌和授粉昆虫,敌害是制约胡蜂种群存活与发育的主要因素之一,弄清胡蜂的敌害种类和危害,可以为下一步防治技术措施的研究提供参考.通过目测法和设监视器等方法对广西胡蜂标准蜂群培育及其野训成为经济蜂群阶段的敌害种类和危害情况进行了初步调查,结果发现,胡蜂的敌害共有33种,其中有害动物19种、有害微生物14种.在标准蜂群野训成为经济蜂群期,对胡蜂危害严重的有害动物为蚂蚁、鸟类、盗虻、蝙蝠及松鼠等,蚂蚁对蜂群的危害最严重、最普遍;在蜂王越冬及标准蜂群培育期,对胡蜂危害严重的病害种类较多,有以色列急性麻痹病毒病、白垩病、欧幼病等,其中危害最严重的是以色列急性麻痹病毒病.14种有害微生物中,有13种病害是蜜蜂群中常见的病害.  相似文献   

6.
胶州湾近岸浅水区鱼类群落结构及多样性   总被引:5,自引:0,他引:5  
徐宾铎  曾慧慧  薛莹  纪毓鹏  任一平 《生态学报》2013,33(10):3074-3082
根据2009年3月-2010年2月在胶州湾西北部近岸浅水区进行的鱼类逐月定置网调查数据,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的鱼类群落结构及多样性特征.结果表明:调查共鉴定出44种鱼类,其中海洋性27种,河口性鱼类17种.鱼类种类组成与底层水温和盐度有密切关系.胶州湾近岸浅水区鱼类群落Margalef种类丰富度指数(R)变化范围为0.33-3.50,Shannon-Wiener多样性指数(H’)为0.42-2.25,Pielou均匀度指数(J’)为0.23-0.93.聚类分析(CLUSTER)和多维标度排序(MDS)分析表明,不同鱼类种类组成的各月份样品可划分为3个组分:水温较低的冬季组G1(12月-翌年4月)、水温次高的春秋季组G2(5-6月、10-11月)和水温最高的夏季组G3(7-9月).其中G1的典型种主要为尖海龙(Syngnathus acus)、方氏云鳚(Enedrias fangi)和玉筋鱼(Ammodytes personatus)等冷温性常栖类群种类,G2的主要典型种为鳀鱼(Engraulis japonicus)和尖海龙,G3的主要典型种为鲐鱼(Scomber japonicus)、细条天竺鱼(Apogonichthys lineatus)和普氏缰虾虎鱼(Amoya pflaumi)等洄游性鱼类.单因子相似性分析(ANOSIM)表明,3个月份组间鱼类群落结构差异显著,不同月份组间两两差异均显著.生物-环境分析(BIOENV)表明,底层水温是影响胶州湾近岸浅水区鱼类群落结构时间变化的主要环境因子.在胶州湾内近岸浅水区发现40余种幼鱼,但占优势的主要为低值鱼类,表明胶州湾的产卵、肥育场功能有所下降,应加强胶州湾近岸水域生态环境和渔业资源的保护及修复.  相似文献   

7.
象山港日本对虾增殖放流的效果评价   总被引:5,自引:0,他引:5  
日本对虾是中国近海重要的增殖品种,2010年象山港分两批次放流日本对虾苗种约1.67亿尾。通过对放流苗种存活状况、洄游分布、生长特性及回捕情况的跟踪调查,对象山港日本对虾的增殖效果做出初步评价。结果表明:(1)日本对虾放流苗种在8月中旬成为补充群体,集中于港区底部进行索饵育肥;9月中旬,第1、2批放流苗种的平均体长分别达到95.4 mm和71.4 mm,成活率分别约为0.79%和1.06%;10月上旬,随着港区水温降低,增殖苗种资源量锐减。(2)协方差分析表明:日本对虾增殖群体和自然群体的体长-体重关系存在显著性差异,增殖群体的体征状况明显优于自然群体。(3)日本对虾放流苗种在港区主要为桁杆拖虾和地笼网渔业所利用,在港区滞留期间,回捕率约为0.25%。总结发现:栖息地破坏及放流苗种的过早利用是制约象山港日本对虾增殖效果的重要因素,优化增殖策略、保护港区生态环境应是今后港区增殖工作的重点。  相似文献   

8.
正大宁河近年来每年放流的鱼苗在1000万尾以上,种类包括"四大家鱼"以及地方特有鱼类如胭脂鱼和岩原鲤等。"明天早上来看我捕到多少鱼",渔民万师傅信心满满地向我们发出邀请。我们欣然答应,不过令我们感到更加赏心悦目的是大宁河清澈碧绿的水。所有这些成绩,都离不开我们过去几年在此开展的增殖放流活动。  相似文献   

9.
渤海鱼类食物关系的初步研究   总被引:41,自引:0,他引:41       下载免费PDF全文
本文材料取自1982年4月—1983年5月在渤海逐月进行的拖网探捕调查。共分析了54种鱼的1,863个胃。用3个指标确定各种饵料在鱼类食谱中的重要性:(1)重量百分比(W);(2)尾数百分比(N);(3)出现频率(F)。根据3个指标计算每种饵料的相对重要性指标:IRI=(N+W)·F。按照IRI的大小,渤海的鱼类大体上可分成5个类群:(1)浮游动物食性;(2)浮游和底栖动物食性;(3)底栖动物食性;(4)底栖和游泳动物食性;(5)游泳动物食性。这些龟类按Odum和Heald的方法可分成3个营养级:(1)低级肉食性鱼类;(2)中级肉食性鱼类;(3)高级肉食性鱼类。 在渤海饵料生物中,起主要作用的是浮游动物、鼓虾、短尾类、尖尾鰕虎鱼、钝尖尾鰕虎鱼和(鱼是)鱼.根据主耍饵料,渤海鱼类可以分成5个类群:(1)以黄盖鲽为代表,它们主食腔肠动物、多毛类和棘皮动物;(2)以鳎类为代表,主食鼓虾和短尾类;(3)以鳐类、石首鱼类为代表,主食鼓虾和钝尖尾锻虎鱼;(4)以(鱼是)鱼为代表,主食浮游动物;(5)以牙鲆为代表,主食鱼类。5个类群之间,仅第2、3两个类群在鼓虾上有食物竞争。 在除掉渤海湾、辽东湾及5米以内浅水区外的调查海区内的54种鱼1863个消化道中,仅发现8尾对虾,它表明对虾几乎没有被其它鱼类捕食。对近岸及各湾的幼体和仔、幼虾来说,可能并非如此,需要进行专门的调查后才能弄清。  相似文献   

10.
渤海南部半滑舌鳎的食性及摄食的季节性变化   总被引:25,自引:0,他引:25       下载免费PDF全文
窦硕增  杨纪明 《生态学报》1992,12(4):368-376
本文研究了渤海南部半滑鳎的食性及其摄食的季节性变化,胃食物分析结果表明,半滑舌鳎为底栖生物食性鱼类,以虾类,蟹类,双壳类及部分中下层小型鱼类为主要食物,兼食一些多毛类,头足类,腹足类,棘皮动物及海葵,半滑舌鳎终年摄食,其摄食强度的周年变化不大,半滑舌鳎常年捕食鲜明鼓虾,日本鼓虾,口虾蛄,隆线强蟹及泥古隆背蟹等。夏季加强捕食小刀蛏,凸壳肌蛤等双壳类,降春季外还捕食一些以虾虎鱼为主的中下层小型鱼类。  相似文献   

11.
Marine stock enhancement is often characterized by poor survival of hatchery-reared individuals due to deficiencies in their fitness, such as a diminished capacity to avoid predators. Field experiments were used to examine predation on Penaeus plebejus, a current candidate for stock enhancement in Australia. We compared overall survival of, and rates of predation on, wild P. plebejus juveniles, naïve hatchery-reared juveniles (which represented the state of individuals intended for stock enhancement) and experienced hatchery-reared juveniles (which had been exposed to natural predatory stimuli). Predation was examined in the presence of an ambush predator (Centropogon australis White, 1790) and an active-pursuit predator (Metapenaeus macleayi Haswell) within both complex (artificial macrophyte) and simple (bare sand and mud) habitats. Overall survival was lower and rates of predation were higher in simple habitats compared to complex habitats in the presence of C. australis. However, the three categories of juveniles survived at similar proportions and suffered similar rates of predation within each individual habitat. No differences in survival and rates of predation were detected among habitats or the categories of juveniles when M. macleayi was used as a predator. These results indicate that wild and hatchery-reared P. plebejus juveniles are equally capable of avoiding predators. Furthermore, exposure of hatchery-reared juveniles to wild conditions does not increase their ability to avoid predators, suggesting an innate rather than learned anti-predator response. The lower predation by C. australis in complex habitats was attributed to a reduction in this ambush predator's foraging efficiency due to the presence of structure. Ecological experiments comparing wild and hatchery-reared individuals should precede all stock enhancement programs because they may identify deficits in hatchery-reared animals that could be mitigated to optimize survival. Such studies can also identify weaknesses in wild animals, relative to hatchery-reared individuals, that may lead to the loss of resident populations.  相似文献   

12.
  1. Juvenile perch (Perca fluviatilis) often inhabit deep zones of lakes or reservoirs (metalimnion to hypolimnion). Using fry trawling and hydroacoustic measurements, we studied perch distribution to determine if juveniles are using deep hypoxic waters (oxygen concentration ≤3.5 mg L?1) as a refuge from predation.
  2. We found a heterogeneous depth distribution of perch, with the highest abundance of juveniles in the hypoxic pelagic zones. Distributions were better correlated with oxygen concentration than with depth or temperature.
  3. Densities of Daphnia spp. were high in the deep hypoxic zones, likely related to avoidance of predation from zooplanktivorous cyprinid fish. Furthermore, Daphnia was found to be the dominant food source for juvenile perch in hypoxic zones and gut fullness was highest in areas with maximum hypoxia. Contrary to earlier studies suggesting a dietary advantage of fish inhabiting cooler hypoxic zones, our study, considering physiological benefits and limitations of juvenile perch digestion, found no support for temperature caused substantial changes in gastric evacuation rates.
  4. Our finding that high juvenile perch abundance was associated with low oxygen concentration suggests that juvenile perch are mainly using deep hypoxic waters as a refuge from large predators. This behaviour is reinforced by the presence of zooplankton prey in this zone.
  相似文献   

13.
The shrimp Caridina nilotica is a major prey of the introduced Nile perch in Lake Victoria. In spite of heavy predation, the density of shrimps increased after the Nile perch boom and the concomitant disappearance of the haplochromine cichlids. In the same period, the mean size of gravid shrimps and the size at first maturity declined. This seems to indicate an increased predation pressure on adult shrimps. Before the Nile perch upsurge, specialised shrimp eaters and piscivores, among the haplochromine cichlids, only took adult shrimps, whereas we assume that most haplochromines used to include juvenile shrimps into their diet. Another important predator on adult shrimps was Bagrus docmak. The combined density of predators on adult shrimps in the pre-Nile perch era was estimated at 10 kg ha−1 and the potential predators on juveniles were estimated at 170 kg ha−1. After the Nile perch upsurge, only Nile perch up to 10 cm TL and Rastrineobola argentea fed on juvenile shrimps (ca. 36 kg ha−1) and Nile perch from 10 to 50 cm TL (ca. 13 kg ha−1) fed on adults. These rough estimates of the biomass of predators on shrimps before and after the Nile perch upsurge indicate a reduced predation pressure on juvenile shrimps. The disappearance of the haplochromines may have released competition with small Nile perch for juvenile shrimps, thus enhancing the recruitment of Nile perch.  相似文献   

14.
In predator-prey interactions, the efficiency of the predator is dependent on characteristics of both the predator and the prey, as well as the structure of the environment. In a field enclosure experiment, we tested the effects of a prey refuge on predator search mode, predator efficiency and prey behaviour. Replicated enclosures containing young of the year (0+) and 1-year-old (1+) perch were stocked with 3 differentially sized individuals of either of 2 piscivorous species, perch (Perca fluviatilis), pike (Esox lucius) or no piscivorous predators. Each enclosure contained an open predator area with three small vegetation patches, and a vegetated absolute refuge for the prey. We quantified the behaviour of the predators and the prey simultaneously, and at the end of the experiment the growth of the predators and the mortality and habitat use of the prey were estimated. The activity mode of both predator species was stationary. Perch stayed in pairs in the vegetation patches whereas pike remained solitary and occupied the corners of the enclosure. The largest pike individuals stayed closest to the prey refuge whereas the smallest individuals stayed farthest away from the prey refuge, indicating size-dependent interference among pike. Both size classes of prey showed stronger behavioural responses to pike than to perch with respect to refuge use, distance from refuge and distance to the nearest predator. Prey mortality was higher in the presence of pike than in the presence of perch. Predators decreased in body mass in all treatments, and perch showed a relatively stronger decrease in body mass than pike during the experiment. Growth differences of perch and pike, and mortality differences of prey caused by predation, can be explained by predator morphology, predator attack efficiency and social versus interference behaviour of the predators. These considerations suggest that pike are more efficient piscivores around prey refuges such as the littoral zones of lakes, whereas perch have previously been observed to be more efficient in open areas, such as in the pelagic zones of lakes.  相似文献   

15.
Structural complexity strongly influences the outcome of predator–prey interactions in benthic marine communities affecting both prey concealment and predator hunting efficacy. How habitat structure interacts with species‐specific differences in predatory style and antipredatory strategies may therefore be critical in determining higher trophic functions. We examined the role of structural complexity in mediating predator–prey interactions across several macrophyte habitats along a gradient of structural complexity in three different bioregions: western Mediterranean Sea (WMS), eastern Indian Ocean (EIO) and northern Gulf of Mexico (NGM). Using sea urchins as model prey, we measured survival rates of small (juveniles) and medium (young adults) size classes in different habitat zones: within the macrophyte habitat, along the edge and in bare sandy spaces. At each site we also measured structural variables and predator abundance. Generalised linear models identified biomass and predatory fish abundance as the main determinants of predation intensity but the efficiency of predation was also influenced by urchin size class. Interestingly though, the direction of structure‐mediated effects on predation risk was markedly different between habitats and bioregions. In WMS and NGM, where predation by roving fish was relatively high, structure served as a critical prey refuge, particularly for juvenile urchins. In contrast, in EIO, where roving fish predation was low, predation was generally higher inside structurally complex environments where sea stars were responsible for much of the predation. Larger prey were generally less affected by predation in all habitats, probably due to the absence of large predators. Overall, our results indicate that, while the structural complexity of habitats is critical in mediating predator–prey interactions, the direction of this mediation is strongly influenced by differences in predator composition. Whether the regional pool of predators is dominated by visual roving species or chemotactic benthic predators may determine if structure dampens or enhances the influence of top–down control in marine macrophyte communities.  相似文献   

16.
1. Interference between predator species frequently decreases predation rates, lowering the risk of predation for shared prey. However, such interference can also occur between conspecific predators. 2. Therefore, to understand the importance of predator biodiversity and the degree that predator species can be considered functionally interchangeable, we determined the degree of additivity and redundancy of predators in multiple- and single-species combinations. 3. We show that interference between two invasive species of predatory crabs, Carcinus maenas and Hemigrapsus sanguineus, reduced the risk of predation for shared amphipod prey, and had redundant per capita effects in most multiple- and single-species predator combinations. 4. However, when predator combinations with the potential for intraguild predation were examined, predator interference increased and predator redundancy decreased. 5. Our study indicates that trophic structure is important in determining how the effects of predator species combine and demonstrates the utility of determining the redundancy, as well as the additivity, of multiple predator species.  相似文献   

17.
Large predators may affect the hunting efficiency of smaller ones directly by decreasing their numbers, or indirectly by altering their behaviour. Either way this may have positive effects on the density of shared prey. Using large outdoor enclosures, we experimentally studied whether the presence of the Tengmalm's owl Aegolius funereus affects the hunting efficiency of the smallest member of the vole-eating predator guild, the least weasel Mustela nivalis, as measured by population responses of coexisting prey species, the field vole Microtus agrestis and the sibling vole M. levis . We compared the density and survival probability of vole populations exposed to no predation, weasel predation or combined predation by a weasel and an owl. The combined predation of both owl and weasel did not result in obvious changes in the density of sibling and field vole populations compared to the control populations without predators, while predation by least weasel alone decreased the densities of sibling voles and induced a similar trend in field vole densities. Survival of field voles was not affected by predator treatment while sibling vole survival was lower in predator treated populations than in control populations. Our results suggest that weasels are intimidated by avian predators, but without changing the effects of predators on competitive situations between the two vole species. Non-lethal effects of intraguild predation therefore will not necessarily change competitive interactions between shared prey species.  相似文献   

18.
Guidetti P 《Oecologia》2007,154(3):513-520
Indirect effects of predators in the classic trophic cascade theory involve the effects of basal species (e.g. primary producers) mediated by predation upon strongly interactive consumers (e.g. grazers). The diversity and density of predators, and the way in which they interact, determine whether and how the effects of different predators on prey combine. Intraguild predation, for instance, was observed to dampen the effects of predators on prey in many ecosystems. In marine systems, species at high trophic levels are particularly susceptible to extinction (at least functionally). The loss of such species, which is mainly attributed to human activities (mostly fishing), is presently decreasing the diversity of marine predators in many areas of the world. Experimental studies that manipulate predator diversity and investigate the effects of this on strongly interactive consumers (i.e. those potentially capable of causing community-wide effects) in marine systems are scant, especially in the rocky sublittoral. I established an experiment that utilised cage enclosures to test whether the diversity and density of fish predators (two sea breams and two wrasses) would affect predation upon juvenile and adult sea urchins, the most important grazers in Mediterranean sublittoral rocky reefs. Changes in species identity (with sea breams producing major effects) and density of predators affected predation upon sea urchins more than changes in species richness per se. Predation upon adult sea urchins decreased in the presence of multiple predators, probably due to interference competition between sea breams and wrasses. This study suggests that factors that influence both fish predator diversity and density in Mediterranean rocky reefs (e.g. fishing and climate change) may have the potential to affect the predators' ability to control sea urchin population density, with possible repercussions for the whole benthic community structure.  相似文献   

19.
Predators can cause a shift in both density and frequency of a prey phenotype that may lead to phenotypic divergence through natural selection. What is less investigated is that predators have a variety of indirect effects on prey that could potentially have large evolutionary responses. We conducted a pond experiment to test whether differences in predation risk in different habitats caused shifts in behavior of prey that, in turn, would affect their morphology. We also tested whether the experimental data could explain the morphological variation of perch in the natural environment. In the experiment, predators caused the prey fish to shift to the habitat with the lower predation risk. The prey specialized on habitat-specific resources, and there was a strong correlation between diet of the prey fish and morphological variation, suggesting that resource specialization ultimately affected the morphology. The lack of differences in competition and mortality suggest that the morphological variation among prey was induced by differences in predation risk among habitats. The field study demonstrated that there are differences in growth related to morphology of perch in two different habitats. Thus, a trade-off between foraging and predator avoidance could be responsible for adaptive morphological variation of young perch.  相似文献   

20.
Plaice nurseries: effects on recruitment   总被引:3,自引:0,他引:3  
The function of coastal nursery areas is discussed in relation to the variability in North Sea plaice recruitment. Since 60% of the recruitment of juveniles originates from the Wadden Sea, special attention is paid to this area. The concentration of juveniles in a restricted area seems to evoke only adverse effects: an increased risk of food limitation and hence reduced growth, and an increased vulnerability to predation. Despite these expectations, growth of most of the plaice in the Wadden Sea has always been optimal within the wide range of year-class strength observed and depends only on ambient water temperature. The same situation is indicated for some British bays, where the growth of 0-group plaice is far lower than in the Wadden Sea, because of lower temperatures. Mortality through predation seems to be relatively low in the Wadden Sea and restricted to only a short period, because of the absence of almost all potential predators. In the more open British bays higher mortalities are found, probably due to the presence of a number of predatory fish species. The low variability in the recruitment of plaice might be the combined result of optimal growth with the absence of between-year fluctuations in predator abundance in the Wadden Sea. As a result, observed mortality only depends on prey abundance and is therefore density-dependent both within one year and especially between years, reducing variations in recruitment. This suggestion is supported by the situation in more open British bays: here too, growth is maximal, but the abundance of predators shows larger fluctuations between years and, as a result, greater fluctuations in mortality are observed.  相似文献   

设为首页 | 免责声明 | 关于勤云 | 加入收藏

Copyright©北京勤云科技发展有限公司  京ICP备09084417号