Differences in soil carbon fractions and microbial communities and their underlying mechanisms between assisted natural regeneration and plantation forests in subtropical China. [PDF]
PLoS OneDing Z, Yang Z, Yang Y.
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Natural grasslands converted to afforested lands and abandoned lands decreasing soil carbon stability and storage, respectively, in the China's Loess Plateau. [PDF]
PLoS OneZhong Y, Li Y, Zhao X.
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Soil carbon in the world's tidal marshes. [PDF]
Nat CommunMaxwell TL +27 more
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Moderate thinning enhances soil carbon-nitrogen cycling and microbial diversity in degraded mixed forests. [PDF]
Front MicrobiolWang Y, Zhang B, Yang X, Xu F.
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Soil carbon, micronutrients and microbiological dynamics under cash crop-based cropping systems in semi-arid National Capital Region of India. [PDF]
Sci RepPreeti +8 more
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Younger carbon dominates global soil carbon efflux
Global Change Biology, 2022AbstractSoil carbon (C) is comprised of a continuum of organic compounds with distinct ages (i.e., the time a C atom has experienced in soil since the C atom entered soil). The contribution of different age groups to soil C efflux is critical for understanding soil C stability and persistence, but is poorly understood due to the complexity of soil C ...
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Cataloguing Soil Carbon Stocks
Science, 2010In their Report (“Terrestrial gross carbon dioxide uptake: Global distribution and covariation with climate,” 13 August, p. [834][1]), C. Beer et al. joined others ([ 1 ][2], [ 2 ][3]) in estimating global carbon fluxes and their relationship to climate.
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Unexpected control of soil carbon turnover by soil carbon concentration
Environmental Chemistry Letters, 2013Soils are a key component of the terrestrial carbon cycle as they contain the majority of terrestrial carbon. Soil microorganisms mainly control the accumulation and loss of this carbon. However, traditional concepts of soil carbon stabilisation failed so far to account for environmental and energetic constraints of microorganisms. Here, we demonstrate
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