Constraints and Drivers of Dissolved Fluxes of Pyrogenic Carbon in Soil and Freshwater Systems: A Global Review and Meta‐Analysis

Author:

Abney R. B.1ORCID,Barnes M. E.2ORCID,Moss A.1,Santos F.3ORCID

Affiliation:

1. Warnell School of Forestry and Natural Resources University of Georgia Athens GA USA

2. Biological Sciences Division Pacific Northwest National Laboratory Richland WA USA

3. Environmental Sciences Division Oak Ridge National Laboratory Oak Ridge TN USA

Abstract

AbstractPyrogenic carbon (PyC) is a significant component of the global soil carbon pool due to its longer environmental persistence than other soil organic matter components. Despite PyC's persistence in soil, recent work has indicated that it is susceptible to loss processes such as mineralization and leaching, with the significance and magnitude of these largely unknown at the hillslope and watershed scales. We present a review of the work concerning dissolved PyC transport in soil and freshwater. Our analysis found that the primary environmental controls on dissolved PyC (dPyC) transport are the formation conditions and quality of the PyC itself, with longer and higher temperature charring conditions leading to less transport of dPyC. While correlations between dPyC and dissolved organic carbon in rivers and other pools are frequently reported, the slope of these correlations was pool‐dependent (i.e., soil‐water, precipitation, lakes, streams, rivers), suggesting site‐specific environmental controls. However, the lack of consistency in analytical techniques and sample preparation remains a major challenge to quantifying environmental controls on dPyC fluxes. We propose that future research should focus on the following: (a) consistency in methodological approaches, (b) more quantitative measures of dPyC in pools and fluxes from soils to streams, (c) turnover times of dPyC in soils and aquatic systems, and (d) improved understanding of how mechanisms controlling the fate of dPyC in dynamic post‐fire landscapes interact. With more refined quantitative information about the controls on dPyC transport at the hillslope and landscape scale, we can increase the accuracy and utility of global carbon models.

Funder

Laboratory Directed Research and Development

Oak Ridge National Laboratory

Battelle

U.S. Department of Energy

Biological and Environmental Research

Office of Science

Pacific Northwest National Laboratory

Publisher

American Geophysical Union (AGU)

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