Abstract
Biodiversity and intra-specific genetic diversity are interrelated and determine the potential of a community to survive and evolve. Both are considered together in Prokaryote communities treated as metagenomes or ensembles of functional variants beyond species limits.Many factors alter biodiversity in higher Eukaryote communities, and human exploitation can be one of the most important for some groups of plants and animals. For example, fisheries can modify both biodiversity and genetic diversity (intra specific). Intra-specific diversity can be drastically altered by overfishing. Intense fishing pressure on one stock may imply extinction of some genetic variants and subsequent loss of intra-specific diversity. The objective of this study was to apply a metagenome approach to fish communities and explore its value for rapid evaluation of biodiversity and genetic diversity at community level.Here we have applied the metagenome approach employing the Barcoding target gene COI as a model sequence in catch from four very different fish assemblages exploited by fisheries: freshwater communities from the Amazon River and northern Spanish rivers, and marine communities from the Cantabric and Mediterranean seas.Treating all sequences obtained from each regional catch as a biological unit (exploited community) we found that metagenomic diversity indices of the Amazonian catch sample here examined were lower than expected. Reduced diversity could be explained, at least partially, by overexploitation of the fish community that had been independently estimated by other methods.We propose using a metagenome approach for estimating diversity in Eukaryote communities and early evaluating genetic variation losses at multi-species level.
Highlights
Biodiversity found on Earth today is the result of 3.5 billion years of evolution
The examples presented in this study reveal the potential of Barcoding data for rapid evaluation of diversity and, in a larger scope, for comparative studies of genetic diversity in different ecological settings [17]
DNA barcoding may not be sufficient to rigorously address population-level questions [24], it may be an ideal tool for early detection of genetic depletion of exploited species
Summary
Biodiversity found on Earth today is the result of 3.5 billion years of evolution. There are varied definitions of biodiversity, from ‘‘the totality of genes, species, and ecosystems of a region’’ to ‘‘the diversity of genes and organisms’’. In 1992 the Conference of the United Nations on Environment and Development was celebrated in Rio de Janeiro, Brazil, known as the ‘‘Summit of the Earth’’ In this meeting the Convention on Biological Diversity (CDB), which focused on the conservation and the sustainable use of the biodiversity, was signed. Genetic diversity is a crucial component of biodiversity and fundamental to species survival and to enabling appearance of new species. It is the basis of reproductive performance, resistance to diseases and capacity of adaptation to environmental changes [1,2,3]. We infer that when ecosystems are subjected to exploitation or other alterations, complete estimates that combine both types of diversity are crucial for describing community conservation status
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