The Earth Microbiome project: successes and aspirations
Jack A Gilbert123, Janet K Jansson4 and Rob Knight56*
• *Corresponding
author: Rob Knight rob.knight@colorado.edu
Author Affiliations
1Institute for Genomics and Systems Biology, Argonne
National Laboratory, Lemont 60439, IL, USA
2Department of Ecology and Evolution, University of Chicago,
5640 South Ellis Avenue, Chicago 60637, IL, USA
3College of Environmental and Resource Sciences, Zhejiang
University, Hangzhou 310058, China
4Pacific Northwest National Laboratory, MSIN: J4-18,
Richland 99352, WA, USA
5Department of Chemistry and Biochemistry and BioFrontiers
Institute, University of Colorado, Boulder 80309, CO, USA
6Howard Hughes Medical Institute, Boulder 80309, CO, USA
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BMC Biology 2014, 12:69
doi:10.1186/s12915-014-0069-1
The electronic version of this article is the complete one
and can be found online at: http://www.biomedcentral.com/1741-7007/12/69
This is an Open Access article distributed under the terms
of the Creative Commons Attribution License
(http://creativecommons.org/licenses/by/4.0), which permits unrestricted use,
distribution, and reproduction in any medium, provided the original work is
properly credited. The Creative Commons Public Domain Dedication waiver
(http://creativecommons.org/publicdomain/zero/1.0/) applies to the data made
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Comment
The Earth Microbiome Project (EMP) was launched in August
2010, with the ambitious aim of constructing a global catalogue of the
uncultured microbial diversity of this planet. The primary vision of the Earth
Microbiome Project, to process the microbial diversity and functional potential
from approximately 200,000 environmental samples, marks it as an undertaking so
massive that it was at first considered to be pure folly (as late as 2012,
Jonathan Eisen was quoted in Nature as saying ‘Knight and Gilbert literally
talk about sampling the entire planet. It is ludicrous and not feasible - yet
they are doing it’ [1]).
The initial concept arose out of a Department of the
Environment (DOE) sponsored workshop on the promise of terabase-scale
sequencing in Snowbird, Utah, designed to inspire research ideas using new
technology to revolutionize microbial ecology and our understanding of the
microbial world [2]. Many other exciting projects also evolved from that
meeting, including efforts to extend the sequencing of type strains of cultured
bacterial taxa, which in itself has become the Microbial Earth Project [3]. In
October 2010, EMP pioneers held a small workshop at Argonne National
Laboratories to determine the most effective way to jumpstart such an
initiative. At this meeting, we agreed that the only feasible route to acquire
and process 200,000 samples was through crowdsourcing, soliciting donations of
samples from researchers around the world. This was identified as a key flaw in
the design, on the grounds that it would not be possible to convince
researchers to part with samples that had been painstakingly collected for
inclusion in a single effort [4]. Fortunately, the participants’ generosity has
greatly exceeded what we could have hoped for, and the crowdsourcing approach
has been a success.
We floated this strategy initially as a potentially viable
approach based on the precedent of existing programs that followed broadly
similar designs, especially the International Census of Marine Microbes [5] and
the Human Microbiome Project [6]. The basic design was founded on the principle
of coordinated sample collection, and standardization of contextual metadata
acquisition, DNA extraction, PCR and amplicon and shotgun sequencing
approaches, and an open-source analytical platform with free, unrestricted
access to both the amplicon and metadata immediately following completion of
the analysis. Initially the effort was funded primarily by unrestricted funds
available to the principle investigators through Argonne National Laboratory,
Lawrence Berkeley National Laboratory, the Howard Hughes Medical Institute, and
donations from corporate sponsors. Under this effort, the Earth Microbiome
Project committee developed the standard protocols [7], contacted and
collaborated with researchers from numerous different microbial ecology
disciplines, from human, animal, plant, terrestrial, marine, freshwater,
sediment, air, built environment and every intersection of these ecosystems. By
August 2012, less than 2 years since its initiation, the Earth Microbiome
Project had processed approximately 7,000 environmental samples, generating 16S
rRNA amplicon data and releasing these data using an open portal through the
Quantitative Insights into Microbial Ecology (QIIME) database. In June 2013,
the EMP received awards from the WM Keck Foundation and the John Templeton
Foundation to support activities to bring the catalogue up to 50,000 samples
processed, and as of July 2014 we have reached over 30,000 (compared with the
phase 1 Human Microbiome Project amplicon analysis of 5,771 samples [8]). In
its planning phase, the EMP proposed the co-analysis of samples using
metagenomics and metabolic modeling of ecosystems, and these aims are still
viable, but such efforts have to date been more targeted to specific environments
and studies. As it stands, the EMP represents the largest effort to
characterize the diversity, distribution, and structure of microbial ecosystems
across the earth, achievable only through coordinated collaboration of all of
the independent research projects (166) that comprise the EMP. Although each
hypothesis-driven study provided by our collaborators can tell its own story,
the real power of the EMP is through meta-analysis of these data, empowering
researchers to develop and use samples acquired from myriad ecosystems to test
hypotheses in microbial ecology. Importantly, this pooled data resource also
provides an unparalleled opportunity to contextualize individual studies by
defining the patterns they see in a global context. These large-scale meta-analyses
can enable researchers to ask unique questions regarding the biogeography,
dynamic dispersal, and ecology of the microbial planet. TOMADO DE ENVIO DE BCM
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