Comparison of Environmental DNA Metabarcoding and Underwater Visual Census for Assessing Macrobenthic Diversity
The rapid advancement of environmental DNA (eDNA) technology has transformed ecological research, particularly in aquatic ecosystems. However, the optimal sampling matrix (e.g., water or sediment) and the potential for eDNA to replace or complement traditional underwater visual census (UVC) remain u...
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| Published in | Biology (Basel, Switzerland) Vol. 14; no. 7; p. 821 |
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| Main Authors | , , , , , , |
| Format | Journal Article |
| Language | English |
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| Abstract | The rapid advancement of environmental DNA (eDNA) technology has transformed ecological research, particularly in aquatic ecosystems. However, the optimal sampling matrix (e.g., water or sediment) and the potential for eDNA to replace or complement traditional underwater visual census (UVC) remain unclear. Here, we integrate water eDNA, sediment eDNA, and UVC approaches to systematically compare the diversity of benthic macrofauna in the subtidal zones of the Nanji Islands, China. Our results show that sediment eDNA samples exhibited the highest species richness, while UVC had the lowest. Each method revealed distinct species profiles, with relatively few shared taxa at the order level and below. Environmental eDNA showed significant advantages in detecting key phyla such as Annelida and Arthropoda. In contrast, traditional UVC was crucial for identifying certain taxa, such as Bryozoa, which were undetectable by eDNA methods. The low overlap in species detected by these methods underscores their complementary nature, highlighting the necessity of integrating multiple approaches to achieve a more comprehensive and accurate biodiversity assessment. Future research should focus on refining eDNA techniques, such as developing more universal primers, to further enhance their applicability in biodiversity monitoring. |
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| AbstractList | The rapid advancement of environmental DNA (eDNA) technology has transformed ecological research, particularly in aquatic ecosystems. However, the optimal sampling matrix (e.g., water or sediment) and the potential for eDNA to replace or complement traditional underwater visual census (UVC) remain unclear. Here, we integrate water eDNA, sediment eDNA, and UVC approaches to systematically compare the diversity of benthic macrofauna in the subtidal zones of the Nanji Islands, China. Our results show that sediment eDNA samples exhibited the highest species richness, while UVC had the lowest. Each method revealed distinct species profiles, with relatively few shared taxa at the order level and below. Environmental eDNA showed significant advantages in detecting key phyla such as Annelida and Arthropoda. In contrast, traditional UVC was crucial for identifying certain taxa, such as Bryozoa, which were undetectable by eDNA methods. The low overlap in species detected by these methods underscores their complementary nature, highlighting the necessity of integrating multiple approaches to achieve a more comprehensive and accurate biodiversity assessment. Future research should focus on refining eDNA techniques, such as developing more universal primers, to further enhance their applicability in biodiversity monitoring. The rapid advancement of environmental DNA (eDNA) technology has transformed ecological research, particularly in aquatic ecosystems. However, the optimal sampling matrix (e.g., water or sediment) and the potential for eDNA to replace or complement traditional underwater visual census (UVC) remain unclear. Here, we integrate water eDNA, sediment eDNA, and UVC approaches to systematically compare the diversity of benthic macrofauna in the subtidal zones of the Nanji Islands, China. Our results show that sediment eDNA samples exhibited the highest species richness, while UVC had the lowest. Each method revealed distinct species profiles, with relatively few shared taxa at the order level and below. Environmental eDNA showed significant advantages in detecting key phyla such as Annelida and Arthropoda. In contrast, traditional UVC was crucial for identifying certain taxa, such as Bryozoa, which were undetectable by eDNA methods. The low overlap in species detected by these methods underscores their complementary nature, highlighting the necessity of integrating multiple approaches to achieve a more comprehensive and accurate biodiversity assessment. Future research should focus on refining eDNA techniques, such as developing more universal primers, to further enhance their applicability in biodiversity monitoring.The rapid advancement of environmental DNA (eDNA) technology has transformed ecological research, particularly in aquatic ecosystems. However, the optimal sampling matrix (e.g., water or sediment) and the potential for eDNA to replace or complement traditional underwater visual census (UVC) remain unclear. Here, we integrate water eDNA, sediment eDNA, and UVC approaches to systematically compare the diversity of benthic macrofauna in the subtidal zones of the Nanji Islands, China. Our results show that sediment eDNA samples exhibited the highest species richness, while UVC had the lowest. Each method revealed distinct species profiles, with relatively few shared taxa at the order level and below. Environmental eDNA showed significant advantages in detecting key phyla such as Annelida and Arthropoda. In contrast, traditional UVC was crucial for identifying certain taxa, such as Bryozoa, which were undetectable by eDNA methods. The low overlap in species detected by these methods underscores their complementary nature, highlighting the necessity of integrating multiple approaches to achieve a more comprehensive and accurate biodiversity assessment. Future research should focus on refining eDNA techniques, such as developing more universal primers, to further enhance their applicability in biodiversity monitoring. This study evaluates the efficacy of environmental DNA (eDNA) metabarcoding and underwater visual census (UVC) in assessing the diversity of subtidal macrobenthic communities. We compared water eDNA, sediment eDNA, and traditional UVC methods in the Nanji Islands, China. Sediment eDNA demonstrated superior performance in detecting key benthic phyla such as Annelida and Arthropoda, whereas UVC was more effective for large and active organisms. Integrating these methods provides a more comprehensive biodiversity assessment, highlighting the importance of combining molecular and traditional techniques for effective conservation and management strategies in marine ecosystems. This study evaluates the efficacy of environmental DNA (eDNA) metabarcoding and underwater visual census (UVC) in assessing the diversity of subtidal macrobenthic communities. We compared water eDNA, sediment eDNA, and traditional UVC methods in the Nanji Islands, China. Sediment eDNA demonstrated superior performance in detecting key benthic phyla such as Annelida and Arthropoda, whereas UVC was more effective for large and active organisms. Integrating these methods provides a more comprehensive biodiversity assessment, highlighting the importance of combining molecular and traditional techniques for effective conservation and management strategies in marine ecosystems. The rapid advancement of environmental DNA (eDNA) technology has transformed ecological research, particularly in aquatic ecosystems. However, the optimal sampling matrix (e.g., water or sediment) and the potential for eDNA to replace or complement traditional underwater visual census (UVC) remain unclear. Here, we integrate water eDNA, sediment eDNA, and UVC approaches to systematically compare the diversity of benthic macrofauna in the subtidal zones of the Nanji Islands, China. Our results show that sediment eDNA samples exhibited the highest species richness, while UVC had the lowest. Each method revealed distinct species profiles, with relatively few shared taxa at the order level and below. Environmental eDNA showed significant advantages in detecting key phyla such as Annelida and Arthropoda. In contrast, traditional UVC was crucial for identifying certain taxa, such as Bryozoa, which were undetectable by eDNA methods. The low overlap in species detected by these methods underscores their complementary nature, highlighting the necessity of integrating multiple approaches to achieve a more comprehensive and accurate biodiversity assessment. Future research should focus on refining eDNA techniques, such as developing more universal primers, to further enhance their applicability in biodiversity monitoring. |
| Audience | Academic |
| Author | Liu, Xinming Xie, Shangwei Xu, Kuidong Huo, Weiwei Lei, Yanli Zhan, Zifeng Chen, Wandong |
| AuthorAffiliation | 1 Laboratory of Marine Organism Taxonomy and Phylogeny, Qingdao Key Laboratory of Marine Biodiversity and Conservation, Institute of Oceanology, Chinese Academy of Sciences, Qingdao 266071, China; zzhan@qdio.ac.cn (Z.Z.); h2580852@outlook.com (W.H.); kxu@qdio.ac.cn (K.X.) 5 Institutes of Marine Drugs, Guangxi University of Chinese Medicine, Nanning 530200, China; liuxm@gxtcmu.edu.cn 2 School of Marine Science and Engineering, Qingdao Agricultural University, Qingdao 266109, China 3 University of Chinese Academy of Sciences, Beijing 100049, China 4 Nanji Islands National Marine Nature Reserve Administration, Wenzhou 325400, China; shangweixie2025@163.com (S.X.); chen_0636@sina.com (W.C.) |
| AuthorAffiliation_xml | – name: 2 School of Marine Science and Engineering, Qingdao Agricultural University, Qingdao 266109, China – name: 5 Institutes of Marine Drugs, Guangxi University of Chinese Medicine, Nanning 530200, China; liuxm@gxtcmu.edu.cn – name: 1 Laboratory of Marine Organism Taxonomy and Phylogeny, Qingdao Key Laboratory of Marine Biodiversity and Conservation, Institute of Oceanology, Chinese Academy of Sciences, Qingdao 266071, China; zzhan@qdio.ac.cn (Z.Z.); h2580852@outlook.com (W.H.); kxu@qdio.ac.cn (K.X.) – name: 3 University of Chinese Academy of Sciences, Beijing 100049, China – name: 4 Nanji Islands National Marine Nature Reserve Administration, Wenzhou 325400, China; shangweixie2025@163.com (S.X.); chen_0636@sina.com (W.C.) |
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| Cites_doi | 10.1038/s41598-019-47201-9 10.1016/j.marpolbul.2023.114896 10.1038/nmeth.3869 10.1111/mec.14350 10.1038/s42003-018-0192-6 10.1038/s41598-021-86396-8 10.1016/j.ecss.2022.108017 10.1002/aqc.70121 10.1111/mec.15382 10.1111/j.1467-985X.2010.00676_9.x 10.1093/icesjms/fsab059 10.1111/j.1365-294X.2012.05470.x 10.1186/1742-9994-10-34 10.1371/journal.pone.0191737 10.1016/j.biocon.2014.11.017 10.1186/s12302-018-0157-x 10.1111/1755-0998.12138 10.1038/s41598-021-94286-2 10.1016/j.scitotenv.2024.177250 10.1002/edn3.70048 10.1038/s41598-017-12501-5 10.1038/s41467-019-14105-1 10.3897/mbmg.5.59201 10.1371/journal.pone.0244086 |
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| SubjectTerms | Annelida Aquatic ecosystems Arthropoda Biodiversity biodiversity assessment Bioinformatics Biological diversity Census Censuses DNA DNA barcoding eDNA Efficiency Environmental DNA Islands Macrofauna Marine ecosystems marine protected area Protected areas Protection and preservation Seawater Sediments Sediments (Geology) species detection efficiency Species richness Strategic planning (Business) subtidal zone Taxonomy |
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| Title | Comparison of Environmental DNA Metabarcoding and Underwater Visual Census for Assessing Macrobenthic Diversity |
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