Back to the Future of Soil Metagenomics

Joseph Nesme(Université Claude Bernard Lyon 1), Wafa Achouak(Aix-Marseille Université), Spiros N. Agathos(Universidad Yachay Tech), Mark Bailey(Natural Environment Research Council), Petr Baldrián(Institute of Microbiology), Dominique Brunel(Commissariat à l'Énergie Atomique et aux Énergies Alternatives), Åsa Frostegård(Norwegian University of Life Sciences), Thierry Heulin(Aix-Marseille Université), Janet Jansson(Pacific Northwest National Laboratory), Édouard Jurkevitch(Hebrew University of Jerusalem), Kristiina Kruus(VTT Technical Research Centre of Finland), George A. Kowalchuk(Utrecht University), Antonio Lagares(Consejo Nacional de Investigaciones Científicas y Técnicas), Hilary Lappin‐Scott(Swansea University), Philippe Lemanceau(Université de Bourgogne), Denis Le Paslier(Commissariat à l'Énergie Atomique et aux Énergies Alternatives), Ines Mandic‐Mulec(University of Ljubljana), J. Colin Murrell(University of East Anglia), David D. Myrold(Oregon State University), Renaud Nalin, P. Nannipieri(University of Florence), Josh D. Neufeld(University of Waterloo), Fergal O’Gara(National University of Ireland), John Jacob Parnell(National Ecological Observatory Network), Alfred Pühler(Bielefeld University), Victor Satler Pylro(Fundação Oswaldo Cruz), Juan L. Ramos(Consejo Superior de Investigaciones Científicas), Luiz Fernando Würdig Roesch(Universidade Federal do Pampa), Michael Schloter(Helmholtz Zentrum München), Christa Schleper(University of Vienna), Alexander Sczyrba(Bielefeld University), Angela Sessitsch(Austrian Institute of Technology), Sara Sjöling(Södertörn University), Jan Sørensen(University of Copenhagen), Søren J. Sørensen(University of Copenhagen), Christoph C. Tebbe(Johann Heinrich von Thünen-Institut), Edward Topp(Western University), George Tsiamis(University of Patras), Jan Dirk van Elsas(University of Groningen), Geertje van Keulen(Swansea University), Franco Widmer(Agroscope), Michael Wagner(University of Vienna), Tong Zhang(University of Hong Kong), Xiaojun Zhang(Shanghai Jiao Tong University), Liping Zhao(Shanghai Jiao Tong University), Yong‐Guan Zhu(Chinese Academy of Sciences), Timothy M. Vogel(Université Claude Bernard Lyon 1), Pascal Simonet(Swansea University)
Frontiers in Microbiology
February 10, 2016
10.3389/fmicb.2016.00073
Cited by 146Open Access
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Abstract

Direct extraction and characterization of microbial community DNA through PCR amplicon surveys and metagenomics has revolutionized the study of environmental microbiology and microbial ecology. In particular, metagenomic analysis of nucleic acids provides direct access to the genomes of the “uncultivated majority.” Accelerated by advances in sequencing technology, microbiologists have discovered more novel phyla, classes, genera, and genes from microorganisms in the first decade and a half of the twenty-first century than since these “many very little living animalcules” were first discovered by van Leeuwenhoek. The unsurpassed diversity of soils promises continued exploration of a range of industrial, agricultural, and environmental functions. The ability to explore soil microbial communities with increasing capacity offers the highest promise for answering many outstanding who, what, where, when, why, and with whom questions such as: Which microorganisms are linked to which soil habitats? How do microbial abundances change with changing edaphic conditions? How do microbial assemblages interact and influence one another synergistically or antagonistically? What is the full extent of soil microbial diversity, both functionally and phylogenetically? What are the dynamics of microbial communities in space and time? How sensitive are microbial communities to a changing climate? What is the role of horizontal gene transfer in the stability of microbial communities? Do highly diverse microbial communities confer resistance and resilience in soils?

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