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oapen-20.500.12657-768322023-10-17T02:09:57Z Chapter Advancing and Integrating ‘Biomonitoring 2.0’ with New Molecular Tools for Marine Biodivesity and Ecosystem Assessments Cheong Aden Ip, Yin Jin Marc Chang, Jia Huang, Danwei Barcoding Bioinformatics Environmental DNA Metabarcoding Environmental RNA bic Book Industry Communication::P Mathematics & science::PS Biology, life sciences::PSA Life sciences: general issues::PSAF Ecological science, the Biosphere bic Book Industry Communication::P Mathematics & science::PS Biology, life sciences::PSA Life sciences: general issues::PSAJ Evolution bic Book Industry Communication::P Mathematics & science::PS Biology, life sciences Global declines in biodiversity have become increasingly severe. Traditional monitoring approaches for assessing marine species distributions and abundances are time consuming, costly, and manpower intensive. Fortunately, rapid progress of sequencing technologies from first-generation to high-throughput sequencing have resulted in improvements in experimental techniques. These advances have accelerated rates of species discovery and identification, enabling community-level biomonitoring – the ‘Biomonitoring 2.0’ framework. Simultaneous multispecies identifications in mixed-sample pools are now mainstream with DNA metabarcoding, upscaling monitoring from the individual specimen to the ecosystem scale. In this review, we examine the progress of DNA metabarcoding over the last decade in the characterisation of marine macrobiota to microbial communities. By melding molecular techniques and more traditional taxonomic tools, this integrative Biomonitoring 2.0 approach is tailored to improve the overall effectiveness of biomonitoring. As such, we here assess its accuracy, expertise requirement, general applicability, time, cost-effectiveness, and throughput for biomonitoring. We highlight various methodological challenges that must be considered during implementation, including completeness of reference databases, representativeness of sequencing read counts for quantitative estimates, and supplementation with environmental RNA for discerning live signals from legacy DNA. Finally, we conclude with an outlook of the enhanced Biomonitoring 2.0 framework for mass adoption by ecologists and managers, as well as the prospects of emerging rapid detection technologies for ecosystem surveillance. 2023-10-16T09:44:25Z 2023-10-16T09:44:25Z 2023 chapter ONIX_20231016_9781032426969_6 9781032426969 9781032548456 9781003363873 https://library.oapen.org/handle/20.500.12657/76832 eng application/pdf Attribution-NonCommercial-NoDerivatives 4.0 International 9781003363873_10.1201_9781003363873-6.pdf Taylor & Francis Oceanography and Marine Biology CRC Press 10.1201/9781003363873-7 10.1201/9781003363873-7 7b3c7b10-5b1e-40b3-860e-c6dd5197f0bb a56f7fb8-e1e2-4255-8dc7-83834c7e9de5 44909cb6-ff1b-45d1-be4f-12c79ca5d50b 9781032426969 9781032548456 9781003363873 CRC Press 33 Boca Raton, Abingdon [...] Temasek Foundation Temasek Foundation International open access
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English
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Global declines in biodiversity have become increasingly severe. Traditional monitoring approaches for assessing marine species distributions and abundances are time consuming, costly, and manpower intensive. Fortunately, rapid progress of sequencing technologies from first-generation to high-throughput sequencing have resulted in improvements in experimental techniques. These advances have accelerated rates of species discovery and identification, enabling community-level biomonitoring – the ‘Biomonitoring 2.0’ framework. Simultaneous multispecies identifications in mixed-sample pools are now mainstream with DNA metabarcoding, upscaling monitoring from the individual specimen to the ecosystem scale. In this review, we examine the progress of DNA metabarcoding over the last decade in the characterisation of marine macrobiota to microbial communities. By melding molecular techniques and more traditional taxonomic tools, this integrative Biomonitoring 2.0 approach is tailored to improve the overall effectiveness of biomonitoring. As such, we here assess its accuracy, expertise requirement, general applicability, time, cost-effectiveness, and throughput for biomonitoring. We highlight various methodological challenges that must be considered during implementation, including completeness of reference databases, representativeness of sequencing read counts for quantitative estimates, and supplementation with environmental RNA for discerning live signals from legacy DNA. Finally, we conclude with an outlook of the enhanced Biomonitoring 2.0 framework for mass adoption by ecologists and managers, as well as the prospects of emerging rapid detection technologies for ecosystem surveillance.
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9781003363873_10.1201_9781003363873-6.pdf
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9781003363873_10.1201_9781003363873-6.pdf
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9781003363873_10.1201_9781003363873-6.pdf
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9781003363873_10.1201_9781003363873-6.pdf
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9781003363873_10.1201_9781003363873-6.pdf
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9781003363873_10.1201_9781003363873-6.pdf
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9781003363873_10.1201_9781003363873-6.pdf
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Taylor & Francis
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2023
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1799945191022395392
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