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[1]?Zhou, M.H.*,?Zhu, B., Wang, S.J., Zhu, X.Y., Vereecken, H., Bruggemann, N. (2017) Stimulation of N2O emission by manure application to agricultural soils may largely offset carbon benefits: a global meta-analysis. Global Change Biology?23, 4068-4083.

[2]??Zhou, M.H.*, Zhu, B., Wang, X.G., Wang, Y.Q. (2017) Long-term field measurements of annual methane and nitrous oxide emissions from a Chinese subtropical wheat-rice rotation system. Soil Biology & Biochemistry?115, 21-34.

[3]?Zhou, M.H.*, Butterbach-Bahl, K., Vereecken, H., Bruggemann, N. (2017) A meta-analysis of soil salinization effects on nitrogen pools, cycles and fluxes in coastal ecosystems. Global Change Biology?23, 1338-1352.

[4]?Zhou, M.H.*, Wang, X.G., Ke, Y., Zhu, B. (2019) Effects of afforestation on soil nitrous oxide emissions in a subtropical montane agricultural landscape: A 3-year field experiment. Agricultural and Forest Meteorology?266, 221-230.

[5]?Zhou, M.H.*, Wang, X.G., Wang, Y.Q., Zhu, B. (2018) A three-year experiment of annual methane and nitrous oxide emissions from the subtropical permanently flooded rice paddy fields of China: Emission factor, temperature sensitivity and fertilizer nitrogen effect.?Agricultural and Forest Meteorology?250, 299-307.

[6]?Zhou, M.H.*, Wang, X.G., Ren, X., Zhu, B. (2019) Afforestation and deforestation enhanced soil CH4 uptake in a subtropical agricultural landscape: Evidence from multi-year and multi-site field experiments. Science of the Total Environment 662, 313-323.

[7]?Zhou, M.H., Zhu, B., Bruggemann, N., Dannenmann, M., Wang, Y.Q., Butterbach-Bahl, K. (2016) Sustaining crop productivity while reducing environmental nitrogen losses in the subtropical wheat-maize cropping systems: A comprehensive case study of nitrogen cycling and balance. Agriculture Ecosystems & Environment?231, 1-14.

[8]?Zhou, M.H., Zhu, B., Bruggemann, N., Wang, X.G., Zheng, X.H., Butterbach-Bahl, K. (2015) Nitrous oxide and methane emissions from a subtropical rice-rapeseed rotation system in China: A 3-year field case study. Agriculture Ecosystems & Environment?212, 297-309.

[9]?Zhou, M.H., Brandt, P., Pelster, D., Rufino, M.C., Robinson, T., Butterbach-Bahl, K. (2014) Regional nitrogen budget of the Lake Victoria Basin, East Africa: syntheses, uncertainties and perspectives. Environmental Research Letters?9.

[10]?Zhou, M.H.,?Butterbach-Bahl, K. (2014) Assessment of nitrate leaching loss on a yield-scaled basis from maize and wheat cropping systems. Plant and Soil?374, 977-991.

[11]?Zhou, M.H., Zhu, B., Butterbach-Bahl, K., Wang, X.G., Zheng, X.H. (2014) Nitrous oxide emissions during the non-rice growing seasons of two subtropical rice-based rotation systems in southwest China. Plant and Soil?383, 401-414.

[12]?Zhou, M.H., Zhu, B., Butterbach-Bahl, K., Zheng, X.H., Wang, T., Wang, Y.Q. (2013) Nitrous oxide emissions and nitrate leaching from a rain-fed wheat-maize rotation in the Sichuan Basin, China. Plant and Soil?362, 149-159.

[13]?Zhou, M.H.,?Zhu, B., Butterbach-Bahl, K., Wang, T., Bergmann, J., Bruggemann, N., Wang, Z.H., Li, T.K., Kuang, F.H. (2012) Nitrate leaching, direct and indirect nitrous oxide fluxes from sloping cropland in the purple soil area, southwestern China. Environmental Pollution?162, 361-368.

[14]?Zhu, YH., Li, ZY, Zhao, D., Zhang, BW, Zhu, B., Yao, ZS, Ralf, K., Butterbach-Bahl, K., Zhou, MH*. (2025) Effects of conservation agriculture on soil N₂O emissions and crop yield in global cereal cropping systems. Global Change Biology, 31, e70048. ??

[15]?Wang, XL, Zhou, MH*; Zhu, B., Zhang, JB, Mueller, C., Ralf, K., Butterbach-Bahl, K. (2025) Contrasting effects of crop straw and green manure amendments on soil gross N transformations in a soil-maize system: a short-term 15N incubation case study. Plant and Soil?https://doi.org/10.1007/s11104-024-07149-w

[16]?Xu, P., Jiang, MD., Khan, I., Zhou, MH*, Shaaban, M., Hu, RG (2024) Contrasting regulating effects of soil available nitrogen, carbon, and critical functional genes on soil N2O emissions between two rice-based rotations. Plant and Soil, 507, 299-316.

[17]?Wang, XL, Zhou, MH*; Zhu, B; Bruüggemann, N, Zhang, W , Butterbach-Bahl, K. (2024) Land use types affect soil microbial NO₃^-?immobilization through changed fungal and bacterial contribution in alkaline soils of a subtropical montane agricultural landscape. Biology and Fertility of Soils?60, 237-252

[18]?Zhang, B.W., Zhou, MH*, Zhu, B., Pfuelb, L., Burkart, S., Liu, H.B., Butterbach-Bahl, K., Well, R. (2023) Threshold-like effect of soil NO3- concentrations on denitrification product N2O/(N2O+N2) ratio is mediated by soil pH. Soil Biology & Biochemistry?187, 109213.

[19]?Harerimana, B., Zhou, MH*, Zhu, B., Xu, P. (2023) Regional estimates of nitrogen budgets for agricultural systems in the East African Community over the last five decades. Agronomy for Sustainable Development?43, 1396.

[20]?Zheng, J., Zhou, MH*, Zhu, B., Fan, J.L., Lin, H.Y., Ren, B., Zhang, F.C. (2023) Drip fertigation sustains crop productivity while mitigating reactive nitrogen losses in Chinese agricultural systems: evidence from a meta-analysis. Science of The Total Environment?886, 163804.

[21]?Zhang, B.W., Zhou, MH*, Zhu, B., Xiao, Q.Y., Zheng, X.H., Zhang, J.B., Muller, C., Butterbach-Bahl, K. (2022) Soil clay minerals: An overlooked mediator of gross N transformations in Regosolic soils of subtropical montane landscapes. Soil Biology & Biochemistry?168.

[22]?Gu, F., Zhang, X.B., Ren, B., Zhou, MH*?(2022) A new approach for dating recent silting soils of debris flow deposits from the changes of Pb-210(ex) concentration in surface layers. Catena?217.

[23]??Lin, H.Y., Zhou, MH*, Zeng, F.R., Xu, P., Ma, S.L., Zhang, B.W., Li, Z.Y., Wang, Y.Q., Zhu, B. (2022) How do soil organic carbon pool, stock and their stability respond to crop residue incorporation in subtropical calcareous agricultural soils? Agriculture Ecosystems & Environment?332.

[24]?Jiang, N., Bah, H., Zhou, MH*, Xu, P., Zhang, B.W., Zhu, B. (2022) Effects of straw and biochar amendment on hydrological fluxes of dissolved organic carbon in a subtropical montane agricultural landscape. Environmental Pollution?296.

[25]?Shaaban, M., Khalid, M.S., Hu, R.G., Zhou, MH*?(2022) Effects of water regimes on soil N2O, CH4 and CO2 emissions following addition of dicyandiamide and N fertilizer. Environmental Research?212.

[26]?Song, L., Kuang, F.H., Zhou, MH*, Zhu, B., Skiba, U. (2022) Bulk phosphorous deposition at four typical land use sites in Southwest China. Chemosphere?288.

[27]?Zhang, B.W., Zhou, MH*, Zhu, B., Xiao, Q.Y., Wang, T., Tang, J.L., Yao, Z.S., Kiese, R., Butterbach-Bahl, K., Bruggemann, N. (2021) Soil type affects not only magnitude but also thermal sensitivity of N2O emissions in subtropical mountain area.?Science of the Total Environment?797.

[28]?Chen, P., Zhou, MH*, Wang, S.J., Luo, W.J., Peng, T., Zhu, B., Wang, T. (2020) Effects of afforestation on soil CH4 and N2O fluxes in a subtropical karst landscape. Science of the Total Environment 705.

[29]?Hu, B., Zhou, MH*, Dannenmann, M., Saiz, G., Simon, J., Bilela, S., Liu, X.P., Hou, L., Chen, H., Zhang, S.X., Butterbach-Bahl, K., Rennenberg, H. (2017) Comparison of nitrogen nutrition and soil carbon status of afforested stands established in degraded soil of the Loess Plateau, China. Forest Ecology and Management 389, 46-58.

[30]?Wang, X.G., Zhou, MH*, Li, T., Ke, Y., Zhu, B. (2017) Land use change effects on ecosystemcarbon budget in the Sichuan Basin of Southwest China: Conversion of cropland to forest ecosystem. Science of the Total Environment?609, 556-562