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1.
According to a recent World Bank report, the intensification of global fishing effort and the ensuing depletion of marine fish stocks causes economic losses of 50 billion US dollars annually. Data deficiencies, however, currently hamper analysis of global fishing effort. We analyzed data from the Food and Agricultural Organization of the United Nations (FAO), the EUROPA fishing fleet registry, and peer-reviewed and other publications, to determine the global trends in fishing effort from 1950 to 2006. Our results show that global fishing effort, expressed as total engine power and the number of fishing days in a year (kilowatt days), was roughly constant from 1950 to 1970, and then steadily increased up to the present. Europe dominated global fishing effort, followed by Asia. Projecting current trends suggests that Asia will soon surpass Europe. Trawlers contribute a major fraction of global fishing effort, as do vessels greater than 100 gross registered tons. Current estimates of global fishing effort, the number of vessels, and total vessel tonnage are, however, underestimates given the data gaps that we have identified. Our results are useful in the following ways: (1) they may encourage researchers in academia and government to improve global fishing effort databases; (2) they allow deeper global analyses of the impact of fishing on marine ecosystems; (3) they induce caution in accepting current underestimates of economic losses of global fisheries; and (4) they reinforce calls for a reduction in global fishing effort. 相似文献
2.
Reg A Watson William W L Cheung Jonathan A Anticamara Rashid U Sumaila Dirk Zeller Daniel Pauly 《Fish and Fisheries》2013,14(4):493-503
There is widespread concern and debate about the state of global marine resources and the ecosystems supporting them, notably global fisheries, as catches now generally stagnate or decline. Many fisheries are not assessed by standard stock assessment methods including many in the world's most biodiverse areas. Though simpler methods using widely available catch data are available, these are often discounted largely because data on fishing effort that contributed to the changes in catches are mostly not considered. We analyse spatial and temporal patterns of global fishing effort and its relationship with catch to assess the status of the world's fisheries. The study reveals that fleets now fish all of the world's oceans and have increased in power by an average of 10‐fold (25‐fold for Asia) since the 1950s. Significantly, for the equivalent fishing power expended, landings from global fisheries are now half what they were a half‐century ago, indicating profound changes to supporting marine environments. This study provides another dimension to understand the global status of fisheries. 相似文献
3.
To be sustainable, the extractive process of fishing requires biomass renewal via primary production driven by solar energy. Primary production required (PPR) estimates how much primary production is needed to replace the biomass of fisheries landings removed from marine ecosystems. Here, we examine the historical fishing behaviour of global fishing fleets, which parts of the food web they rely on, which ecosystems they fish and how intensively. Highly mobile European and Asian fleets have moved to ever more distant productive waters since the 1970s, especially once they are faced with the costs of access agreements for exclusive economic zones (EEZs) declared by host countries. We examine fleet PPR demands in the context of large marine ecosystems (LMEs), which are frequently fished with PPR demands well above their average primary productivity (PP). In some cases, this was mitigated by subsequent emigration of fleets or by management intervention. Fleet movements, however, have stressed additional marine areas, including the EEZs of developing countries. This suggests the potential for spatial serial depletion, if fishing capacity is not reduced to more sustainable PP removal levels. Fundamentally, fishing is limited by solar‐powered PP limits. Fishing beyond solar production has occurred, but in the future, marine systems may not be as forgiving, especially if overfishing and climate change compromise their resilience. 相似文献
4.
本文概要介绍了挪威海洋捕捞业和渔船管理状况:2011年,捕捞量230万t,产值159亿挪威克朗(约26.8亿美元);渔民数量12 791人,渔船数量6 252艘;近10年的捕捞量基本稳定,年均捕捞量为250万t,与此同时,渔船和渔民数量则呈持续下降态势,说明挪威渔船的捕捞能力显著增强,捕捞效率明显提升。挪威的渔业管理制度和法规建设比较完善,这为控制捕捞强度、保护海洋渔业资源奠定了法律基础。挪威的经验具有借鉴意义。我国现阶段以实行渔船控制等投入控制制度为主、其他管理方式为辅的渔业资源管理制度,比较符合我国实际。实践证明,减船转产政策是控制捕捞渔船规模和降低海洋捕捞强度行之有效的措施之一。 相似文献
5.
Fishers have a considerable knowledge about how fish stocks behave; knowledge that is difficult to acquire in other ways. Short‐term fisher tactics employed on trip by trip basis can change significantly due to their targeting behaviour, which in turn can lead to changes in catch composition and production output. A stochastic distance function was used to examine a Mediterranean pelagic fleet's technical efficiency and fishers' ability to modulate their targeting behaviour. The purse seine fleet operated under increasing returns to scale, suggesting that the larger vessels could potentially amplify their short‐term profitability by increasing the levels of inputs and harvests. Production was mainly joint, yet the possibility for limited substitution between species existed. The observed fishers' targeting behaviour was dissimilar between fleet segments due to differences in fishing effort and vessel characteristics, with larger vessels able to modify their revenue more than smaller ones. The estimated differences between the two fleet segments could be important in designing effective management regimes aimed at reducing resource overexploitation through individual input controls. 相似文献
6.
福建底拖网捕捞能力的分析 总被引:7,自引:0,他引:7
根据2002年福建闽南地区双船底拖网和单船底拖网的生产调查及全省渔业统计,结合相关的渔捞记录,应用DEA法,分析了福建各地,市底拖网的捕捞能力和闽南地区不同作业方式捕捞能力及其影响因素,并与单位捕捞努力量渔获量计算进行比较。结果表明:福建各地、市实际拥有底拖网的渔船数量、功率和吨位可能达到的最大产出量的“能力利用度”差异悬殊,1999年和2001年最低的仅为19.4%、19.9%;全省底拖网平均“能力利用度”偏低,1999年和2001年分别为64.3%、67.5%,全省底拖网作业仍然存在渔船的投人数量过多、功率和吨位偏大的问题;因捕捞方式不同,影响捕捞能力的因子有所不同,但投入功率和作业天数都是影响双船底拖网和单船底拖网捕捞能力的主要因素;在考虑将单位捕捞努力量渔获量数据转换为“能力利用度”时,其前提条件是计算采用的因子必须一致。但单位捕捞努力量渔获量在考虑计算投入因子的数量上有很大的局限性,采用DEA法可获得各种投入要素下捕捞能力变化的信息,结果比较符合客观实际。 相似文献
7.
峰值法和数据包络分析法在中国远洋鱿钓渔业方面的应用与比较分析 总被引:9,自引:2,他引:9
概述了PTP和DEA法的基本理论,并将其应用于我国的远洋鱿钓渔业,结果表明,1999年我国北太平洋鱿钓渔业的“捕捞能力”尚未得到充分的发挥,仍有潜力可挖;影响西南大西洋鱿钓渔业“捕捞能力”的主要因素是制冷能力,钓机数,集鱼灯和水下灯,而船长,船舶总吨位,功率和舱容仅为次要因素。通过应用,本文分析比较了这两种方法的特点;PTP法长于在时间序列方面的一个纵向的分析,能够在一定程度上反映渔业技术和资源随时间的变化而发生的变化,而DEA法则擅于在捕捞单位间进行横向的“能力”比较,并能对影响“捕捞能力”的因素进行有效的灵敏度分析。 相似文献
8.
渔场捕捞强度信息可以为渔业资源评估和管理提供帮助。本研究结合2017年10—11月船舶自动监控系统(AutomaticIdentificationSystem,AIS)信息和同期中国中西太平洋延绳钓渔船捕捞日志数据,通过挖掘延绳钓渔船作业航速和航向特征,建立渔场作业状态识别模型,提取渔场捕捞强度信息。以3~9节为航速阈值和0°~10°及300°~360°为航向阈值,渔船作业状态识别准确率为68.29%。阈值识别和日志记录的捕捞强度信息在空间上相关性很高(0.96),基于AIS信息挖掘的渔船捕捞强度空间分布特征和实际非常相似。阈值识别和日志记录的捕捞强度信息在空间上与单位捕捞努力量渔获量(catch per unite of effort, CPUE)、渔获尾数、渔获重量和投钩数的空间相关系数均大于0.62,基于AIS信息挖掘的渔船空间捕捞强度也可替代用于渔业资源分析。 相似文献
9.
Brandon Kuczenski Camila Vargas Poulsen Eric L. Gilman Michael Musyl Roland Geyer Jono Wilson 《Fish and Fisheries》2022,23(1):22-33
Derelict fishing gear is a highly visible source of marine plastic pollution, causing mortality and ecosystem degradation with uncertain long-term consequences. The quantity of derelict gear entering the oceans remains unknown because of heterogeneity in fishing gear and effort, as well as inadequate monitoring. Prior studies have been limited in scope to specific fisheries and regions, and large-scale estimates lack an empirical basis. It is critically important for decision makers to have credible information in order to design effective remediation efforts. We estimated the amount of industrial fishing effort and the associated plastic debris entering the ocean globally each year from lost fishing gear. Using remote observations of fishing vessel activity paired with technical fishing gear models, we generated a bounding estimate for gear operation and loss worldwide in 2018. We estimate that industrial trawl, purse-seine and pelagic longline fisheries operated 2.1 Mt of plastic gear over 2018 to obtain 49.7 Mt of retained and discarded catch, representing 74% of industrial marine capture globally. The median estimate for plastic gear lost during the use of these gear types was 48.4 kt (95% confidence interval: 28.4–99.5 kt). This estimate excludes abandoned and discarded gear. Improved observation, especially of small-scale fisheries, is needed to better understand the sources of derelict gear. These findings serve as a benchmark for future monitoring and management efforts to reduce derelict gear in the global ocean. 相似文献
10.
V. CRESPI 《Fisheries Management and Ecology》2002,9(1):19-29
Fisheries activity in the Thau marine lagoon (Mediterranean coast of France) has an old tradition and involves different types of gears (set nets, traps and lines) that are used seasonally with varying frequencies in different areas. A survey of fishing activity, main fishing methods and main commercial species composition in the lagoon was carried out to assess the current fishing effort and seasonal yield. Many important changes in fishing effort and in the most important target species occurred during the last 10 years. A gradual decline in eel, Anguilla anguilla (L.), catches followed by an increase of other commercially-exploited species, particularly the gilthead sea-bream, Sparus aurata L., was observed. 相似文献
11.
综合应用船舶、机械、信息、新材料等技术,从海洋中捕捞经济渔获物并综合利用,是现代海洋捕捞业的主要特征。海洋捕捞技术的发展和创新,对保障我国食物安全、保护近海生态与资源、实现渔民增收和新渔村建设、推动渔业产业结构调整和转型、维护我国海洋权益等方面具有非常重要的作用。本文通过简析海洋捕捞渔场探测、渔具渔法与高效自动化辅渔助渔技术等方面的研究进展,提出海洋捕捞技术的重点发展方向,以期为我国海洋捕捞实现节能高效、生态友好和资源可持续利用,海洋捕捞技术升级和产业高质量发展提供参考。 相似文献
12.
Shooting fish in a barrel? Assessing fisher‐driven changes in catchability within tropical tuna purse seine fleets 
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下载免费PDF全文 With constant innovation to find more efficient ways to find, catch and process fish, catchability in wild fisheries can increase. Catchability is a combination of resource abundance, fishing effort and fishing efficiency: any increase in fleet efficiency can lead to undesirable effects not only on stocks, but also on the ability to assess them. When using effort controls as part of management, it is necessary to adjust for the increase in catchability due to the increases in efficiency over time to avoid stock depletion. Accounting for changes in catchability can be problematic for pelagic stocks, due to the changes in fishing behaviour and the continual change in fishing efficiency. This study investigates the success in finding patches of fish for fleets operating within the western and central Pacific purse seine fishery between 1993 and 2012. Three indices, widely used in ecological research, were used to study how spatial variation in fisher behaviour for sets on fish aggregating devices (FADs) and free‐school sets was related to catchability. For free‐school set types, the diversity index was negatively correlated with Katsuwonus pelamis catchability. When this index was low, catch rates were at their highest and there was a reduction in the area fished. In contrast, for FAD sets, catches increase when the patchiness index was low, implying a degree of random behaviour, potentially due to advances in FAD technology. An improved understanding of the spatial allocation of effort can improve catchability estimates widely used for fisheries stock assessments and in indices of global biodiversity. 相似文献
13.
14.
P. C. CHIFAMBA 《Fisheries Management and Ecology》1995,2(4):309-319
Abstract The factors important in determining fishing power in the Lake Kariba sardine, Limnothrissa miodon (Boulenger, 1906), fishery were identified using data from the major fishing area of the lake, the Kariba basin, for the periods 1980–1982 and 1988–1990. Comparisons were carried out using fishing power calculated from the mean catch of some standard vessels. Three methods were used for identification of the important attributes. Analysis of variance (ANOVA) was carried out for each component to compare the mean fishing power at all levels within each variable. Multiple regression analysis was used to build predictive models and to determine the factors which best predict fishing power. Factor analysis was used to ordinate vessel types and examine any vessel groupings related to fishing power. Factor analysis showed that vessel and net size were the most important variables. Vessels without engines for propulsion, of low value and without radios had less fishing power than the other vessels in the fleet. Vessels from the same company had similar fishing power, suggesting that some unmeasured variable such as quality of management linked to the fishing companies had a significant effect on catch. The factors which were important in determining catch were length of vessel, depth of the net, presence and absence of echo sounder, mobility, the type of light, number and wattage of the underwater lights in the 1988–1990 fishing period. Vessel length and net category were most important in the period 1980–1982. The models accounted for between 37.6 (1981) and 61.2% (1988) of the variation in fishing power. During the development of the fishery, there has been a change from purse seine to lift nets, and increases in the use of echo sounders, engines for the propulsion of vessels and radios, all of which could have increased effective fishing effort. 相似文献
15.
秘鲁沿岸秘鲁鳀渔场及渔汛分析 总被引:1,自引:0,他引:1
秘鲁鳀(Engraulis ringens)是栖息于东南太平洋沿岸的小型中上层鱼类,了解秘鲁鳀渔场和渔汛的状况有助于渔情预报工作的开展进而实现资源的合理利用。利用2005~2014年秘鲁各港口的上岸量数据,以上岸量(landings)、总捕捞努力量(fishing effort)和单位捕捞努力量渔获量(CPUE)为指标分析秘鲁鳀渔场分布及渔汛;结合二因素方差分析(two-factor analysis of variance)探究渔场月份和纬度上的显著性差异;利用分位数的方法,找出各年的旺汛时间。研究表明,每年的4~6月和11~12月为秘鲁鳀的主汛期;主要的捕捞区域分布在7°S~13°S;渔汛的前中期,上岸量和捕捞努力量有着明显的年间差异,而CPUE在渔汛后期年间差异明显。方差分析表明,不同月份和不同纬度对捕捞努力量[ln(effort+1)]有极显著的影响(P0.01);5月为一年中最主要的捕捞阶段。旺汛期分析表明,第一渔汛阶段的旺汛一般在5月出现,而第二渔汛阶段的旺汛一般在11月出现。研究结果有助于对秘鲁沿岸秘鲁鳀渔场及渔汛的认识。 相似文献
16.
John Cotter 《Fish and Fisheries》2010,11(2):210-219
I summarize the total allowable catch (TAC) fishery management system, which forms part of the European Common Fisheries Policy (CFP) as complicated, inaccurate and ineffective. Total allowable effort (TAE), i.e. limits on fishing capacity and days‐at‐sea, provides a simpler, readily enforceable control to protect all species affected by a fishery. Fishing capacity of vessels in each region‐gear fleet could be capped through limits on engine power, gear, crew, and fittings, and/or reducing allowances of days‐at‐sea for large, powerful vessels. Two basic, fishery‐dependent indicators are put forward to assess sustainability of a fishery dependably even in the absence of fishery‐independent data. One is socio‐economic, the other is ecological. Fishery working groups within each marine region would recommend a TAE to sustain their fishery while also protecting the most critically affected species or processes. Regional working groups would supervise a consistent approach across the different fisheries in their region. A pan‐European group would set policy, implement external agreements, set rules for trading TAE if necessary and harmonize fishing opportunities across regions. To ease negotiations on TAEs with the fishing industry when an ecosystem needs to recover, I propose compensation payments funded by re‐direction of existing CFP subsidies that promote fishing. 相似文献
17.
《水生生物资源》1999,12(2):89-103
The present paper suggests a method for estimating the fishing power of vessels and for analysing fleet dynamics. The approach is based on quantification of stocks catchability (q), derived from fishing mortality coefficients (F) as calculated by virtual population analysis. Catchabilities for each harvested stock are thus estimated relatively to the fishing effort (fn) of each vessel, according to the equation: q = (F/fn). A linear model is then fitted to these catchabilities. The model allows the identification and quantification of trends in average mortality rates per fishing hour for each stock. Under some assumptions, trends are interpreted as variations in the overall fishing power of each fleet. The approach is applied to three industrial and semi-industrial fleets of Brittany (Lorient, Concarneau and Douarnenez) and to the main gadoid stocks they exploit off the west coast of Scotland (ICES area VIa), and in the Celtic Sea (ICES area VIIf,g,h) for Concameau. Results show large variations in fishing power. Particularly, a marked increase trend in the fishing power exerted on saithe (Pollachius virens) is highlighted for the three fleets, over the period 1983–1989. These variations can be explained by the redirection of fishing strategies, which may occur on a large scale. Thus, we show how the collapse of saithe stock at first led the three fleets to intensify the harvesting of saithe, and from 1989 on, to adopt different strategies. The possible causes of the observed dynamics are discussed, as well as their consequences for fisheries management. In particular, the relevance of direct control of fishing effort as a regulatory tool is questioned. 相似文献
18.
闽东渔场鱼类资源生态容量和最大可持续开发量 总被引:6,自引:1,他引:5
以海洋生态系统营养动力学为理论依据,根据历次调查所获得的闽东渔场初级生产力资料,通过对该渔场浮游植物有机碳含量和生态效率的测算、52种主要鱼类营养级及其有机碳含量的检测,采用营养动态模型和Cushing模型估算鱼类资源生态容量(自然生产量),采用Cadima模式和MSY简单模式估算鱼类资源最大可持续开发量。估算结果:闽东渔场鱼类资源生态容量平均为6.308×10~5t,最大可持续开发量为3.268×10~5t。1994年以来闽东渔场实际年渔获量3.435~4.685×10~5t,平均4.267×10~5t,已连续9年超过鱼类资源最大可持续开发量,呈现过度捕捞态势。必须实行渔获量负增长制度才能使鱼类资源得到有效恢复。 相似文献
19.
运用计量经济模型对影响我国海洋捕捞量的相关因素进行分析。并运用相关检验方法对模型稳定性进行检验。结论表明,模型在某些年份表现出不稳定性,证明海洋捕捞量不仅与捕捞努力量有关,而且与各渔业制度的实施、渔业协定的签署有直接关系。 相似文献
20.
Kyle W. Shertzer Erik H. Williams Joseph Kevin Craig Eric E. Fitzpatrick Nikolai Klibansky Katie I. Siegfried 《Fisheries Management and Ecology》2019,26(6):621-629
Recreational fishing is increasingly recognised as an important source of mortality for marine fish populations. In the United States, estimates of marine recreational catch and effort were recently revised for the time period 1981 and beyond, and for many species, the revised estimates were substantially higher than the original values. Here, the proportion of total landings that came from the recreational sector in the Southeast US Atlantic was quantified. The proportions for 22 oceanic species and for all species combined were computed, using a full time series of landings (1981–2016) and a more recent time series (1999–2016). For the full and recent time series, landings of most species (15/22 and 17/22, respectively) were dominated by the recreational sector. For all species combined, 71% of landings in the full time series were from the recreational sector, and 76% in the recent time series. Trend analysis indicated that most species had a stable or increasing proportion of landings from the recreational sector. In addition, stock assessments were conducted on four species, and the catch revisions increased the estimated scale of abundance and, in some cases, affected stock or fishery status. This work underscores the importance of recreational fishing for marine resource management. 相似文献