Your search keyword '"Anthony David, McGuire"' showing total 2 results

1. Estimating heterotrophic respiration at large scales: challenges, approaches, and next steps

Author

Ben Bond‐Lamberty, Daniel Epron, Jennifer Harden, Mark E. Harmon, Forrest Hoffman, Jitendra Kumar, Anthony David McGuire, and Rodrigo Vargas

Subjects

carbon cycle, heterotrophic respiration, modeling, Ecology, QH540-549.5

Abstract

Abstract Heterotrophic respiration (HR), the aerobic and anaerobic processes mineralizing organic matter, is a key carbon flux but one impossible to measure at scales significantly larger than small experimental plots. This impedes our ability to understand carbon and nutrient cycles, benchmark models, or reliably upscale point measurements. Given that a new generation of highly mechanistic, genomic‐specific global models is not imminent, we suggest that a useful step to improve this situation would be the development of “Decomposition Functional Types” (DFTs). Analogous to plant functional types (PFTs), DFTs would abstract and capture important differences in HR metabolism and flux dynamics, allowing modelers and experimentalists to efficiently group and vary these characteristics across space and time. We argue that DFTs should be initially informed by top‐down expert opinion, but ultimately developed using bottom‐up, data‐driven analyses, and provide specific examples of potential dependent and independent variables that could be used. We present an example clustering analysis to show how annual HR can be broken into distinct groups associated with global variability in biotic and abiotic factors, and demonstrate that these groups are distinct from (but complementary to) already‐existing PFTs. A similar analysis incorporating observational data could form the basis for future DFTs. Finally, we suggest next steps and critical priorities: collection and synthesis of existing data; more in‐depth analyses combining open data with rigorous testing of analytical results; using point measurements and realistic forcing variables to constrain process‐based models; and planning by the global modeling community for decoupling decomposition from fixed site data. These are all critical steps to build a foundation for DFTs in global models, thus providing the ecological and climate change communities with robust, scalable estimates of HR.

Published

2016

2. A pan-Arctic synthesis of CH

Author

Claire C, Treat, Susan M, Natali, Jessica, Ernakovich, Colleen M, Iversen, Massimo, Lupascu, Anthony David, McGuire, Richard J, Norby, Taniya, Roy Chowdhury, Andreas, Richter, Hana, Šantrůčková, Christina, Schädel, Edward A G, Schuur, Victoria L, Sloan, Merritt R, Turetsky, and Mark P, Waldrop

Abstract

Permafrost thaw can alter the soil environment through changes in soil moisture, frequently resulting in soil saturation, a shift to anaerobic decomposition, and changes in the plant community. These changes, along with thawing of previously frozen organic material, can alter the form and magnitude of greenhouse gas production from permafrost ecosystems. We synthesized existing methane (CH

Published

2014