Fishing for fish environmental DNA: Ecological applications, methodological considerations, surveying designs, and ways forward

doi:10.1111/mec.16659

Review

. 2022 Oct;31(20):5132-5164.

doi: 10.1111/mec.16659. Epub 2022 Sep 1.

Fishing for fish environmental DNA: Ecological applications, methodological considerations, surveying designs, and ways forward

Meng Yao^{1

2}, Shan Zhang^{1

2}, Qi Lu^{1

2}, Xiaoyu Chen^{1

2}, Si-Yu Zhang^{1

2}, Yueqiao Kong^{1

2}, Jindong Zhao^{1

2}

Affiliations

¹ Institute of Ecology, College of Urban and Environmental Sciences, Peking University, Beijing, China.
² School of Life Sciences, Peking University, Beijing, China.

PMID: 35972241
DOI: 10.1111/mec.16659

Review

Fishing for fish environmental DNA: Ecological applications, methodological considerations, surveying designs, and ways forward

Meng Yao et al. Mol Ecol. 2022 Oct.

. 2022 Oct;31(20):5132-5164.

doi: 10.1111/mec.16659. Epub 2022 Sep 1.

Authors

Meng Yao^{1

2}, Shan Zhang^{1

2}, Qi Lu^{1

2}, Xiaoyu Chen^{1

2}, Si-Yu Zhang^{1

2}, Yueqiao Kong^{1

2}, Jindong Zhao^{1

2}

Affiliations

¹ Institute of Ecology, College of Urban and Environmental Sciences, Peking University, Beijing, China.
² School of Life Sciences, Peking University, Beijing, China.

PMID: 35972241
DOI: 10.1111/mec.16659

Abstract

Vast global declines of freshwater and marine fish diversity and population abundance pose serious threats to both ecosystem sustainability and human livelihoods. Environmental DNA (eDNA)-based biomonitoring provides robust, efficient, and cost-effective assessment of species occurrences and population trends in diverse aquatic environments. Thus, it holds great potential for improving conventional surveillance frameworks to facilitate fish conservation and fisheries management. However, the many technical considerations and rapid developments underway in the eDNA arena can overwhelm researchers and practitioners new to the field. Here, we systematically analysed 416 fish eDNA studies to summarize research trends in terms of investigated targets, research aims, and study systems, and reviewed the applications, rationales, methodological considerations, and limitations of eDNA methods with an emphasis on fish and fisheries research. We highlighted how eDNA technology may advance our knowledge of fish behaviour, species distributions, population genetics, community structures, and ecological interactions. We also synthesized the current knowledge of several important methodological concerns, including the qualitative and quantitative power eDNA has to recover fish biodiversity and abundance, and the spatial and temporal representations of eDNA with respect to its sources. To facilitate ecological applications implementing fish eDNA techniques, recent literature was summarized to generate guidelines for effective sampling in lentic, lotic, and marine habitats. Finally, we identified current gaps and limitations, and pointed out newly emerging research avenues for fish eDNA. As methodological optimization and standardization improve, eDNA technology should revolutionize fish monitoring and promote biodiversity conservation and fisheries management that transcends geographic and temporal boundaries.

Keywords: DNA metabarcoding; aquatic ecosystem; biodiversity surveillance; eRNA; fish conservation; fisheries management.

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References

REFERENCES

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1. Adams, C. I. M., Knapp, M., Gemmell, N. J., Jeunen, G.-J., Bunce, M., Lamare, M. D., & Taylor, H. R. (2019). Beyond biodiversity: Can environmental DNA (eDNA) cut it as a population genetics tool? Genes, 10, 192.
1. Aglieri, G., Baillie, C., Mariani, S., Cattano, C., Calò, A., Turco, G., Spatafora, D., Di Franco, A., Di Lorenzo, M., Guidetti, P., & Milazzo, M. (2021). Environmental DNA effectively captures functional diversity of coastal fish communities. Molecular Ecology, 30, 3127-3139.
1. Aguzzi, J., Chatzievangelou, D., Marini, S., Fanelli, E., Danovaro, R., Flögel, S., Lebris, N., Juanes, F., De Leo, F. C., Del Rio, J., Thomsen, L., Costa, C., Riccobene, G., Tamburini, C., Lefevre, D., Gojak, C., Poulain, P.-M., Favali, P., Griffa, A., … Company, J. B. (2019). New high-tech flexible networks for the monitoring of deep-sea ecosystems. Environmental Science & Technology, 53, 6616-6631.
1. Alberdi, A., Aizpurua, O., Gilbert, M. T. P., & Bohmann, K. (2018). Scrutinizing key steps for reliable metabarcoding of environmental samples. Methods in Ecology and Evolution, 9, 134-147.

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[1] Abell, R., Thieme, M. L., Revenga, C., Bryer, M., Kottelat, M., Bogutskaya, N., Coad, B., Mandrak, N., Balderas, S. C., Bussing, W., Stiassny, M. L. J., Skelton, P., Allen, G. R., Unmack, P., Naseka, A., Ng, R., Sindorf, N., Robertson, J., Armijo, E., … Petry, P. (2008). Freshwater ecoregions of the world: A new map of biogeographic units for freshwater biodiversity conservation. Bioscience, 58, 403-414.

[2] Abell, R., Thieme, M. L., Revenga, C., Bryer, M., Kottelat, M., Bogutskaya, N., Coad, B., Mandrak, N., Balderas, S. C., Bussing, W., Stiassny, M. L. J., Skelton, P., Allen, G. R., Unmack, P., Naseka, A., Ng, R., Sindorf, N., Robertson, J., Armijo, E., … Petry, P. (2008). Freshwater ecoregions of the world: A new map of biogeographic units for freshwater biodiversity conservation. Bioscience, 58, 403-414.

[3] Adams, C. I. M., Knapp, M., Gemmell, N. J., Jeunen, G.-J., Bunce, M., Lamare, M. D., & Taylor, H. R. (2019). Beyond biodiversity: Can environmental DNA (eDNA) cut it as a population genetics tool? Genes, 10, 192.

[4] Adams, C. I. M., Knapp, M., Gemmell, N. J., Jeunen, G.-J., Bunce, M., Lamare, M. D., & Taylor, H. R. (2019). Beyond biodiversity: Can environmental DNA (eDNA) cut it as a population genetics tool? Genes, 10, 192.

[5] Aglieri, G., Baillie, C., Mariani, S., Cattano, C., Calò, A., Turco, G., Spatafora, D., Di Franco, A., Di Lorenzo, M., Guidetti, P., & Milazzo, M. (2021). Environmental DNA effectively captures functional diversity of coastal fish communities. Molecular Ecology, 30, 3127-3139.

[6] Aglieri, G., Baillie, C., Mariani, S., Cattano, C., Calò, A., Turco, G., Spatafora, D., Di Franco, A., Di Lorenzo, M., Guidetti, P., & Milazzo, M. (2021). Environmental DNA effectively captures functional diversity of coastal fish communities. Molecular Ecology, 30, 3127-3139.

[7] Aguzzi, J., Chatzievangelou, D., Marini, S., Fanelli, E., Danovaro, R., Flögel, S., Lebris, N., Juanes, F., De Leo, F. C., Del Rio, J., Thomsen, L., Costa, C., Riccobene, G., Tamburini, C., Lefevre, D., Gojak, C., Poulain, P.-M., Favali, P., Griffa, A., … Company, J. B. (2019). New high-tech flexible networks for the monitoring of deep-sea ecosystems. Environmental Science & Technology, 53, 6616-6631.

[8] Aguzzi, J., Chatzievangelou, D., Marini, S., Fanelli, E., Danovaro, R., Flögel, S., Lebris, N., Juanes, F., De Leo, F. C., Del Rio, J., Thomsen, L., Costa, C., Riccobene, G., Tamburini, C., Lefevre, D., Gojak, C., Poulain, P.-M., Favali, P., Griffa, A., … Company, J. B. (2019). New high-tech flexible networks for the monitoring of deep-sea ecosystems. Environmental Science & Technology, 53, 6616-6631.

[9] Alberdi, A., Aizpurua, O., Gilbert, M. T. P., & Bohmann, K. (2018). Scrutinizing key steps for reliable metabarcoding of environmental samples. Methods in Ecology and Evolution, 9, 134-147.

[10] Alberdi, A., Aizpurua, O., Gilbert, M. T. P., & Bohmann, K. (2018). Scrutinizing key steps for reliable metabarcoding of environmental samples. Methods in Ecology and Evolution, 9, 134-147.

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Fishing for fish environmental DNA: Ecological applications, methodological considerations, surveying designs, and ways forward

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Fishing for fish environmental DNA: Ecological applications, methodological considerations, surveying designs, and ways forward

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