The Ecobiomics Project: Advancing Metagenomics Assessment of Soil Health and Freshwater Quality in Canada

Overview

Journal Sci Total Environ

Date 2020 Jan 12

PMID 31926407

Citations 14

Authors

Thomas A Edge

Donald J Baird

Guillaume Bilodeau

Nellie Gagne

Charles Greer

David Konkin

Glen Newton

Armand Seguin

Lee Beaudette

Satpal Bilkhu

Alexander Bush

Wen Chen

Jerome Comte

Janet Condie

Sophie Crevecoeur

Nazir El-Kayssi

Erik J S Emilson

Donna-Lee Fancy

Iyad Kandalaft

Izhar U H Khan

Ian King

David Kreutzweiser

David Lapen

John Lawrence

Christine Lowe

Oliver Lung

Christine Martineau

Matthew Meier

Nicholas Ogden

David Pare

Lori Phillips

Teresita M Porter

Joel Sachs

Zachery Staley

Royce Steeves

Lisa Venier

Teodor Veres

Cynthia Watson

Susan Watson

James Macklin

Affiliations

Soon will be listed here.

Abstract

Transformative advances in metagenomics are providing an unprecedented ability to characterize the enormous diversity of microorganisms and invertebrates sustaining soil health and water quality. These advances are enabling a better recognition of the ecological linkages between soil and water, and the biodiversity exchanges between these two reservoirs. They are also providing new perspectives for understanding microorganisms and invertebrates as part of interacting communities (i.e. microbiomes and zoobiomes), and considering plants, animals, and humans as holobionts comprised of their own cells as well as diverse microorganisms and invertebrates often acquired from soil and water. The Government of Canada's Genomics Research and Development Initiative (GRDI) launched the Ecobiomics Project to coordinate metagenomics capacity building across federal departments, and to apply metagenomics to better characterize microbial and invertebrate biodiversity for advancing environmental assessment, monitoring, and remediation activities. The Project has adopted standard methods for soil, water, and invertebrate sampling, collection and provenance of metadata, and nucleic acid extraction. High-throughput sequencing is located at a centralized sequencing facility. A centralized Bioinformatics Platform was established to enable a novel government-wide approach to harmonize metagenomics data collection, storage and bioinformatics analyses. Sixteen research projects were initiated under Soil Microbiome, Aquatic Microbiome, and Invertebrate Zoobiome Themes. Genomic observatories were established at long-term environmental monitoring sites for providing more comprehensive biodiversity reference points to assess environmental change.

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