Networking our science to characterize the state, vulnerabilities, and management opportunities of soil organic matter

Jennifer W. Harden; Gustaf Hugelius; Anders Ahlström; Joseph C. Blankinship; Ben Bond-Lamberty; Corey Lawrence; Julie Loisel; Avni Malhotra; Robert B. Jackson; Stephen M. Ogle; Claire Phillips; Rebecca Ryals; Katherine Todd-Brown; Rodrigo Vargas; Sintana E. Vergara; M. Francesca Cotrufo; Marco Keiluweit; Katherine Heckman; Susan E. Crow; Whendee L. Silver; Marcia DeLonge; Lucas E. Nave

doi:10.1111/gcb.13896

Networking our science to characterize the state, vulnerabilities, and management opportunities of soil organic matter

Global Change Biology

By: Jennifer W. Harden, Gustaf Hugelius, Anders Ahlström, Joseph C. Blankinship, Ben Bond-Lamberty, Corey Lawrence, Julie Loisel, Avni Malhotra, Robert B. Jackson, Stephen M. Ogle, Claire Phillips, Rebecca Ryals, Katherine Todd-Brown, Rodrigo Vargas, Sintana E. Vergara, M. Francesca Cotrufo, Marco Keiluweit, Katherine Heckman, Susan E. Crow, Whendee L. Silver, Marcia DeLonge, and Lucas E. Nave

https://doi.org/10.1111/gcb.13896

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Abstract

Soil organic matter (SOM) supports the Earth's ability to sustain terrestrial ecosystems, provide food and fiber, and retains the largest pool of actively cycling carbon. Over 75% of the soil organic carbon (SOC) in the top meter of soil is directly affected by human land use. Large land areas have lost SOC as a result of land use practices, yet there are compensatory opportunities to enhance productivity and SOC storage in degraded lands through improved management practices. Large areas with and without intentional management are also being subjected to rapid changes in climate, making many SOC stocks vulnerable to losses by decomposition or disturbance. In order to quantify potential SOC losses or sequestration at field, regional, and global scales, measurements for detecting changes in SOC are needed. Such measurements and soil-management best practices should be based on well established and emerging scientific understanding of processes of C stabilization and destabilization over various timescales, soil types, and spatial scales. As newly engaged members of the International Soil Carbon Network, we have identified gaps in data, modeling, and communication that underscore the need for an open, shared network to frame and guide the study of SOM and SOC and their management for sustained production and climate regulation.

Additional publication details
Publication type	Article
Publication Subtype	Journal Article
Title	Networking our science to characterize the state, vulnerabilities, and management opportunities of soil organic matter
Series title	Global Change Biology
DOI	10.1111/gcb.13896
Volume	24
Issue	2
Year Published	2018
Language	English
Publisher	Wiley
Contributing office(s)	Geology, Minerals, Energy, and Geophysics Science Center, John Wesley Powell Center for Analysis and Synthesis
Description	14 p.
First page	e705
Last page	e718
Google Analytic Metrics	Metrics page