73882必赢(China)官方网站

 

职       称:教授

研究方向:湿地生态学;泥炭地生物地球化学

办公电话:0431-85098982

办公地点:地理科学学院404室

电子邮件:wangm581@nenu.edu.cn

   个人简介

王猛,山东青岛人,1983年4月生,教授,博士生导师。入选吉林省拔尖创新人才、长白山特聘青年拔尖人才。

国家环境保护湿地生态与植被恢复重点实验室副主任,长白山地理过程与生态安全教育部重点实验室主任助理。国际泥炭地学会理事,中国生态学学会湿地专业委员会副秘书长,中国环境科学学会湿地环境生态保育与功能开发专业委员会副秘书长,国际湿地科学家学会(SWS)中国分会副秘书长,吉林省泥炭地学会副理事长,国际泥炭地学会中国国家委员会秘书长,中国腐植酸工业协会泥炭分会副秘书长。Frontiers in Microbiology副主编(Associate Editor)、《湿地科学》编委。

主要研究泥炭地植被与土壤的相互关系,以及全球变化背景下,泥炭地生态系统的生物地球化学循环和化学计量学特征。在Soil Biology and Biochemistry、Global Biogeochemical Cycles、Geoderma、Plant and Soil、Ecosystems、Oecologia等期刊上发表SCI论文70余篇。为Global Change Biology、New Phytologist、Ecology、Environment International、Biogeochemistry等期刊的审稿人。

英文科研主页:https://www.researchgate.net/profile/Meng_Wang42

博士生招生专业:湿地科学

硕士生招生专业:湿地科学、自然地理学

   教育经历

2009/09~2014/10,加拿大麦吉尔大学地理系,自然地理学

2006/09~2009/07,浙江大学生命科学学院,生态学

2002/09~2006/07,青岛科技大学化工学院,生物工程

   工作经历

2019/07,加拿大麦吉尔大学地理系,访问教授

2018/10~今,东北师范大学地理科学学院,教授

2014/11~2018/09,西北农林科技大学,副教授

   指导(含共同指导)研究生名单

博士生:

张俊俊(2018届)

魏华(2018届)

杨斌(2019届)

郭欣怡(2021届)

李通(2021届)

索语晨(在读)

葛乐明(在读)

曹晨昊(在读)

翟智峰(在读)

硕士生:

张明莹(2020届)

刘文艳(2020届)

葛乐明(2021届)

黄晶晶(2021届)

袁欣(2021届)

朱琳(2022届)

林丽颖(2023届)

裴旭英(2023届)

郭欣(在读)

郭阳(在读)

赵若彤(在读)

何潘(在读)

闫靖宇(在读)

   发表论文

2023年

[75] Li, X. Y.*, Talbot, J., King, J., Wang, M. 2023. Effects of road dust on vegetation composition and surface chemistry of three ombrotrophic peatlands in eastern Canada. Geoderma, in press.

[74] Ge, L. M., Chen, C., Li, T., Bu, Z. J., Wang, M.* 2023. Contrasting effects of nitrogen and phosphorus additions on fine root production and morphological traits of different plant functional types in an ombrotrophic peatland. Plant and Soil, https://doi.org/10.1007/s11104-023-06087-3

[73] Yusup, S., Sundberg, S., Ooi, M., Zhang, M. M., Sun, Z. Q., Rydin, H., Wang, M., Feng, L., Chen, X., Bu, Z. J.* 2023. Smoke promotes germination of peatland bryophyte spores. Journal of Experimental Botany, 74:251-264. https://doi.org/10.1093/jxb/erac420

[72] Chen, X. H., Xue, D.*, Wang, Y., Qiu, Q., Wu, L., Wang, M., Liu, J. W., Chen, H.* 2023. Variations in the archaeal community and associated methanogenesis in peat profiles of three typical peatland types in China. Environmental Microbiome, 18:48. https://doi.org/10.1186/s40793-023-00503-y

[71] Liu, L. F., Tian, J. Q., Wang, H. J., Xue, D., Huang, X. Y., Wu, N.*, Wang, M., Xu, X. L., Peng, C. H., Wang, Y. F., Chen, H.* 2023. Stable oxic-anoxic transitional interface is beneficial to retard soil carbon loss in drained peatland. Soil Biology & Biochemistry, 181:109024. https://doi.org/10.1016/j.soilbio.2023.109024

[70] 魏华, 杨金, 成军锋, 刘丽莉, 曹雪, 苏少峰, 王璐, 王猛*. 2022. 千渭之会国家湿地公园典型植物底泥真菌群落结构及功能研究. 微生物学杂志, 42(6):75-86. https://doi.org/10.3969/j.issn.1005-7021.2022.06.010

 

2022年

[69] Watmough, S.*, Gilbert-Parkes, S., Basiliko, N., Lamit, L. J., Lilleskov, E. A., Andersen, R., Del Aguila-Pasquel, J., Artz, R. E., Benscoter, B. W., Borken, W., Bragazza, L., Brandt, S. M., Bräuer, S. L., Carson, M. A., Chen, X., Chimner, R. A., Clarkson, B. R., Cobb, A. R., Enriquez, A. S., Farmer, J., Grover, S. P., Harvey, C. F., Harris, L. I., Hazard, C., Hoyt, A. M., Hribljan, J., Jauhiainen, J., Juutinen, S., Kane, E. S., Knorr, K.-H., Kolka, R., Könönen, M., Laine, A. M., Larmola, T., Levasseur, P. A., Mccalley, C. K., Mclaughlin, J., Moore, T. R., Mykytczuk, N., Normand, A. E., Rich, V., Robinson, B., Rupp, D. L., Rutherford, J., Schadt, C. W., Smith, D. S., Spiers, G., Tedersoo, L., Thu, P. Q., Trettin, C. C., Tuittila, E.-S., Turetsky, M., Urbanová, Z., Varner, R. K., Waldrop, M. P., Wang, M., Wang, Z., Warren, M., Wiedermann, M. M., Williams, S. T., Yavitt, J. B., Yu, Z.-G., Zahn, G. 2022. Variation in carbon and nitrogen concentrations among peatland categories at the global scale. PLoS ONE, 17:e0275149. https://doi.org/10.1371/journal.pone.0275149.

[68] Li, T., Yuan, X., Ge, L. M., Cao, C. H., Suo, Y. C., Bu, Z. J., Peng, C. H., Song, H. X., Liu, Z. P., Liu, S. S., Wang, M.* 2022. Weak impact of nutrient enrichment on peat: evidence from physicochemical properties. Frontiers in Ecology and Evolution, 10:973626. https://doi.org/10.3389/fevo.2022.973626.

[67] Cao, C. H., Huang, J. J., Ge, L. M., Li, T., Bu, Z. J., Wang, S. Z., Wang, Z. C., Liu, Z. P., Liu, S. S., Wang, M.* 2022. Does shift in vegetation abundance after nitrogen and phosphorus additions play a key role in regulating fungal community structure in a northern peatland? Frontiers in Microbiology, 13:920382. https://doi.org/10.3389/fmicb.2022.920382.

[66] Lu, F., Wu, J., Yi, B., Xu, Z., Wang, M., Sundberg, S., Bu, Z. J.* 2022. Long-term phosphorus addition strongly weakens the carbon sink function of a temperate peatland. Ecosystems, 26:201-216. https://doi.org/10.1007/s10021-022-00754-9.

[65] Verbeke, B. A., Lamit, L. J., Lilleskov, E. A., Hodgkins, S. B., Basiliko, N., Kane, E. S., Andersen, R., Artz, R. R. E., Benavides, J. C., Benscoter, B. W., Borken, W., Bragazza, L., Brandt S. M., Bräuer, S. L., Carson, M. A., Charman, D., Chen X., Clarkson, B. R., Cobb, A. R., Convey, P., del Águila Pasquel, J., Enriquez, A. S., Griffiths, H., Grover, S. P., Harvey, C. F., Harris, L., Hazard, C., Hodgson, D., Hoyt, A. M., Hribljan, J., Jauhiainen, J., Juutinen, S., Knorr, K. H., Kolka, R. K., Könönen, M., T., Larmola, T., McCalley, C. K., McLaughlin, J., Moore, T. R., Mykytczuk, N., Normand, A. E., Rich, V., Roulet, N., Royles, J., Rutherford, J., Smith, D. S., Svenning, M. M., Tedersoo, L., Thu, P. Q., Trettin C. C., Tuittila, E. S., Urbanová, Z., Varner, R. K., Wang, M., Wang, Z., Warren, M., Wiedermann, M. M., Williams, S., Yavitt, J. B., Yu, Z. G., Yu, Z. C., Chanton, J. P.* 2022. Latitude, elevation, and mean annual temperature predict peat organic matter chemistry at a global scale. Global Biogeochemical Cycles, 36:e2021GB007057. https://doi.org/10.1029/2021GB007057

[64] 何玉杰, 孔泽, 户晓, 张江, 王猛, 彭长辉, 朱求安*. 2022. 水热条件分别控制了中国温带草地NDVI的年际变化和增长趋势. 生态学报, 42(2):766-777. https://doi.org/10.5846/stxb202101130143

 

2021年

[63] Li, T., Peng, C. H., Bu, Z. J., Zhu, Q. A., Song, H. X., Guo, X. Y., Wang, M.* 2021. Woody plants reduce the sensitivity of soil extracellular enzyme activity to nutrient enrichment in wetlands: A meta-analysis. Soil Biology & Biochemistry, 159:108280. https://doi.org/10.1016/j.soilbio.2021.108280

[62] Zhang, J., Zhu, Q. A., Yuan, M. S., Liu, X. W., Chen, H., Peng, C. H., Wang, M.*, Yang, Z. A., Jiang, L., Zhao, P. X.* 2021. Extrapolation and uncertainty evaluation of carbon dioxide and methane emissions in the Qinghai-Tibetan Plateau wetlands since the 1960s. Frontiers in Earth Science, 8:361. https://doi.org/10.3389/feart.2020.00361

[61] Zhang, C. B.*, Wang, J., Liu, W. L., Jiang, H., Wang, M., Ge, Y., Chang, J. 2021. Denitrifying bacterial community dominantly drove nitrogen removals in vertical flow constructed wetlands as impacted by macrophyte planting patterns. Chemosphere, 281:130418. https://doi.org/10.1016/j.chemosphere.2021.130418.

[60] Xu, X. Y., Lu, K. J., Wang, Z. C.*, Wang, M., Wang, S. Z. 2021. Effects of drainage on dissolved organic carbon (DOC) characteristics of surface water from a mountain peatland. Science of the Total Environment, 789:147848. https://doi.org/10.1016/j.scitotenv.2021.147848

[59] Guo, X. Y., Peng, C. H.*, Li, T., Huang, J. J., Song, H. X., Zhu, Q. A., Wang, M.* 2021. The effects of drought and re-watering on non-structural carbohydrates of Pinus tabulaeformis seedlings. Biology, 10:281. https://doi.org/10.3390/biology10040281

[58] Yuan, M. S., Zhu, Q. A.*, Zhang, J., Liu, J. X., Chen, H., Peng, C. H., Li, P., Li, M. X., Wang, M., Zhao, P. X. 2021. Global response of terrestrial gross primary productivity to climate extremes. Science of the Total Environment, 750:142337. https://doi.org/10.1016/j.scitotenv.2020.142337

 

2020年

[57] 葛乐明, 李通, 袁欣, 黄晶晶, 王升忠, 卜兆君, 王猛*. 2020. 短期排水下泥炭酶活性和碳循环过程的模拟实验研究. 湿地科学, 18(6):730-739. http://wetlands.neigae.ac.cn/CN/Y2020/V18/I6/730

[56] 徐晓云, 汪祖丞*, 王猛, 徐志伟, 陆楷钧, 王升忠*. 2020. 白江河林场天然与长期排水泥炭沼泽表层泥炭和积水中可溶性有机碳特征的比较. 湿地科学, 18(6):740-749. http://wetlands.neigae.ac.cn/CN/Y2020/V18/I6/740

[55] Zhang, J., Zhu, Q. A.*, Yuan, M. S., Liu, X. W., Chen, H., Peng, C. H., Wang, M., Yang, Z. A., Jiang, L., Zhao P. X.* 2020. Extrapolation and uncertainty evaluation of carbon dioxide and methane emissions in the Qinghai-Tibetan plateau wetlands since the 1960s. Frontiers in Earth Science, 8:361. https://doi.org/10.3389/feart.2020.00361

[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. https://doi.org/10.1016/j.geoderma.2020.114585

[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. https://doi.org/10.1016/j.catena.2019.104338

[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. https://doi.org/10.1007/s11104-020-04513-4

[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, 10:1677. 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. https://doi.org/10.1016/j.ecolind.2019.105761

 

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. 应用环境生物学报, 25(6):1261-1269. https://doi.org/10.19675/j.cnki.1006-687x.2019.03011

[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 & Biochemistry, 136:107528. https://doi.org/10.1016/j.soilbio.2019.107528

[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. https://doi.org/10.1007/s11104-019-03962-w

[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. https://doi.org/10.1111/ele.13210

[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. https://doi.org/10.1016/j.scitotenv.2019.134054

[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. https://doi.org/10.1016/j.jenvman.2019.109403

[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. https://doi.org/10.1016/j.ufug.2019.126444

[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. Agricultural and Forest Meteorology, 266-267:129-139. https://doi.org/10.1016/j.agrformet.2018.12.011

[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. https://doi.org/10.1016/j.ecolind.2018.10.045

 

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. https://doi.org/10.3390/f9120754

[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. https://doi.org/10.1029/2018JG004574

[37] Feng, L., Sundberg, S., Ooi, M., Wu, Y. H., Wang, M., Bu, Z. J.* 2018. Oxygen-deficiency and allelochemicals affect Sphagnum spore persistence in peatlands. Plant and Soil, 432:403-413. https://doi.org/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. https://doi.org/10.3389/fmicb.2018.01693

[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. https://doi.org/10.1016/j.scitotenv.2018.05.031

[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. https://doi.org/10.3390/f9040204

[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. https://doi.org/10.1016/j.catena.2017.12.005

[32] Wang, M.*, Talbot, J., Moore, T. R. 2018. Drainage and fertilization effects on nutrient availability in an ombrotrophic peatland. Science of the Total Environment, 621:1255-1263. https://doi.org/10.1016/j.scitotenv.2017.10.103

[31] Wang, H.*, Harrison, S. P., Prentice, I. C., Yang, Y. Z., Bai, F., Togashi, H. F., Wang, M., Zhou, S. X., Ni, J. 2018. The China Plant Trait Database: towards a comprehensive regional compilation of functional traits for land plants. Ecology, 99:500-500. https://doi.org/10.1002/ecy.2091

 

2017年

[30] Talbot, J.*, Moore, T. R., Wang, M., Riley, J. L. 2017. Distribution of lead and mercury in Ontario peatlands. Environmental Pollution, 231:890-898. https://doi.org/10.1016/j.envpol.2017.08.095

[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. Interannual variation in methane emissions from tropical wetlands triggered by repeated El Niño Southern Oscillation. Global Change Biology, 23:4706-4716. https://doi.org/10.1111/gcb.13726

[28] Li, M. X., Peng, C. H., Wang, M., Yang, Y. Z., Zhang, K. R., Li, P., Yang, Y., Ni, J., Zhu, Q. A.* 2017. Spatial patterns of leournal of Geophysical Research-Biogeosciences, 122:1564-1575. https://doi.org/10.1002/2016JG003529

[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. https://doi.org/10.1016/j.rser.2017.04.082

[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. https://doi.org/10.1016/j.ecolind.2017.04.049

[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. https://doi.org/10.1016/j.ecolind.2017.01.021

[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. https://doi.org/10.1002/2017MS000920

[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. https://doi.org/10.1002/2017MS000934

 

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. https://doi.org/10.1007/s11104-015-2744-6

[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. https://doi.org/10.1016/j.atmosenv.2016.08.011

[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. https://doi.org/10.1038/srep38020

[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. https://doi.org/10.1007/s11738-016-2278-4

[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. https://doi.org/10.1371/journal.pone.0165039

[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. https://doi.org/10.1016/j.ecoleng.2016.06.047

[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. https://doi.org/10.1007/s11104-016-2889-y

[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. https://doi.org/10.1038/srep24110

[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. https://doi.org/10.1038/srep24107

 

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. https://doi.org/10.1002/2014GB005000

[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. https://doi.org/10.1016/j.atmosenv.2015.05.019

 

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. https://doi.org/10.1088/1748-9326/9/2/024003

[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. https://doi.org/10.1007/s10021-014-9752-x

[9] Wang, M.*, Murphy, M. T., Moore, T. R. 2014. Nutrient resorption of two evergreen shrubs in response to long-term fertilization in a bog. Oecologia, 174:365-377. https://doi.org/10.1007/s00442-013-2784-7

[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. https://doi.org/10.1134/S106741361405018X

 

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. https://doi.org/10.1007/s00468-010-0506-x

 

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. https://doi.org/10.1080/00103624.2010.518262

[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. https://doi.org/10.1080/00103620903531151

[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. https://doi.org/10.1631/jzus.B0920037

[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.

   科研项目

[7] 长白山区泥炭地植物-微生物级联关系对土壤磷潜在可用性的生物调控机制(42371097),国家自然科学基金面上项目,主持,2024.01~2027.12

[6] 东北寒区泥炭地碳累积动态及碳库稳定机制(42330509),国家自然科学基金重点项目,参与,2024.01~2028.12

[5] 典型沼泽生境功能稳定性与生物多样性耦合机制(子课题:沼泽湿地生境功能稳定性的环境调控与阈值),国家重点研发计划子课题,主持,2022.09~2026.08

[4] 中国长白山与英国雪墩山地区泥炭地土壤酶化学计量比的生物调控机制(42111530125),国家自然科学基金国际(地区)合作与交流项目,主持,2021.04~2023.03

[3] 长白山哈泥泥炭地土壤胞外酶活性的化学计量特征的生物调控机制(41971118),国家自然科学基金面上项目,主持,2020.01~2023.12

[2] 氮磷输入对长白山泥炭地土壤有机碳影响的酶学机理研究(41601098),国家自然科学基金青年项目,主持,2017.01~2019.12

[1] 锐齿栎和油松的凋落物-土壤-微生物的生态化学计量学级联特征(2016JQ3022),陕西省自然科学基金青年项目,主持,2016.01~2017.12

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