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W1840939095 endingPage "290" @default.
W1840939095 startingPage "279" @default.
W1840939095 abstract "Abstract Strategies for mitigating soil organic carbon (SOC) losses in intensively managed agricultural systems typically draw from traditional concepts of soil organic matter formation, and thus emphasize increasing C inputs, especially from slowly decomposing crop residues, and reducing soil disturbance. However these approaches are often ineffective and do not adequately reflect current views of SOC cycling, which stress the important contributions of microbial biomass (MB) inputs to SOC. We examined microbial physiology as an alternate mechanism of SOC accumulation under organic (ORG) compared to conventional (CT) agricultural management practices, where ORG is accumulating C despite fewer total C inputs and greater soil tillage. We hypothesized that microbial communities in ORG have higher growth rates (MGR) and C use efficiencies (CUE) and that this relates to greater MB production and ultimately higher retention of new C inputs. We show that ORG had 50% higher CUE (±8 se) and 56% higher MGR (±22 se) relative to CT (p" @default.
W1840939095 created "2016-06-24" @default.
W1840939095 creator A5002748444 @default.
W1840939095 creator A5022401188 @default.
W1840939095 creator A5063016999 @default.
W1840939095 creator A5077107991 @default.
W1840939095 date "2015-12-01" @default.
W1840939095 modified "2023-10-16" @default.
W1840939095 title "Microbial physiology and necromass regulate agricultural soil carbon accumulation" @default.
W1840939095 cites W1480626457 @default.
W1840939095 cites W1504801939 @default.
W1840939095 cites W1563455964 @default.
W1840939095 cites W1685833191 @default.
W1840939095 cites W1922139594 @default.
W1840939095 cites W1941482455 @default.
W1840939095 cites W1971069132 @default.
W1840939095 cites W1971148363 @default.
W1840939095 cites W1974929430 @default.
W1840939095 cites W1975609029 @default.
W1840939095 cites W1978684995 @default.
W1840939095 cites W1979483786 @default.
W1840939095 cites W1982311706 @default.
W1840939095 cites W1989868736 @default.
W1840939095 cites W1994266231 @default.
W1840939095 cites W1996387110 @default.
W1840939095 cites W2003454095 @default.
W1840939095 cites W2004256739 @default.
W1840939095 cites W2008962657 @default.
W1840939095 cites W2013693635 @default.
W1840939095 cites W2016036630 @default.
W1840939095 cites W2016141187 @default.
W1840939095 cites W2016175628 @default.
W1840939095 cites W2024143738 @default.
W1840939095 cites W2025817770 @default.
W1840939095 cites W2026013077 @default.
W1840939095 cites W2026448604 @default.
W1840939095 cites W2027006302 @default.
W1840939095 cites W2027938175 @default.
W1840939095 cites W2031845323 @default.
W1840939095 cites W2037915660 @default.
W1840939095 cites W2042455314 @default.
W1840939095 cites W2046523632 @default.
W1840939095 cites W2049343147 @default.
W1840939095 cites W2061373271 @default.
W1840939095 cites W2063810972 @default.
W1840939095 cites W2064107275 @default.
W1840939095 cites W2064219231 @default.
W1840939095 cites W2065517929 @default.
W1840939095 cites W2071030867 @default.
W1840939095 cites W2072345849 @default.
W1840939095 cites W2074782014 @default.
W1840939095 cites W2080666601 @default.
W1840939095 cites W2081776673 @default.
W1840939095 cites W2083039584 @default.
W1840939095 cites W2097302305 @default.
W1840939095 cites W2098056814 @default.
W1840939095 cites W2103238085 @default.
W1840939095 cites W2103284759 @default.
W1840939095 cites W2104875849 @default.
W1840939095 cites W2106986958 @default.
W1840939095 cites W2107275175 @default.
W1840939095 cites W2109503707 @default.
W1840939095 cites W2109872613 @default.
W1840939095 cites W2111279304 @default.
W1840939095 cites W2111966523 @default.
W1840939095 cites W2112515372 @default.
W1840939095 cites W2112998801 @default.
W1840939095 cites W2119659142 @default.
W1840939095 cites W2122622888 @default.
W1840939095 cites W2123388186 @default.
W1840939095 cites W2128778929 @default.
W1840939095 cites W2131225467 @default.
W1840939095 cites W2132372795 @default.
W1840939095 cites W2132484323 @default.
W1840939095 cites W2134128368 @default.
W1840939095 cites W2137439019 @default.
W1840939095 cites W2138728925 @default.
W1840939095 cites W2138944089 @default.
W1840939095 cites W2140627805 @default.
W1840939095 cites W2143937091 @default.
W1840939095 cites W2145735028 @default.
W1840939095 cites W2146351313 @default.
W1840939095 cites W2148005607 @default.
W1840939095 cites W2152311269 @default.
W1840939095 cites W2160383672 @default.
W1840939095 cites W2163462941 @default.
W1840939095 cites W2164488392 @default.
W1840939095 cites W2164603413 @default.
W1840939095 cites W2165825511 @default.
W1840939095 cites W2166317760 @default.
W1840939095 cites W2166693883 @default.
W1840939095 cites W2166730883 @default.
W1840939095 cites W2167450434 @default.
W1840939095 cites W2168708206 @default.
W1840939095 cites W2170784233 @default.
W1840939095 cites W2329301263 @default.
W1840939095 doi "https://doi.org/10.1016/j.soilbio.2015.09.005" @default.
W1840939095 hasPublicationYear "2015" @default.