海景基因组学：将遗传知识与环境生态信息相结合，协助海洋生物多样性管理

IF 3.7 2区社会学 Q2 ENVIRONMENTAL STUDIES

Marine Policy Pub Date : 2025-09-04 DOI:10.1016/j.marpol.2025.106867

Jessica Rieder , Marlene Jahnke , Carl André , Henrik Christiansen , Pierre R. de Wit , Ellika Faust , Leon Green , Per R. Jonsson , Linda Laikre , Ane T. Laugen , Marina Rafajlović , Annica Sandström , Matteo Tomasini , Filip A.M. Volckaert

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引用次数: 0

摘要

生物多样性，包括遗传多样性，是生态系统的基础，支持包括人类在内的所有生物的福祉。确定海洋环境如何影响遗传多样性并制定保护遗传多样性的最佳做法需要一种结合基因组和环境信息的多学科方法。海景遗传学和基因组学结合了空间解析的生态、基因组和环境数据，并结合建模来探索过去、现在和未来的多样性和连通性模式。海景遗传学和基因组学为科学家和管理者提供了一个多方面的工具，可以应用于广泛的物种，并纳入海洋空间管理。尽管遗传多样性对物种恢复力的重要性已得到证实，但遗传和基因组数据的结合在政策、决策和保护措施中的代表性严重不足。在这里，我们的目的是支持了解和获取海景遗传学和基因组学的信息，为保护和环境管理从业者。我们解释如何整合环境，空间，性状和遗传学或基因组学可以推进海洋空间管理。我们使用两个先进的案例研究来概述海景基因组学的方法和概念以及各自的政策背景，尽管管理吸收仍然悬而未决。最后，我们回顾了海景基因组学研究的现状，讨论了挑战、优势和未来的机遇，并提供了路线图。我们提出了一个成功的案例研究，可以帮助将海景基因组学整合到生物多样性管理中。

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Seascape genomics: Assisting marine biodiversity management by combining genetic knowledge with environmental and ecological information

Biodiversity, including genetic diversity, is the foundation of ecosystems and supports the well-being of all organisms, including humans. Determining how the marine environment shapes genetic diversity and developing best practices to conserve it requires a multi-disciplinary approach that incorporates genomic and environmental information. Seascape genetics and genomics combine spatially resolved ecological, genomic, and environmental data, coupled with modeling to explore past, present, and future patterns of diversity and connectivity. Seascape genetics and genomics provide scientists and managers with a multi-faceted tool that can be applied across a wide range of species and incorporated into marine spatial management. Despite the proven importance of genetic diversity for species resilience, the incorporation of genetic and genomic data is grossly underrepresented in policy, decision-making, and conservation measures. Here, we aim to support the understanding and access to information on seascape genetics and genomics for conservation and environmental management practitioners. We explain how integrating environment, space, traits, and genetics or genomics can advance marine spatial management. We use two advanced case studies to outline methodology and concepts of seascape genomics and the respective policy context, although management uptake is still pending. Lastly, we review the present status of seascape genomics research and discuss challenges, strengths, and future opportunities by providing a road map. We present a successful management uptake case study that could aid the integration of seascape genomics into biodiversity management.

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来源期刊

Marine Policy Multiple-

CiteScore

7.60

自引率

13.20%

发文量

428

期刊介绍： Marine Policy is the leading journal of ocean policy studies. It offers researchers, analysts and policy makers a unique combination of analyses in the principal social science disciplines relevant to the formulation of marine policy. Major articles are contributed by specialists in marine affairs, including marine economists and marine resource managers, political scientists, marine scientists, international lawyers, geographers and anthropologists. Drawing on their expertise and research, the journal covers: international, regional and national marine policies; institutional arrangements for the management and regulation of marine activities, including fisheries and shipping; conflict resolution; marine pollution and environment; conservation and use of marine resources. Regular features of Marine Policy include research reports, conference reports and reports on current developments to keep readers up-to-date with the latest developments and research in ocean affairs.