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        <dc:title>Responses of N2O emissions to straw addition under different tillage soils: A 15N labelling study</dc:title>
        <dc:creator>Liu, X</dc:creator>
        <dc:creator>Li, Q</dc:creator>
        <dc:creator>Liu, M</dc:creator>
        <dc:creator>Jia, S</dc:creator>
        <dc:creator>Hossain, M E</dc:creator>
        <dc:creator>Li, Y</dc:creator>
        <dc:creator>Liu, E</dc:creator>
        <dc:creator>Dong, W</dc:creator>
        <dc:creator>Rachit, S</dc:creator>
        <dc:creator>Gopalakrishnan, S</dc:creator>
        <dc:subject>Soil</dc:subject>
        <dc:description>Nitrous oxide (N2O) emissions contribute to global climate change and are regulated by the intensities of N&#13;
mineralization, nitrification and denitrification processes. These processes depend on soil management, e.g.,&#13;
tillage and straw addition. Microbial mechanisms underlying the effects of straw addition on N2O emissions were&#13;
investigated by 56-day incubation of soil from a long-term (27-year) no-tillage (NoTill) and conventional tillage&#13;
(ConvTill) field experiment. The abundance of N functional genes (amoA, amoB, nirK, nirS and nosZ) in no-tillage&#13;
and conventional tillage soils was analysed based on straw addition. The application of 15N-labelled straw&#13;
allowed us to trace N2O sources. Conventional tillage with 15N-labelled straw (ConvTill+Straw) reduced N2O&#13;
emissions derived from soil by 42 %, whereas no-tillage with 15N-labelled straw (NoTill+Straw) reduced N2O&#13;
emissions by only 8 % compared with soil without straw addition. The N2O emissions derived from straw were&#13;
higher under NoTill+Straw than under ConvTill+Straw, whereas they accounted for only ~4 % of the total N2O&#13;
emissions under both conditions. The nirK and nirS gene abundances were higher than those in soil without straw&#13;
addition. Compared to that under ConvTill, the nosZ gene abundance was higher and the N2O emissions were 40&#13;
% lower under ConvTill+Straw, indicating its strong capacity to reduce N2O to N2. Pathway analysis showed that&#13;
gene (amoA and nirK) abundance combined with soil properties (particulate organic matter nitrogen (POMN) and&#13;
NO3</dc:description>
        <dc:publisher>Elsevier</dc:publisher>
        <dc:date>2022-11-22</dc:date>
        <dc:type>Article</dc:type>
        <dc:type>PeerReviewed</dc:type>
        <dc:identifier>  Liu, X and Li, Q and Liu, M and Jia, S and Hossain, M E and Li, Y and Liu, E and Dong, W and Rachit, S and Gopalakrishnan, S  (2022) Responses of N2O emissions to straw addition under different tillage soils: A 15N labelling study.  Applied Soil Ecology (TSI), 183 (104744).  pp. 1-9.  ISSN 0929-1393     </dc:identifier>
        <dc:relation>https://doi.org/10.1016/j.apsoil.2022.104744</dc:relation></oai_dc:dc>
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