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2020年
[54] Li, T., Ge, L. M., Huang, J. J., Yuan, X., Peng, C. H., Wang, S. Z., Bu, Z. J., Zhu, Q. A., Wang, Z. C., Liu, W. G., Wang, M.* 2020. Contrasting responses of soil exoenzymatic interactions and the dissociated carbon transformation to short- and long-term drainage in a minerotrophic peatland. Geoderma, 377:114585.
[53] Du, Y. Y., Luo, B., Han, W. J., Duan, Y. Y., Yu, C. C., Wang, M., Ge, Y., Chang, J.* 2020. Increasing plant diversity offsets the influence of coarse sand on ecosystem services in microcosms of constructed wetlands. Environmental Science and Pollution Research, https://doi.org/10.1007/s11356-020-09592-5
[52] Zhang, J. J., Peng, C. H., Xue, W., Yang, B., Yang, Z. A., Niu, S. L., Zhu, Q. A., Wang, M.* 2020. Dynamics of soil water extractable organic carbon and inorganic nitrogen and their environmental controls in mountain forest and meadow ecosystems in China. Catena, 187:104338.
[51] Song, H.X., Huang, J. J., Ge, L. M., Peng, C. H., Zhao, P. X.*, Guo, X. Y., Li, T., Shen, X. J., Zhu, Q. A., Liu, W. G., Wei, H., Wang, M.** 2020. Interspecific difference in N:P stoichiometric homeostasis drives nutrient release and soil microbial community composition during decomposition. Plant and Soil, 452:29-42.
[50] Li, P., Zhu, Q. A., Peng, C. H.*, Zhang, J., Wang, M., Zhang, J. J., Ding, J. H., Zhou, X. L. 2020. Change in autumn vegetation phenology and the climate controls from 1982 to 2012 on the Qinghai-Tibet Plateau. Frontiers in Plant Sciences, https://doi.org/10.3389/fpls.2019.01677.
[49] Zhang, J., Ding, J. H., Zhang, J., Yuan, M. S., Li, P., Xiao, Z. Y., Peng, C. H., Chen, H., Wang, M., Zhu, Q. A.* 2020. Effects of increasing aerosol optical depth on the gross primary productivity in China during 2000-2014. Ecological Indicators, 108:105761.
2019年
[48] 杨斌, 彭长辉*, 张贤, 刘伟国, 段敏, 王猛. 2019. 干旱胁迫对刺槐幼苗叶片氮含量、光合速率及非结构性碳水化合物的影响. 应用于环境生物学报, 25(6):1261-1269.
[47] Li, T., Bu, Z. J., Liu, W. Y., Zhang, M. Y., Peng, C. H.*, Zhu, Q. A., Shi, S. W., Wang, M.** 2019. Weakening of the ‘enzymatic latch’ mechanism following long-term fertilization in a minerotrophic peatland. Soil Biology and Biochemistry, 136:107258.
[46] Wang, M.*#, Tian, J. Q.#, Bu, Z. J., Lamit, J. L., Chen, H., Zhu, Q. A., Peng, C. H. 2019. Structural and functional differentiation of the microbial community in the surface and subsurface peat of two minerotrophic fens in China. Plant and Soil, 437:21-40.
[45] Smith, N. G.*, Keenan, T. F., Prentice, I. C., Wang, H., Wright, J., Niinemets, Ü., Grous, K Y., Domingues, T. F., Guerrieri, R., Ishida, F. Y., Kattge, J., Kruger, E L., Maire, V., Rogers, A., Serbin, S. P., Tarvainen, L., Togashi, H. F., Townsend, P. A., Wang, M., Weerasinghe, L. K., Zhou, S. X. 2019. Global photosynthetic capacity is optimized to the environment. Ecology Letters, 22:506-517.
[44] Shi, S. W., Yang, M. X., Hou, Y., Peng, C. H.*, Wu, H. B., Zhu, Q. A., Liang, Q., Xie, J. F., Wang, M. Simulation of dissolved organic carbon concentrations and fluxes in Chinese monsoon forest ecosystems using a modified TRIPLEX-DOC model. Science of the Total Environment, 697:134054.
[43] Guo, Y. R., Peng, C. H.*, Zhu, Q. A., Wang, M., Wang, H., Peng, S. S., He, H. L. 2019. Modelling the impacts of climate and land use changes on soil water erosion: Model applications, limitations and future challenges. Journal of Environmental Management, 250:109403.
[42] Pan, K. X., Lu, Y. J., He, S. N., Yang, G. F., Chen, Y., Fan, X., Ren, Y., Wang, M., Zhu, K. D., Shen, Q., Jiang, Y. P., Shi, Y., Meng, P. P., Tang, Y. L., Chang, J., Ge, Y.* 2019. Urban green spaces as potential habitats for introducing a native endangered plant, Calycanthus chinensis. Urban Forestry & Urban Greening, 46:126444.
[41] Zhang, K. R., Zhu, Q. A.*, Liu, J. X., Wang, M., Zhou, X. L., Li, M. X., Wang, K. F., Ding, J. H., Peng, C. H.* 2019. Spatial and temporal variations of N2O emissions from global forest and grassland ecosystems. 266-267:129-139.
[40] Wang, K. F., Peng, C. H.*, Zhu, Q. A., Wang, M., Wang, G. S., Zhou, X. L., Yang, Y. Z., Ding, J. H., Wei, H. 2019. Changes in soil organic carbon and microbial carbon storage projected during the 21st century using TRIPLEX-MICROBE. Ecological Indicators, 98:80-87.
2018年
[39] Yang, B., Peng, C. H.*, Harrison, S. P., Wei, H., Wang, H., Zhu, Q. A., Wang, M. 2018. Allocation mechanisms of non-structural carbohydrates of Robinia pseudoacacia L. seedlings in response to drought and waterlogging. Forests, 9:754.
[38] Moore, T. R.*, Large, D., Talbot, J., Wang, M., Riley, J. L. 2018. The stoichiometry of carbon, hydrogen and oxygen in peat. Journal of Geophysical Research: Biogeosciences, 123:3101-3110.
[37] Feng, L., Sundberg, S., Ooi, M., Wu, Y. H., Wang, M., Bu, Z. J.* Oxygen-deficiency and allelochemicals affect Sphagnum spore persistence in peatlands. Plant and Soil, doi: 10.1007/s11104-018-3809-0.
[36] Wei, H., Peng, C. H.*, Yang, B., Song, H. X., Li, Q., Jiang, L., Wei, G., Wang, K. F., Wang, H., Liu, S. R., Liu, X. J., Chen, D. X., Li, Y. D., Wang, M.* 2018. Contrasting soil bacterial community, diversity, and function in two forests in China. Frontiers in Microbiology, 9:1693.
[35] Li, P., Peng, C. H.*, Wang, M., Luo, Y. P., Li, M. X., Zhang, K. R., Zhang, D. L., Zhu, Q. A.** 2018. Dynamics of vegetation autumn phenology and its response to multiple environmental factors from 1982 to 2012 on Qinghai-Tibetan Plateau in China. Science of the Total Environment, 637-638:855-864.
[34] Wei, H., Peng, C. H.*, Liu, S. R., Liu, X. J., Li, P., Song, H. X., Yuan, M. S., Wang, M. 2018. Variation in soil methane fluxes and comparison between two forests in China. Forests, 9:204.
[33] Zhang, J. J., Peng, C. H., Xue, W., Yang, Z. A., Yang, B., Li, P., Zhu, Q. A., Wang, M.* 2018. Soil CH4 and CO2 dynamics and nitrogen transformations with incubation in mountain forest and meadow ecosystems. Catena, 163:24-32.
[32] Wang, M.*, Moore, T. R., Talbot, J. 2018. Drainage and fertilization effects on nutrient availability in an ombrotrophic peatland. Science of the Total Environment, 621:1255-1263.
2017年
[31] Talbot, J.*, Moore, T. R., Wang, M., Riley, J. L. 2017. Distribution of lead and mercury in Ontario peatlands. Environmental Pollution, 231:890-898.
[30] Wang, H.*, Harrison, S. P., Prentice, I. C., Yang, Y. Z., Bai, F., Togashi, H. F., Wang, M., Zhou, S. X., Ni, J. The China Plant Trait Database: towards a comprehensive regional compilation of functional traits for land plants. Ecology, 99:500.
[29] Zhu, Q. A.*, Peng, C. H.*, Ciais, P., Jian, J., Liu, J. X., Bousquet, P., Li, S. Q., Chang, J., Fang, X. Q., Zhou, X. L., Chen, H., Liu, S. R., Lin, G. H., Gong, P., Wang, M., Wang, H., Xiang, W. H., Chen, J. Inter-annual variation in methane emissions from tropical wetlands triggered by repeated El Niño Southern Oscillation. Global Change Biology, 23:4706-4716.
[28] Li, M. X., Peng, C. H., Wang, M., Yang, Y. Z., Zhang, K. R., Li, P., Yang, Y., Ni, J., Zhu, Q. A.* Spatial pChina: Factors dominate plant traits. Journal of Geophysical Research: Biogeosciences, 122:1564-1575.
[27] Du, M. X., Peng, C. H.*, Wang, X. G., Chen, H., Wang, M., Zhu, Q. A.** 2017. Quantification of methane emissions from municipal solid waste landfills in China during the past decade. Renewable & Sustainable Energy Reviews, 78:272-279.
[26] Li, M. X., Peng, C. H.*, Wang, M., Xue, W., Zhang, K. R., Wang, K. F., Shi, G. H., Zhu, Q. A.** 2017. The carbon flux of global rivers: A re-evaluation of amount and spatial patterns. Ecological Indicators, 80:40-51.
[25] Li, P., Peng, C. H.*, Wang, M., Li, W. Z., Zhao, P. X., Wang, K. F., Yang, Y. Z., Zhu, Q. A.* 2017. Quantification of the response of global terrestrial net primary production to multifactor global change. Ecological Indicators, 76:245-255.
[24] Wang, K. F., Peng, C. H.*, Zhu, Q. A., Zhou, X. L., Wang, M., Zhang, K. R., Wang, G. S. 2017. Modeling global soil carbon and soil microbial carbon by integrating microbial processes into the ecosystem process model TRIPLEX-GHG. Journal of Advances in Modelling Earth Systems, 9:2368-2384.
[23] Zhang, K. R., Peng, C. H.*, Wang, M., Zhou, X. L., Li, M. X., Wang, K. F., Ding, J. H., Zhu, Q. A.** 2017. Process-based TRIPLEX-GHG model for simulating N2O emissions from global forests and grasslands: Model development and evaluation. Journal of Advances in Modelling Earth Systems, 9:2079-2102.
2016年
[22] Wang, M.*, Larmola, T., Murphy, M. T., Moore, T. R., Bubier, J. T. 2016. Stoichiometric response of shrubs and mosses to long-term nutrient (N, P and K) addition in an ombrotrophic peatland. Plant and Soil, 400:403-416.
[21] Zhang, J. J., Peng, C H.*, Zhu, Q. A., Xue, W., Shen, Y., Yang, Y. Z., Shi, G. H., Shi, S. W., Wang, M.** 2016. Temperature sensitivity of soil carbon dioxide and nitrous oxide emissions in mountain forest and meadow ecosystems in China. Atmospheric Environment, 142:340-350.
[20] Zhu, Q. A.*, Peng, C. H.*, Liu, J. X., Jian, J., Fang, X. Q., Chen, H., Niu, Z. G., Gong, P., Lin, G. H., Wang, M., Wang, H., Yang, Y., Chang, J., Ge, Y., Xiang, W. H., Deng, X. W., He, J. S. 2016. Climate-driven increase of natural wetland methane emissions offset by human-induced wetland reduction in China over the past three decades. Scientific Reports, 6:38020.
[19] Fan, M. Y., Pan, K. X., Han. W. J., Lu, Y. J., Shen, Q., Wang, M., Ren, Y., Qu, Z. L., Chang, J., Ge, Y.* 2016. A strategy for introducing an endangered plant Mosla hangchowensis to urban area based on nitrogen preference. Acta Physiologiae Plantarum, 38:265.
[18] Shi, G. H., Peng, C. H.*, Wang, M., Shi, S. W., Yang, Y. Z., Chu, J. Y., Zhang, J. J., Lin, G. H., Shen, Y., Zhu, Q. A.** 2016. The spatial and temporal distribution of dissolved organic carbon exported from three Chinese rivers to the China Sea. PLoS ONE, 11:e0165039.
[17] Zhao, Z. Y., Chang, J., Han, W. J., Wang, M., Ma, D. P., Du, Y. Y., Qu, Z. L., Chang, S. X., Ge, Y.* 2016. Effects of plant diversity and sand particle size on methane emission and nitrogen removal in microcosms of constructed wetlands. Ecological Engineering, 95:390-398.
[16] Shi, S. W., Peng, C. H.*, Wang, M., Zhu, Q. A., Yang, G., Yang, Y. Z., Xi, T. T., Zhang, T. L. 2016. A global meta-analysis of changes in soil carbon, nitrogen, phosphorus and sulfur, and stoichiometric shifts after forestation. Plant and Soil, 407:323-340.
[15] Yang, Y. Z., Zhu, Q. A.*, Peng, C. H., Wang, H., Xue, W., Lin, G. H., Wen, Z. M., Chang, J., Wang, M., Liu, G. B., Li, S. Q. 2016. A novel approach for modelling vegetation distributions and analysing vegetation sensitivity through trait-climate relationships in China. Scientific Reports, 6:24110.
[14] Song, X. Z.*, Gu, H. H., Wang, M., Zhou, G. M., Li, Q. 2016. Management practices regulate the response of Moso bamboo foliar stoichiometry to nitrogen deposition. Scientific Reports, 6:24107.
2015年
[13] Wang, M., Moore, T. R.*, Talbot, J., Riley, J. L. 2015. The stoichiometry of carbon and nutrients in peat formation. Global Biogeochemical Cycles, 29:113-121.
[12] Liu, J. G., Chen, H., Zhu, Q. A., Shen, Y., Wang, X., Wang, M., Peng, C. H. 2015. A novel pathway of direct methane production and emission by eukaryotes including plants, animals and fungi: An overview. Atmospheric Environment, 115:26-35.
2014年
[11] Wang, M.*, Moore, T. R., Talbot, J., Richard P. J. H. 2014. The cascade of C:N:P stoichiometry in an ombrotrophic peatland: from plants to peat. Environmental Research Letters, 9:024003.
[10] Wang, M.*, Moore, T. R. 2014. Carbon, nitrogen, phosphorus and potassium stoichiometry in an ombrotrophic peatland reflects plant functional type. Ecosystems, 17:673-684.
[9] Wang, M.*, Murphy, T. M., Moore, T. R. 2014. Nutrient resorption of two evergreen shrubs in response to long-term fertilization in a bog. Oecologia, 174:365-377.
[8] Lu, Y. J., Wang, M., Ge, Y., Fu, C. X., Chang, J.* 2014. Response of photosynthetic and morphological characteristic of Mosla chinensis and congenerous weed M. scabra to soil water content. Russian Journal of Ecology, 45:367-374.
2013年
[7] 曾竞, 卜兆君*, 王猛, 马进泽, 赵红艳, 李鸿凯, 王升忠. 2013. 氮沉降对泥炭地影响的研究进展. 生态学杂志, 32(2):473-481.
2011年
[6] Chu, Z. Y., Ge, Y., Chang, J.*, Wang, M., Jiang, H., He, J. S., Peng, C. H. 2011. Leaf respiration/photosynthesis relationship and variation: an investigation of 39 woody and herbaceous species in east subtropical China. Trees, 25:301-310.
2010年
[5] Wang, M., Chang, J., Ge, Y.*, Chang, S. X.*, Huang, C. C., Wang, S. Y. 2010. Ecophysiological differentiation of two Mosla species in response to nitrogen and water levels. Communications in Soil Science and Plant Analysis, 41:2699-2712.
[4] Chang, J., Wang, M., Guan, B. H., Gu, B. J., Jiang, D. A., Liu, Z., Liao, J. X., Ge, Y.* 2010. Responses of a widespread weed and an endangered congeneric plant to potassium. Communications in Soil Science and Plant Analysis, 41:571-583.
[3] Cao, Q. J., Wang, M., Ge, Y., Chang, J.*, Chang, S. X., Zhang, J. M. 2010. Growth responses of two Mosla species to soil nitrogen and water supply. Botanical Studies, 51:451-456.
2009年
[2] Wang, M., Gu, B. J., Ge, Y., Liu, Z., Jiang, D. A., Chang, S. X., Chang, J.* 2009. Different responses of two Mosla species to potassium limitation in relation to acid rain deposition. Journal of Zhejiang University-Science B, 10:563-571.
[1] 张建民, 王猛, 葛晓萍, 吴建之, 葛滢*, 李世鹏, 常杰. 2009. ICP-AES法与传统FAAS法测定土壤速效钾和钠的数据可转
性研究. 光谱学与光谱分析, 29(5):1405-1408.
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