2019
DOI: 10.3389/fevo.2019.00382
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Constraining Carbon and Nutrient Flows in Soil With Ecological Stoichiometry

Abstract: Soil organic matter (SOM) is central to soil carbon (C) storage and terrestrial nutrient cycling. New data have upended the traditional model of stabilization, which held that stable SOM was mostly made of undecomposed plant molecules. We now know that microbial by-products and dead cells comprise unexpectedly large amounts of stable SOM because they can become attached to mineral surfaces or physically protected within soil aggregates. SOM models have been built to incorporate the microbial to mineral stabili… Show more

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Cited by 42 publications
(28 citation statements)
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References 143 publications
(230 reference statements)
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“…Although long neglected, microbial biomass and community composition are increasingly demonstrated as important drivers of biogeochemical process rates (Bradford et al, 2014, 2017; Glassman et al, 2018; Maynard et al, 2018). In accordance, explicit microbial dynamics are becoming a modelling priority (Buchkowski et al, 2019) but approaches vary widely, ranging from a single microbial pool (Moorhead & Reynolds, 1991) to multiple functional groups (Smith & Wan, 2019). Significant challenges remain because while microbial communities are diverse both functionally and taxonomically, successful modelling requires simplification and it is not yet clear which axes of microbial community variation demand focus.…”
Section: Introductionmentioning
confidence: 99%
“…Although long neglected, microbial biomass and community composition are increasingly demonstrated as important drivers of biogeochemical process rates (Bradford et al, 2014, 2017; Glassman et al, 2018; Maynard et al, 2018). In accordance, explicit microbial dynamics are becoming a modelling priority (Buchkowski et al, 2019) but approaches vary widely, ranging from a single microbial pool (Moorhead & Reynolds, 1991) to multiple functional groups (Smith & Wan, 2019). Significant challenges remain because while microbial communities are diverse both functionally and taxonomically, successful modelling requires simplification and it is not yet clear which axes of microbial community variation demand focus.…”
Section: Introductionmentioning
confidence: 99%
“…they tend to be more homeostatic (Cleveland and Liptzin 2007). Ecological stoichiometry represents a helpful conceptual framework to understand the cycling of C, N and P nutrients at different spatial scales (Buchkowski et al 2019;Sterner and Elser 2002).…”
Section: Introductionmentioning
confidence: 99%
“…maintain stable C:N:P ratios independently of the soil nutrient status (Persson et al ., 2010). Even though some models allow microbial C:N:P to vary slightly (McGill et al ., 1981; Nicolardot et al ., 2001), homeostatic flexibility is currently only attributed to microbial community shifts, not an actual stoichiometric flexibility in individuals (Buchkowski et al ., 2019). Fixed microbial stoichiometric ratios are interpreted as an indicator of nutrient demands: If microbes need to maintain their narrow C:N ratios, N will be in limiting supply in substrates characterised by wider C:N ratios (Manzoni et al ., 2010).…”
Section: Introductionmentioning
confidence: 99%