Coldfish: potential benefits and risks of borealisation for fish stocks and ecosystems in a changing Arctic Ocean

冷鱼：北冰洋变化中鱼类种群和生态系统的北化的潜在好处和风险

• 批准号: NE/R012520/1
• 负责人: Nicholas Polunin
• 金额: $ 29.69万
• 依托单位: Newcastle University
• 依托单位国家: 英国
• 项目类别: Research Grant
• 财政年份: 2018
• 资助国家: 英国
• 起止时间: 2018 至 无数据
• 项目状态: 已结题
• 来源: https://gtr.ukri.org/projects?ref=NE%2FR012520%2F1
• 关键词: Coldfish; potential; benefits; risks; borealisation

The Arctic Ocean is exhibiting exceptional levels of warming and ice loss, which are expected to profoundly change the types of animal communities that coexist and the nature of interactions between animals and between animals and humans. In particular, the extent of ice cover in regions that are not permanently ice covered has been declining. The loss of summer sea ice has led to an increase in plankton in open ice free waters, while under-ice algae which are also important food-sources to Arctic species have declined with the retreating ice cover. The underlying marine warming is also making it possible for species from warmer waters to move northward. While these incomers have been flourishing, some native Arctic species have declined in abundance. Several of these species including resident Arctic cod and the incoming Atlantic cod are important in fisheries, which constitute the most direct benefit that society derives from these high-latitude waters. The Arctic species have adaptations to cold that may help protect them from the incoming species to some extent, but to date we have very few ideas of what the long-term ecological outcomes of these recent changes will be. The Coldfish project will focus on the fish of these waters, exploring how their behaviour, specifically the types of food they eat, changes across a wide range of sites which vary in ice cover, the extent to which the incoming species are present and in other environmental respects. We will track fish diets by measuring the ratio of different stable isotopes of carbon, nitrogen and sulfur in their tissues. By comparing the range of different isotopic compositions found in populations of fishes living in different communities and under different physical conditions, we can answer a series of important questions about the current and future states of Arctic ecosystems.For instance, the sensitivity of an ecosystem to change depends on how many different species perform similar ecological roles and are therefore able to compensate if some species are lost. We will determine the extent of this so-called 'redundancy' in terms of fish diets by measuring the degree of overlap in isotopic compositions between populations. We will measure how effectively carbon is transferred from surface waters to the seabed, and how this varies in regions of contrasting ice cover and differing fish communities. We will also study how the incoming species are responding as they move northwards into colder waters, whether their feeding habits and metabolism are changing as a result, and whether the incoming species are likely to compete directly with those native to the Arctic. Coldfish investigators bring a mix of expertise in arctic biogeochemistry, polar fish biology, marine ecology and stable isotope ecology, and this blend of methods and approaches will help deliver new insights. Our project builds on ecological study in the Barents Sea sector of the Arctic Ocean, and benefits from close integration with extensive ecological surveys co-ordinated by our project partners in Norway.

北冰洋正在表现出异常的变暖和冰损失水平，预计这将深刻改变共存的动物群落类型以及动物之间以及动物与人类之间相互作用的性质。特别是，非永久性冰盖地区的冰盖面积一直在下降。夏季海冰的减少导致无冰沃茨的浮游生物增加，而冰下藻类也是北极物种的重要食物来源，随着冰盖的消退而减少。潜在的海洋变暖也使得来自温暖沃茨的物种有可能向北迁移。虽然这些外来物种一直在蓬勃发展，但一些北极本地物种却大量减少。其中一些鱼种，包括北极鳕鱼和大西洋鳕鱼，对渔业十分重要，是社会从这些高纬度沃茨获得的最直接利益。北极物种对寒冷有适应能力，这可能有助于在某种程度上保护它们免受外来物种的影响，但到目前为止，我们对这些近期变化的长期生态后果知之甚少。冷鱼项目将重点关注这些沃茨的鱼类，探索它们的行为，特别是它们所吃的食物类型，如何在冰盖不同的广泛地点发生变化，进入物种的存在程度以及其他环境方面。我们将通过测量鱼类组织中碳、氮和硫的不同稳定同位素的比例来跟踪鱼类的饮食。通过比较生活在不同群落和不同物理条件下的鱼类种群中不同同位素组成的范围，我们可以回答一系列关于北极生态系统当前和未来状态的重要问题，例如，生态系统对变化的敏感性取决于有多少不同的物种发挥相似的生态作用，因此如果某些物种消失，它们能够进行补偿。我们将通过测量种群之间同位素组成的重叠程度，来确定这种所谓的“冗余”在鱼类饮食方面的程度。我们将测量碳如何有效地从地表沃茨转移到海底，以及这在冰层覆盖和不同鱼类群落的地区如何变化。我们还将研究外来物种在向北迁移到较冷的沃茨时的反应，它们的摄食习惯和新陈代谢是否因此发生变化，以及外来物种是否可能与北极本地物种直接竞争。冷鱼研究人员带来了北极生物地球化学，极地鱼类生物学，海洋生态学和稳定同位素生态学的专业知识，这种方法和方法的融合将有助于提供新的见解。我们的项目建立在北冰洋巴伦支海部分的生态研究基础上，并受益于与我们在挪威的项目合作伙伴协调的广泛生态调查的紧密结合。

项目成果

The power and pitfalls of amino acid carbon stable isotopes for tracing the use and fate of basal resources in food webs

氨基酸碳稳定同位素用于追踪食物网中基础资源的使用和命运的力量和陷阱

• DOI: 10.32942/x2vg6g
• 发表时间: 2023
• 作者: Vane K

Tracing basal resource use across sea‐ice, pelagic, and benthic habitats in the early Arctic spring food web with essential amino acid carbon isotopes

• DOI: 10.1002/lno.12315
• 发表时间: 2023-02
• 期刊: Limnology and Oceanography
• 影响因子: 4.5
• 作者: K. Vane;M. Cobain;C. Trueman;T. Vonnahme;S. Rokitta;N. Polunin;H. Flores

Field metabolic rates of teleost fishes are recorded in otolith carbonate

• DOI: 10.1038/s42003-018-0266-5
• 发表时间: 2019-01-18
• 期刊: COMMUNICATIONS BIOLOGY
• 影响因子: 5.9
• 作者: Chung, Ming-Tsung;Trueman, Clive N.;Gronkjaer, Peter
• 通讯作者: Gronkjaer, Peter