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Rice rhizodeposition promotes the build-up of organic carbon in soil via fungal necromass
Luo Y., Xiao M., Yuan H., Liang C., Zhu Z., Xu J., Kuzyakov Y., Wu J., Ge T., Tang C.
, the pathways through which rice rhizodeposits contribute to soil organic C (SOC) formation are poorly
Air injection in paddy soil reduces N2O and NH3 emissions and regulates the nitrogen cycle
Tang J., Hu Q., Li C., Cao C., Zhang X., Zhang Y., Tan W., Cheng B., Xiong D., Liu T., Kuzyakov Y.
. The reduction in N2O emissions was mainly attributed to the decline in norC gene abundance, while the increased
In vitro tests to evaluate embryotoxicity and irritation of Chinese herbal medicine (Pentaherbs formulation) for atopic dermatitis
Li Lu, Mou Xuan, Xie Hongliang, Zhang Aolin, Li Junwei, Wang Rongyun, Seid André, Tang L.Y., Wang Ling, Leung P.C., Spielmann Horst, Wang C.C., Fan Xiaohui
, Phellodendron chinense C.K.Schneid), was weakly embryotoxic. SIT results showed that cell viability was above 50
Substrate control of sulphur utilisation and microbial stoichiometry in soil: Results of 13C, 15N, 14C, and 35S quad labelling
Ma Q., Kuzyakov Y., Pan W., Tang S., Chadwick D.R., Wen Y., Hill P.W., Macdonald A., Ge T., Si L., Wu L., Jones D.L.
-based fertiliser application combined with continuous S withdrawal during harvest. Here, we applied 13C, 15N, 14C
Substrate control of sulphur utilisation and microbial stoichiometry in soil: Results of 13C, 15N, 14C, and 35S quad labelling
Ma Q., Pan W., Tang S., Wu L., Chadwick D.R., Wen Y., Hill P.W., Jones D.L., Kuzyakov Y., Macdonald A., Ge T., Si L.
-based fertiliser application combined with continuous S withdrawal during harvest. Here, we applied 13C
Ruthenium-catalyzed cascade C-H activation/annulation of: N -alkoxybenzamides: Reaction development and mechanistic insight
Song L., Zhang X., Tang X., Harvey J.N., Van Meervelt L., Van Der Eycken J., Van Der Eycken E.V.
A highly selective ruthenium-catalyzed C-H activation/annulation of alkyne-tethered N
Carbon in Chinese grasslands: meta-analysis and theory of grazing effects
Deng L., Shangguan Z., Bell S.M., Soromotin A.V., Peng C., An S., Wu X., Xu X., Wang K., Li J., Tang Z., Yan W., Zhang F., Li J., Wu J., Kuzyakov Y.
health and carbon (C) stocks of grassland ecosystems. However, the effects of grassland types, grazing
Carbon budget and greenhouse gas balance during the initial years after rice paddy conversion to vegetable cultivation
Wu L., Wu X., Lin S., Wu Y., Tang S., Zhou M., Shaaban M., Zhao J., Hu R., Kuzyakov Y., Wu J.
-use conversion from rice to vegetable cultivation led to substantial C losses (2.6 to 4.5 Mg C ha−1 yr−1
Carbon budget and greenhouse gas balance during the initial years after rice paddy conversion to vegetable cultivation
Wu L., Wu X., Lin S., Wu Y., Tang S., Zhou M., Shaaban M., Zhao J., Hu R., Kuzyakov Y., Wu J.
China. Land-use conversion from rice to vegetable cultivation led to substantial C losses (2.6 to 4.5 Mg
Iron oxides promote physicochemical stabilization of carbon despite enhancing microbial activity in the rice rhizosphere
Sun H., Ma X., Van Zwieten L., Luo Y., Brown R.W., Guggenberger G., Tang S., Kuzyakov Y., Jeewani P.H.
abiotic properties, microbial community and organic carbon (C). The iron (Fe) plaque formation in the rice

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