Department of Functional Biology, University of Oviedo, Oviedo, Spain.
PLoS One. 2011;6(8):e22592. doi: 10.1371/journal.pone.0022592. Epub 2011 Aug 4.
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.
生物多样性和种内遗传多样性是相互关联的,决定了群落生存和进化的潜力。在原核生物群落中,这两者都被视为超越物种界限的功能变体的宏基因组或集合来一起考虑。许多因素会改变高等真核生物群落中的生物多样性,而人类的开发利用对于某些植物和动物群体来说可能是最重要的因素之一。例如,渔业可以改变生物多样性和遗传多样性(种内)。过度捕捞会极大地改变种内多样性。对某一群体的过度捕捞可能意味着某些遗传变异的灭绝,随后种内多样性的丧失。本研究的目的是应用宏基因组方法研究鱼类群落,并探索其在快速评估群落水平生物多样性和遗传多样性方面的价值。在这里,我们应用了宏基因组方法,以 COI 作为标记基因作为模型序列,对渔业捕捞的四个非常不同的鱼类群落进行了研究:来自亚马逊河和西班牙北部河流的淡水群落,以及来自坎塔布连和地中海的海洋群落。我们将每个区域捕捞物中获得的所有序列视为一个生物单元(被捕捞的群落),发现我们在此处检查的亚马逊捕捞样本的宏基因组多样性指数低于预期。多样性的减少至少可以部分解释为鱼类群落的过度捕捞,而鱼类群落的过度捕捞已经通过其他方法进行了独立估计。我们建议使用宏基因组方法来估计真核生物群落的多样性,并在多物种水平上尽早评估遗传变异的丧失。
