| Abstract | Meiofaunal animals, roughly between 0.045-1 mm in size, are ubiquitous and ecologically important inhabitants of benthic marine ecosystems. Their high species richness and rapid response to environmental change make them promising fauna for ecological and biomonitoring studies. However, diversity patterns of benthic marine meiofauna remain poorly known due to challenges in species identification using classical morphological methods. DNA metabarcoding is a powerful tool to overcome this limitation. In this review, we assessed DNA metabarcoding approaches used in studies on benthic marine meiofauna, with the aim of harmonizing the various steps in order to provide comparable results for biodiversity monitoring. We found that the applied methods vary greatly between researchers and studies, and conclude that further explicit comparisons of protocols are needed to apply DNA metabarcoding as a standard tool for assessing benthic meiofaunal community composition. Key aspects that require further consideration include: (1) comparability of sample pre-treatment methods; (2) integration of different primers and molecular markers for both the mitochondrial cytochrome c oxidase subunit I (COI) and the nuclear 18S rRNA genes to maximize taxon recovery; (3) precise and standardized description of sampling methods to allow for comparison and replication; and (4) evaluation and testing of bioinformatic pipelines to enhance comparability between studies. By enhancing comparability between the various approaches currently used for the different aspects of the analyses, DNA metabarcoding will improve the long-term integrative potential for surveying and biomonitoring marine benthic meiofauna. |
| Text | 456972 2021 10.3389/fmars.2021.730063 meiofauna metabarcoding DNA metabarcoding methods for the study of marine benthic meiofauna a review Romy Gielings, Maria Fais, Diego Fontaneto, Simon Creer, Felipe O. Costa, Willem Renema, Jan N. Macher Naturalis Biodiversity Center, Netherlands Aquatic Ecology and Water Quality Management Group, Department of Environmental Sciences, Wageningen University, Netherlands Technical and Environmental Consulting Group, SSL Servizi Sicurezza Lavoro, Italy National Research Council of Italy, Water Research Institute, CNR IRSA, Italy Molecular Ecology and Evolution Group, School of Natural Sciences, Bangor University, United Kingdom Centre of Molecular and Environmental Biology, Department of Biology, University of Minho, Portugal Institute of Science and Innovation for Bio Sustainability, University of Minho, Portugal Meiofaunal animals, roughly between 0.045 1 mm in size, are ubiquitous and ecologically important inhabitants of benthic marine ecosystems. Their high species richness and rapid response to environmental change make them promising fauna for ecological and biomonitoring studies. However, diversity patterns of benthic marine meiofauna remain poorly known due to challenges in species identification using classical morphological methods. DNA metabarcoding is a powerful tool to overcome this limitation. In this review, we assessed DNA metabarcoding approaches used in studies on benthic marine meiofauna, with the aim of harmonizing the various steps in order to provide comparable results for biodiversity monitoring. We found that the applied methods vary greatly between researchers and studies, and conclude that further explicit comparisons of protocols are needed to apply DNA metabarcoding as a standard tool for assessing benthic meiofaunal community composition. Key aspects that require further consideration include 1 comparability of sample pre treatment methods; 2 integration of different primers and molecular markers for both the mitochondrial cytochrome c oxidase subunit I COI and the nuclear 18S rRNA genes to maximize taxon recovery; 3 precise and standardized description of sampling methods to allow for comparison and replication; and 4 evaluation and testing of bioinformatic pipelines to enhance comparability between studies. By enhancing comparability between the various approaches currently used for the different aspects of the analyses, DNA metabarcoding will improve the long term integrative potential for surveying and biomonitoring marine benthic meiofauna. Published version https //www.frontiersin.org/articles/10.3389/fmars.2021.730063/abstract Articolo in rivista 2296 7745 Frontiers in Marine Science Frontiers in Marine Science diego.fontaneto FONTANETO DIEGO |
