Advancing fisheries analysis through the application of ecological foraging principles

通过应用生态觅食原理推进渔业分析

• 批准号: RGPIN-2014-04135
• 负责人: Gillis, Darren
• 金额: $ 1.68万
• 依托单位: University of Manitoba
• 依托单位国家: 加拿大
• 项目类别: Discovery Grants Program - Individual
• 财政年份: 2014
• 资助国家: 加拿大
• 起止时间: 2014-01-01 至 2015-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=566316
• 关键词: Advancing; fisheries; analysis; through; application

In public opinion, the health of a fishery is usually equated to maintaining or even increasing catches. However, experiences with Canadian herring and cod in past decades have shown us that this is not always true. The underlying fish populations that sustain our harvests are not always well reflected by the fish that are caught. Fisheries science has shown us many examples where populations “collapse” because sustained periods of decline were not detected quickly enough. One of the less studied influences that can mask population decline is the nature of fishing itself. Our commercial fish harvesters are very good at what they do. As a result, their catches (and catch rates) often remain high, even as fish numbers initially decline. Yet information from commercial fisheries is still the foundation of many of our population estimates. The proposed program questions many of the perspectives of classical fisheries analysis. Traditional analyses define catch rate in terms of the amount of fishing activity: catch per unit effort (CPUE). However, including effort in the measure of performance can mask catches that do not increase in proportion to effort. We will test for these effects with statistical methods looking at effects within entire fleets and at the level of individual vessels. Traditional analyses also assume that the CPUE of the intended species (the target) is the best indicator of changing abundances. However, this is the time when changes in CPUE should be buffered by fisher behaviour. My students and I will test the effectiveness of CPUE from outside of targeting periods in population estimates. The implications of fisher movement between neighboring populations are seldom considered in classical analyses. We will employ a recent theoretical development in our lab that unites ecological foraging principles to fishing activities : fisheries isodars. This will incorporate vessel movements into fishery assessments among neighboring population components and along the boundaries between them. All of these behavioural biases will be used to change the way that effort is used in state-of-the-art population assessment models. Finally, we will test for and simulate changing associations among vessels at sea (networks within fleets) in relation to the underlying fish distributions. This will lay the foundation for the future incorporation of changing fleet structure in population estimates. The proposed research program will transform the use of fishing effort in stock assessments. The research will provide a dynamic perspective of fishing effort that will improve the accuracy of fish population estimates and reduce the risk of misinterpretation of CPUE data that has contributed to fishery crises in the past.

在公众舆论中，渔业的健康通常等同于维持甚至增加渔获量。然而，过去几十年加拿大鲱鱼和鳕鱼的经验告诉我们，这并不总是正确的。维持我们收成的潜在鱼类数量并不总是很好地反映在捕获的鱼类上。渔业科学向我们展示了许多种群“崩溃”的例子，因为没有足够快地发现持续的衰退。一个较少被研究的可以掩盖种群减少的影响是捕鱼本身的性质。我们的商业捕鱼者非常擅长他们的工作。因此，他们的渔获量（和渔获率）经常保持在很高的水平，即使鱼的数量开始下降。然而，来自商业渔业的信息仍然是我们许多人口估计的基础。该计划对许多经典渔业分析的观点提出了质疑。传统的分析根据捕捞活动的数量来定义捕捞率：每单位努力的捕获量（CPUE）。然而，将努力纳入绩效衡量可能会掩盖不随努力成比例增加的渔获量。我们将用统计方法来检验这些影响，观察整个船队和个别船只的影响。传统的分析也假设预期物种（目标物种）的CPUE是丰度变化的最佳指标。然而，此时应该通过fisher行为来缓冲CPUE的变化。我和我的学生将在人口估计的目标时期之外测试CPUE的有效性。在经典的分析中，很少考虑邻近种群之间的鱼群运动的影响。我们将采用我们实验室最新的理论发展，将生态觅食原则与捕鱼活动结合起来：渔业等尺度。这将把船只运动纳入邻近人口组成部分之间以及它们之间边界的渔业评估。所有这些行为偏差将被用来改变在最先进的人口评估模型中使用这种努力的方式。最后，我们将测试和模拟与潜在鱼类分布相关的海上船只（船队内网络）之间不断变化的关联。这将为今后在人口估计中纳入不断变化的船队结构奠定基础。拟议的研究计划将改变鱼类资源评估中捕鱼努力量的使用方式。这项研究将提供一个动态的捕鱼努力情况，这将提高鱼类种群估计的准确性，并减少对CPUE数据的误读的风险，这种误读在过去造成了渔业危机。