eDNA sampling systems for salmon ecosystem monitoring

bioRxiv - Genomics Pub Date : 2024-09-13 DOI:10.1101/2024.09.11.610878

Christoph M Deeg, Robert G Saunders, Christopher Tam, Karia Kaukinen, Shaorong Li, Arthur L Bass, Uu-a-thluk Fisheries, Kristi M Miller

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Abstract

Environmental DNA (eDNA) is transforming the way aquatic ecosystems are monitored and managed by scientists, resource managers, ENGOs, First Nations communities, and citizen scientists alike. However, the lack of sampling systems enabling high filtration volumes and rapid sample collection in the field have thus far hindered broad scale eDNA studies in the ocean specifically for small and medium scale organizations. To overcome these challenges, several modular water sampling systems that utilize hollow-membrane filtration cartridges were developed by RKS laboratories and tested by the Fisheries and Oceans, Canada, Molecular Genetics Laboratory. Compared to Sterivex filters, an industry standard for eDNA filtration, the hollow-membrane filtration cartridges allowed for a six-fold increase in filtration volume and threefold increase in filtration speed. The field sampling systems, which combine pumps, a programmable controller, an air pump, an ozone generator, and up to eight filters at once, enabled efficient direct eDNA filtration from diverse aquatic environments, from creeks to the open ocean. To evaluate ease of deployment, we present the results of a three day workshop where technical staff of an Indigenous resource management organization, without any prior knowledge in eDNA sampling, were trained and performed independent eDNA sample collection. The samples were analyzed by metabarcoding and qPCR to reveal the distributions of salmon and other species co-occurring in salmon ecosystems, from large ephemeral predators, to the planktonic prey of salmon, even including their pathogens. In this example study, we further observed a substantial shift in community composition in the vicinity of aquaculture facilities where marine species associated with aquaculture feed were detected in freshwater at high relative abundance. This study demonstrates how these sampling systems provide an efficient entry point for small and medium scale organizations to utilize eDNA to fulfill their research and monitoring objectives.

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用于监测鲑鱼生态系统的 eDNA 采样系统

环境 DNA（eDNA）正在改变科学家、资源管理人员、环境非政府组织、原住民社区和公民科学家监测和管理水生生态系统的方式。然而，由于缺乏可实现高过滤量和现场快速样本采集的采样系统，迄今为止，特别是对中小型组织而言，在海洋中进行大规模 eDNA 研究一直受到阻碍。为了克服这些挑战，RKS 实验室开发了几种利用空心膜滤芯的模块化水样采集系统，并由加拿大渔业和海洋部分子遗传学实验室进行了测试。与用于 eDNA 过滤的行业标准 Sterivex 过滤器相比，空心膜过滤滤芯的过滤量增加了六倍，过滤速度提高了三倍。野外采样系统结合了泵、可编程控制器、气泵、臭氧发生器和多达八个过滤器，能够从从溪流到公海的各种水生环境中高效地直接过滤 eDNA。为了评估部署的难易程度，我们举办了一个为期三天的研讨会，对一个土著资源管理组织的技术人员进行了培训，让他们在没有任何 eDNA 采样知识的情况下独立进行 eDNA 样品采集。通过对样本进行代谢编码和 qPCR 分析，我们揭示了鲑鱼和其他共同生活在鲑鱼生态系统中的物种的分布情况，从大型短时捕食者到鲑鱼的浮游猎物，甚至包括其病原体。在这项示例研究中，我们进一步观察到水产养殖设施附近的群落组成发生了重大变化，在淡水中发现了与水产养殖饲料相关的海洋物种，而且相对丰度很高。这项研究表明，这些采样系统为中小型机构利用 eDNA 实现其研究和监测目标提供了一个有效的切入点。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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bioRxiv - Genomics

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