2016
DOI: 10.1016/j.geoderma.2015.08.038
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Soil properties control decomposition of soil organic carbon: Results from data-assimilation analysis

Abstract: Soil properties, such as clay content, are hypothesized to control decomposition of soil organic carbon (SOC). However, these hypotheses of soil property-C decomposition relationships have not been explicitly tested at large spatial scales. Here, we used a data-assimilation approach to evaluate the roles of soil properties and environmental factors in regulating decomposition of SOC. A three-pool (active, slow, and passive) C-cycling model was optimally fitted with 376 published laboratory incubation data from… Show more

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Cited by 186 publications
(109 citation statements)
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“…5d), consistent with previous expectations (Schimel et al, 1994;Xu et al, 2016). In sites where clay content is < 50%…”
supporting
confidence: 92%
“…5d), consistent with previous expectations (Schimel et al, 1994;Xu et al, 2016). In sites where clay content is < 50%…”
supporting
confidence: 92%
“…Those soil types have, on average, a clay content of about 30 and 45%, respectively, which may help to slowdown SOC decomposition compared to coarser soils [58,59]. This is related to the fact that clay particles can help to stabilise decomposing litter by mineral associated bonds [1,2] and the aggregation is stronger, also promoting physical inaccessibility of SOC to the microbial community [3].…”
Section: Reasons For Heterogeneitymentioning
confidence: 99%
“…However, site latitude was positively correlated to differences in full profile C stocks. Whether this is dependent on a lower decomposition rate at higher latitudes due to lower temperatures could be possible but the rates are also determined by interactions of a number of physical and chemical factors influencing the microbial enzymatic activities in soils [59].…”
Section: Reasons For Heterogeneitymentioning
confidence: 99%
“…This assumption is built upon observations from litter and SOC decomposition. Analysis of data from nearly 300 studies of litter decomposition (Zhang et al, 2008), about 500 studies of soil incubation (Schädel et al, 2014;Xu et al, 2016), more than 100 studies of forest succession (Yang et al, 2011), and restoration (Matamala et al, 2008) almost all suggests that the first-order decay function captures macroscopic patterns of land C dynamics. Even so, its biological, chemical, and physical underpinnings need more study .…”
Section: Assumptions Of the C Cycle Models And Validity Of This Analysismentioning
confidence: 99%