SD4: Improved understanding of population, community and ecosystem impacts of ocean acidification for commercially important species

SD4：更好地了解海洋酸化对具有重要商业价值的物种的种群、群落和生态系统的影响

• 批准号: NE/H017488/1
• 负责人: Caroline Hattam
• 金额: $ 37.83万
• 依托单位: Plymouth Marine Laboratory
• 依托单位国家: 英国
• 项目类别: Research Grant
• 财政年份: 2011
• 资助国家: 英国
• 起止时间: 2011 至 无数据
• 项目状态: 已结题
• 来源: https://gtr.ukri.org/projects?ref=NE%2FH017488%2F1
• 关键词: SD4; Improved; understanding; population; community

Predicting the impacts of ocean acidification (OA) upon fisheries is a rapidly evolving sphere of interest. This project, conducted between the Centre of Sustainable Aquaculture Research (Swansea), Exeter and Strathclyde Universities, and Plymouth Marine Laboratory, will address these challenges using a holistic multi-disciplinary approach. We will examine the physiological and life history responses of commercially important examples of bivalves, crustacea and finfish, using the large (750 m2 floor, 150 m3 water) state-of-the-art Centre for Sustainable Aquaculture Research at Swansea in which these organisms, together with their live food items, can be grown under the same conditions. We will compare the physiology and growth of the selected organisms at different water acidity and temperatures (increased acidity being associated with elevated CO2 and global warming). The output from these experiments will be scaled-up to identify effects at population and community levels. The consequences of these changes for the fishing industry will then be explored. OA, however, will not only affect commercially important species, and so the wider impacts for society of changes in marine ecosystems will also be examined. OA is expected to affect reproduction and early life stages in particular; our research will focus on egg fertilization and growth over the first 2-4 months. These stages can be acid-critical (e.g. sperm swimming is sensitive to acid levels) and are the most susceptible to the external environment due to their high surface-area: volume ratio and poor ability to compensate for changes in internal acidity. Early formation of shell and skeletal structures are also vulnerable to acid changes. OA will also provide direct and indirect effects through changes to food organisms. While it is not possible to change feed species composition, we will grow phytoplankton, zooplankton and other target animals to consider food chain impacts at different acidity levels and temperatures during their most sensitive period. This will enable us to consider the potentially synergistic effects of changes to food quantity and quality, the efficiency of food conversion into growth and energy, and the support of the food chain. Continuing these studies into juvenile stages will provide data for the impact of OA upon the most sensitive stages of cell growth. The results obtained during the studies of early life stages will be complemented by more detailed studies to identify the biological mechanisms that result in an organism's vulnerability to acidity and temperature change. Data from experiments will be used to develop models of organism growth which will provide a sound base for the future development of our understanding of OA upon other species. Supported with data collected from other OA projects, these models will then be developed to link with models that can explore the social and economic consequences to the fishing industry resulting from changes in fish populations. Existing models for such estimates are in their infancy but this project will integrate new developments that relate fisheries production to whole ecosystem ecology to improve upon classic, but simplistic, fisheries models. This is especially important when considering the impacts of global climate change and OA because of the varied interactions between organisms and their environment. Using the findings generated by this study and those arising from other OA projects, the wider impacts of OA on marine ecosystems will be explored. These will be used to examine how the benefits we obtain from the marine environment change (e.g. the availability of clean water for aquaculture and recreational activities, health benefits, and the regulation of gases and climate) and how the value of these benefits change. What these changes mean for industry and society will be explored.

预测海洋酸化（OA）对渔业的影响是一个快速发展的兴趣领域。该项目由可持续水生生物研究中心（斯旺西）、埃克塞特大学和斯特拉斯克莱德大学以及普利茅斯海洋实验室共同开展，将采用全面的多学科方法应对这些挑战。我们将研究的生理和生活史反应的商业上重要的例子，双壳类，甲壳类和鱼类，使用大（750平方米的地板，150立方米的水）国家的最先进的中心可持续水生生物研究在斯旺西，这些生物，连同他们的生活食品，可以在相同的条件下生长。我们将比较所选生物在不同水酸度和温度下的生理和生长（酸度增加与二氧化碳浓度升高和全球变暖有关）。这些实验的结果将扩大规模，以确定在人口和社区一级的影响。然后将探讨这些变化对渔业的影响。然而，有机农业不仅会影响具有重要商业价值的物种，因此还将研究海洋生态系统变化对社会的更广泛影响。OA预计会影响生殖和早期生命阶段，特别是;我们的研究将集中在前2-4个月的卵子受精和生长。这些阶段可能是酸临界的（例如精子游泳对酸水平敏感），并且由于其高表面积：体积比和补偿内部酸度变化的能力差而最容易受到外部环境的影响。早期形成的贝壳和骨骼结构也容易受到酸的影响。OA还将通过改变食物生物体来产生直接和间接的影响。虽然不可能改变饲料种类组成，但我们将养殖浮游植物、浮游动物和其他目标动物，以考虑在不同酸度和温度下，在其最敏感时期对食物链的影响。这将使我们能够考虑食物数量和质量变化的潜在协同效应，食物转化为生长和能量的效率，以及食物链的支持。继续这些研究到青少年阶段将提供数据OA的影响后，细胞生长的最敏感的阶段。在生命早期阶段研究中取得的结果将得到更详细研究的补充，以查明导致有机体易受酸度和温度变化影响的生物机制。实验数据将用于开发生物体生长模型，这将为我们对其他物种OA的理解的未来发展提供坚实的基础。在其他开放式农业项目收集的数据的支持下，这些模型将被开发，以与可以探索鱼类种群变化对渔业造成的社会和经济后果的模型相联系。现有的这种估计模型尚处于起步阶段，但本项目将整合新的发展，将渔业生产与整个生态系统生态联系起来，以改进经典但过于简单的渔业模型。在考虑全球气候变化和有机农业的影响时，这一点尤其重要，因为生物体与其环境之间的相互作用各不相同。将利用本研究的结果和其他有机农业项目的结果，探讨有机农业对海洋生态系统的更广泛影响。这些将用于研究我们从海洋环境中获得的利益如何变化（例如，水产养殖和娱乐活动的清洁水的可用性，健康利益以及气体和气候的调节）以及这些利益的价值如何变化。这些变化对工业和社会意味着什么将被探讨。

项目成果

Modelling ocean acidification impacts: from biological experiments to economic assessments and social impacts

模拟海洋酸化影响：从生物实验到经济评估和社会影响

• 发表时间: 2013
• 期刊: ICES Annual Science Conference
• 作者: Fernandes J.A.

The social and economic impacts of a changing marine environment - the case of capture fisheries

海洋环境变化的社会和经济影响——以捕捞渔业为例

• 发表时间: 2012
• 作者: Papathanasopoulou, E.

Integrated climate change research: forget Snakes and Ladders!

综合气候变化研究：忘记蛇和梯子！

• 发表时间: 2014
• 期刊: Advances in Marine Ecosystem Modelling Research Symposium (AMEMR) IV.
• 作者: Queirós A.M.

The social and economic impacts of ocean acidification and climate change on UK capture fisheries

海洋酸化和气候变化对英国捕捞渔业的社会和经济影响

• 发表时间: 2014
• 作者: Papathanasopoulou, E.

Exposure of Mediterranean Countries to Ocean Acidification

地中海国家遭受海洋酸化的影响

• DOI: 10.3390/w6061719
• 发表时间: 2014
• 期刊: Water
• 影响因子: 3.4
• 作者: Hilmi N