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W3107784744 endingPage "4772" @default.
W3107784744 startingPage "4755" @default.
W3107784744 abstract "Abstract. Determining controls on the temperature sensitivity of heterotrophic soil respiration remains critical to incorporating soil–climate feedbacks into climate models. Most information on soil respiratory responses to temperature comes from laboratory incubations of isolated soils and typically subsamples of individual horizons. Inconsistencies between field and laboratory results may be explained by microbial priming supported by cross-horizon exchange of labile C or N. Such exchange is feasible in intact soil profiles but is absent when soils are isolated from surrounding depths. Here we assess the role of soil horizon connectivity, by which we mean the degree to which horizons remain layered and associated with each other as they are in situ, on microbial C and N substrate use and its relationship to the temperature sensitivity of respiration. We accomplished this by exploring changes in C : N, soil organic matter composition (via C : N, amino acid composition and concentration, and nuclear magnetic resonance spectroscopy), and the δ13C of respiratory CO2 during incubations of organic horizons collected across boreal forests in different climate regions where soil C and N compositions differ. The experiments consisted of two treatments: soil incubated (1) with each organic horizon separately and (2) as a whole organic profile, permitting cross-horizon exchange of substrates during the incubation. The soils were incubated at 5 and 15 ∘C for over 430 d. Enhanced microbial use of labile C-rich, but not N-rich, substrates were responsible for enhanced, whole-horizon respiratory responses to temperature relative to individual soil horizons. This impact of a labile C priming mechanism was most emergent in soils from the warmer region, consistent with these soils' lower C bioreactivity relative to soils from the colder region. Specifically, cross-horizon exchange within whole soil profiles prompted increases in mineralization of carbohydrates and more 13C-enriched substrates and increased soil respiratory responses to warming relative to soil horizons incubated in isolation. These findings highlight that soil horizon connectivity can impact microbial substrate use in ways that affect how soil effluxes of CO2 are controlled by temperature. The degree to which this mechanism exerts itself in other soils remains unknown, but these results highlight the importance of understanding mechanisms that operate in intact soil profiles – only rarely studied – in regulating a key soil–climate feedback." @default.
W3107784744 created "2020-12-07" @default.
W3107784744 creator A5001142856 @default.
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W3107784744 creator A5040492692 @default.
W3107784744 creator A5074707367 @default.
W3107784744 creator A5084146338 @default.
W3107784744 date "2021-08-20" @default.
W3107784744 modified "2023-10-09" @default.
W3107784744 title "Soil profile connectivity can impact microbial substrate use, affecting how soil CO<sub>2</sub> effluxes are controlled by temperature" @default.
W3107784744 cites W1789726098 @default.
W3107784744 cites W1942372598 @default.
W3107784744 cites W1964074180 @default.
W3107784744 cites W1972661203 @default.
W3107784744 cites W1983728617 @default.
W3107784744 cites W1989987546 @default.
W3107784744 cites W1992953206 @default.
W3107784744 cites W1993998850 @default.
W3107784744 cites W1994029344 @default.
W3107784744 cites W1994228237 @default.
W3107784744 cites W1996387110 @default.
W3107784744 cites W2005742515 @default.
W3107784744 cites W2012776827 @default.
W3107784744 cites W2013680469 @default.
W3107784744 cites W2020136368 @default.
W3107784744 cites W2020776517 @default.
W3107784744 cites W2029144029 @default.
W3107784744 cites W2030774683 @default.
W3107784744 cites W2035017164 @default.
W3107784744 cites W2044788058 @default.
W3107784744 cites W2046523632 @default.
W3107784744 cites W2046930176 @default.
W3107784744 cites W2054949243 @default.
W3107784744 cites W2055100360 @default.
W3107784744 cites W2058855361 @default.
W3107784744 cites W2062687155 @default.
W3107784744 cites W2068249807 @default.
W3107784744 cites W2070608792 @default.
W3107784744 cites W2078179008 @default.
W3107784744 cites W2080334952 @default.
W3107784744 cites W2082078606 @default.
W3107784744 cites W2082367875 @default.
W3107784744 cites W2083857556 @default.
W3107784744 cites W2087474788 @default.
W3107784744 cites W2088910431 @default.
W3107784744 cites W2089193077 @default.
W3107784744 cites W2089254229 @default.
W3107784744 cites W2101762511 @default.
W3107784744 cites W2103157423 @default.
W3107784744 cites W2106822159 @default.
W3107784744 cites W2112576747 @default.
W3107784744 cites W2113112355 @default.
W3107784744 cites W2120718111 @default.
W3107784744 cites W2120925180 @default.
W3107784744 cites W2124485615 @default.
W3107784744 cites W2132465554 @default.
W3107784744 cites W2133285250 @default.
W3107784744 cites W2134078304 @default.
W3107784744 cites W2138540827 @default.
W3107784744 cites W2141181211 @default.
W3107784744 cites W2147130059 @default.
W3107784744 cites W2151305472 @default.
W3107784744 cites W2158593790 @default.
W3107784744 cites W2161994403 @default.
W3107784744 cites W2162159276 @default.
W3107784744 cites W2162775056 @default.
W3107784744 cites W2162844667 @default.
W3107784744 cites W2165152167 @default.
W3107784744 cites W2165621163 @default.
W3107784744 cites W2168509438 @default.
W3107784744 cites W2222737469 @default.
W3107784744 cites W2275998967 @default.
W3107784744 cites W2286817011 @default.
W3107784744 cites W2342367986 @default.
W3107784744 cites W2346627556 @default.
W3107784744 cites W2508177270 @default.
W3107784744 cites W2554024477 @default.
W3107784744 cites W2557800876 @default.
W3107784744 cites W2584122748 @default.
W3107784744 cites W2588836187 @default.
W3107784744 cites W2593911960 @default.
W3107784744 cites W2594350191 @default.
W3107784744 cites W2751267659 @default.
W3107784744 cites W2809157677 @default.
W3107784744 cites W2916821642 @default.
W3107784744 cites W2945854053 @default.
W3107784744 cites W3006031073 @default.
W3107784744 cites W3007465603 @default.
W3107784744 cites W4248930187 @default.
W3107784744 doi "https://doi.org/10.5194/bg-18-4755-2021" @default.
W3107784744 hasPublicationYear "2021" @default.
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