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张会民

发布者:管理员发布时间:2022-11-14作者:来源:点击量:

一、个人简历

张会民,男,1969年生,中国农业科学院农业资源与农业区划研究所博士、研究员、博士生导师,任中国农业科学院衡阳红壤实验站站长,科技部湖南祁阳农田生态系统国家野外观测研究站站长。长期从事耕地质量监测、土壤养分循环、土壤肥力演变与地力提升,以及红壤酸化改良方面的研究和科学普及工作。从酸化改良和有机培肥的角度回答了红壤团聚体组分钾素提升的内在机制;探明了施肥、土壤有机碳和铁铝氧化物对水稻土团聚体中钾素提升的关键调控途径;首次将土壤综合肥力指数和水稻产量比结合起来精准划分不同稻作区的水稻土地力等级,为我国典型稻作区不同地力等级的水稻土推荐适宜的培肥改良技术。以第一作者和通讯作者在《Environmental research》、《Soil & tillage research》、《Geoderma》、《科学通报》等期刊上发表论文100余篇,其中SCI收录40余篇。出版著作和教材10余部,其中主编4部。主持编写农业行业标准1项,授权国家发明专利1项,获软件著作权3项。主持和参与完成省部级鉴定成果8项,获省部级奖5项,其中第一完成人2项。主持多项国家自然科学基金项目和国家级课题。

二、通讯作者/第一作者代表性论文

[1] Khan, M.N, Huang J, Shah A, Li D C, Daba N A, Han T F, Du J X, Qaswar M, Anthonio, C K, Sial T A, Haseeb A, Zhang L, Xu Y M, He Z Q, Zhang H M*, Núñez-Delgado A. Mitigation of greenhouse gas emissions from a red acidic soil by using magnesium-modified wheat straw biochar.  Environmental Research , 2022, 203 (111879). DOI: 10.1016/j.envres.2021.111879.

[2] Khan M.N., Li D.C., Shan A., Huang J., Zhang L., Núnez-Delgado A., Han T.F., Du J.X., Ali S., Sial T.A., Lan Z.L., Hayat S., Song Y., Bai Y.J., Zhang H M*. The impact of pristine and modified rice straw biochar on the emission of greenhouse gases from a red acidic soil.  Environmental Research , 2022, 208(112676). DOI: doi.org/10.1016/j.envres.2022.112676.

[3] Du J X, Liu K L, Huang J, Han T F, Zhang L, Anthonio C K, Shah A, Khan M N, Qaswar M, Abbas M, Huang Q H, Xu Y M, Zhang H M*. Organic carbon distribution and soil aggregate stability in response to long-term phosphorus addition in different land-use types.  Soil & Tillage Research , 2022, 215(105195). DOI: 10.1016/j.still.2021.105195.

[4] LIU Kai-lou, HUANG Jing , HAN Tian-fu, LI Ya-zhen, LI Dong-chu, Muhammad Qaswar, Muhammad Abbas, WANG Bo-ren, DU Jiang-xue, ZHANG Lu, LIU Shu-jun , LIU Li-sheng, ZHANG Hui-min*. The relationship between soil aggregate-associated potassium and soil organic carbon with glucose addition in an Acrisol following long-term fertilization.  Soil & Tillage Research , 2022, 222(105438).

[5] Han T F, Huang J, Liu K L, Fan H Z, Shi X J, Chen J, Jiang X J, Liu G R, Liu S J, Zhang L, Xu Y M, Feng G, Zhang H M*. Soil potassium regulation by changes in potassium balance and iron and aluminum oxides in paddy soils subjected to long-term fertilization regimes.  Soil & Tillage Research , 2021, 214: 105168. DOI: 10.1016/j.still.2021.105168.

[6] Muhammad Q, Huang J, Waqas A, Li D C, Liu S J, Zhang L, Cai A D, Liu L S, Xu Y M, Gao J S*, Zhang H M*. Yield sustainability, soil organic carbon sequestration and nutrients balance under long-term combined application of manure and inorganic fertilizers in acidic paddy soil.  Soil & Tillage Research . 2020, 198: 104569. DOI: 10.1016/j.still.2019.104569.

[7] Liu K L, Han T F, Huang J, Shad A, Li D M, Yu X C, Huang Q H, Ye H C, Hu H W, Hu, Z H, Zhang H M*. Links between potassium of soil aggregates and pH levels in acidic soils under long-ter fertilization regimes. Soil & Tillage Research , 2020, 197: 104480. DOI: 10.1016/j.still.2019.104480.

[8] Wang Y D, Xue D M*, Hu N, Lou Y L, Zhang Q Z, Zhang L M, Zhu P, Gao H J, Zhang S Q, Zhang H M*, Li D C, Song Z L, Kurganova I, Kuzyakov Y, Wang Z L. Post-agricultural restoration of soil organic carbon pools across a climate gradient.  Catena , 2021, 200, 105138. DOI: 10.1016/j.catena.2020.105138.

[9] Liu K L, Han T.F, Huang, J, Huang, Q.H, Li, D.M, Hu, Z.H, Yu, X.C, Muhammad, Q, Ahmed, W, Hu, H W, Zhang H M*. Response of soil aggregate-associated potassium to long-term fertilization in red soil.  Geoderma , 2019, 352, 160-170. DOI: 10.1016/j.geoderma.2019.06.007.

[10] Muhammad Q, Huang J, Waqas A, Muhammad A, Li D C, Zulqarnain H K, Gao J S, Liu S J, Zhang H M*. Linkages between ecoenzymatic stoichiometry and microbial community structure under long-term fertilization in paddy soil: A case study in China.  Applied Soil Ecology , 2021, 161, 103860. DOI: 10.1016/j.apsoil.2020.103860.

[11] Muhammad Q, Li D C, Huang J, Han T F, Waqas A, Sehrish A, Muhammad N K, Zulqarnain H K, Xu Y M, Li Q, Zhang H M*, Wang B R*, Ahmad Tauqeer. Dynamics of organic carbon and nitrogen in deep soil profile and crop yields under long-term fertilization in wheat-maize cropping system.  Journal of Integrative Agriculture , 2022, 21(3): 826–839. DOI: 10.1016/S2095-3119(20)63501-8.

[12] Muhammad Q, Waqas A, Huang J, Liu K L, Zhang L, Han T F, Du J X, Sehrish A, Hafeez U, Huang Q H, Zhang H M*. Interaction of soil microbial communities and phosphorus fractions under long-term fertilization in paddy soil.  Journal of Integrative Agriculture , 2022, 21(7): 2134-2144. DOI: 10.1016/S2095-3119(21)63733-4.

[13] Kailou Liu, Tianfu Han, Jing Huang, Shuiqing Zhang, Hongjun Gao, Lu Zhang, Asad Shah, Shaomin Huang, Ping Zhu, Suduan Gao, Changbao Ma, Yandong Xue, Zhang H M*. Change of soil productivity in three different soils after long-term field fertilization treatments.  Journal of Integrative Agriculture , 2020, 19(3): 848-858. DOI: 10.1016/S2095-3119(19)62742-5.

[14] Liu K L, Huang J, Li D M, Yu X C, Ye H C, Hu H W, Hu Z H, Huang Q H, Zhang H M*. Comparison of carbon sequestration efficiency in soil aggregates between upland and paddy soils in a red soil region of China.  Journal of Integrative Agriculture , 2019, 18(6): 1348-1359. DOI: 10.1016/S2095-3119(18)62076-3.

[15] Zha, Yan, Xueping Wu*, Xinhua He, Huimin Zhang*, F.-f. Gong, D.-x. Cai, P. Zhu, and H.-j. Gao. 2014. Basic soil productivity of spring maize in black soil under long-term fertilization based on dssat model.  Journal of Integrative Agriculture , 13:577-587.

[16] Ahmed W, Huang J, Liu K L, Sehrish A, Han T F, Sun G, Chen J, Muhammad Q, Du J X, Sajid M, Ali A M, Zulqarnain H K, Zhang H M*, Chen D Y*. Impacts of long-term inorganic and organic fertilization on phosphorus adsorption and desorption characteristics in red paddies in southern China.  PLOS ONE ,2021, 16, e0246428. DOI: 10.1371/journal. pone.0246428.

[17] Muhammad Q, Waqas A, Huang J, Fan H Z, Shi X J, Jiang X J, Liu K L, Xu Y M, He Z Q, Waleed A, Asad S, Zhang H M*, Soil carbon (C), nitrogen (N) and phosphorus (P) stoichiometry drives phosphorus lability in paddy soil under long-term fertilization: A fractionation and path analysis study.  PLOS ONE . 20190624. DOI: 10.1371/journal.pone.0218195.

[18] Waqas A, Huang J, Liu K L, Muhammad Q, Muhammad N K, Chen J, Sun G, Huang Q H, Liu Y R, Liu G R, Sun M, Li C, Li D C, Sehrish A, Yodgar N, Sajid M, Zhang H M*. Changes in phosphorus fractions associated with soil chemical properties under long-term organic and inorganic fertilization in paddy soils of southern China.  PLOS ONE ,20190510,DOI: 10.1371/journal.pone.0216881.

[19] Huang J, Muhammad Q, Muhammad N K, Liu S J, Han T F, Liu K L, Li D C, Zhang H M*, Gao J S*. Long-term application of chemical and organic fertilizers over 35 years differentially affects interannual variation in soil inorganic phosphorus fractions in acidic paddy soil.  Eurasian Soil Science , 2021, 54, 772-782. DOI: 10.1134/s1064229321050112.

[20] Diao W Y, Liu G, Zhang H M*, Hu K L, Jin X L. Influences of soil bulk density and texture on estimation of surface soil moisture using spectral feature parameters and an artificial neural network algorithm.  Agriculture , 2021, 11, 710. DOI: 10.3390/ agriculture11080710.

[21] Sehrish A, Li D C, Huang J, Waqas A, Muhammad Abbas, Muhammad Q, Christian K A, Zhang L, Wang B R, Xu Y M, Zhang H M*. Soil microbial biomass and extracellular enzymes regulate nitrogen mineralization in wheat-maize cropping system after three decades of fertilization in a Chinese Ferrosol.  Journal of Soils and Sediments , 2021, 21: 281-294. DOI: 10.1007/s11368-020-02770-5.

[22] Waqas A, Muhammad Q, Huang J, Dong W J, Sun G, Liu K L, Meng Y,Tang A, Sun M, Li C, Xu Y M, Sehrish A, Yodgar N, Sajid M, Muhammad N K, Zhang H M*. Tillage practices improve rice yield and soil phosphorus fractions in two typical paddy soils.  Journal of Soils and Sediments , 2020, 20: 850-861. DOI: 10.1007/s11368-019-02468-3.

[23] Muhammad Q, Rushan Chai, Waqas A, Huang J, Han T F, Liu K L, Ye X X, Xu Y M, Christian K A, Zhang H M*. Partial substitution of chemical fertilizers with organic amendments increased rice yield by changing phosphorus fractions and improving phosphatase activities in fluvo-aquic soil.  Journal of Soils and Sediments , 2020, 20: 1285-1296. DOI: 10.1007/s11368-019-02476-3.

[24] Muhammad Q, Liu Y R,Huang J,Liu K L,Muhammad M,Lv Z Z,Hou H Q,Lan X J,Ji J H,Waqas A,Li D C,Zhang H M*. Soil nutrients and heavy metals availability under long-term combined application of swine manure and synthetic fertilizers in acidic paddy soil.  Journal of Soils and Sediments . 2020, 20: 2093-2106. DOI: 10.1007/s11368-020-02576-5.

[25] Tianfu Han, Andong Cai, Kailou Liu, Jing Huang, Boren Wang, Dongchu Li, Muhammad Q, Gu Feng, Huimin Zhang*. The links between potassium availability and soil exchangeable calcium, magnesium, and aluminum are mediated by lime in acidic soil.  Journal of Soils and Sediments , 2019, 19(3): 1382-1392. DOI: 10.1007/s11368-018-2145-6.

[26] Christian K A, HUANG J, HAN T F, Muhammad Q, LIU K L, Du J X, Daba N A, ALI A, Matelele L A, LIU S J, LIU G R, ZHANG H M*, CHEN J*. Fertilizer combination effects on aggregate stability and distribution of aluminum and iron oxides.  Journal of Plant Nutrition and Soil Science . 2022,185:251–263. DOI: 10.1002/jpln.202000290.

[27] Huang J, Zhou L H, Liu S J, Han T F, Hayatu N G, Li D C, Zhang S X, Wang B R, Zhang H M*. Vertical distribution of phosphorus fractions and the environmental critical phosphorus level in acidic red soil under long-term fertilizer and lime application in southern China.  Journal of Plant Nutrition and Soil Science , 2021. DOI: 10.1002/jpln.202100098.

[28] Christian K A, Huang J, Han T F, Muhammad Q, Liu K L, Du J X, Muhammad N K, Muhammad A, Sehrish A, Lehlogonolo A M, Liu S J, Liu G R, Zhang H M*, Chen J*. Depth distribution of bulk and aggregate associated manganese oxides mediated by soil chemical properties in a long-term fertilized paddy soil.  Journal of Soil Science and Plant Nutrition . 2020, 20(4), 2631-2642. DOI: 10.1007/s42729-020-00320-z.

[29] Asad Shah, Jing Huang, Muhammad Numan Khan, Tianfu Han, Sehrish Ali , Nano Alemu Daba, Jiangxue Du , Dongchu Li, Lu Zhang, Shah Fahad, Shujun Liu, Lisheng Liu, Jusheng Gao, Yongmei Xu, Zhongqun He, Huimin Zhang*. Sole and Combined Application of Phosphorus and Glucose and Its Influence on Greenhouse Gas Emissions and Microbial Biomass in Paddy Soils.  Agronomy,  2022, 12, 2368.

[30] Daba N A, Li D C, Huang J, Han T F, Zhang L, Ali S, Khan M N, Du J X, Liu S J, Legesse, T G, Liu L S, Xu Y M, Zhang H M*, Wang B R*. Long-term fertilization and lime-induced soil pH changes affect nitrogen use efficiency and grain yields in acidic soil under wheat-maize rotation.  Agronomy , 2021, 11. DOI: 10.3390/agronomy11102069.

[31] Ali S, Liu K L, Ahmed W, Huang J, Qaswar M, Anthonio, C K, Maitlo A A, Zhang L, Liu L S, Zhang H M*. Nitrogen mineralization, soil microbial biomass and extracellular enzyme activities regulated by long-term n fertilizer inputs: A comparison study from upland and paddy soils in a red soil region of China.  Agronomy , 2021, 11. DOI: 10.3390/agronomy11102057.

[32]  Muhammad Q, Huang J, Waqas A, Liu S J, Li D C, Zhang L, Liu L S, Xu Y M, Han T F, Du J X, Gao J S*, Zhang H M*, Substitution of Inorganic Nitrogen Fertilizer with Green Manure (GM) Increased Yield Stability by Improving C Input and Nitrogen Recovery Efficiency in Rice Based Cropping System.  Agronomy , 2019, 9(10), 609: 1-18. DOI: 10.3390/agronomy9100609.

[33] Muhammad Q, Huang J, Waqas A, Li D C, Liu S J, Sehrish A, Liu K L, Xu Y M, Zhang L, Liu L S, Gao J S*, Zhang H M*. Long-term green manure rotations improve soil biochemical properties, yield sustainability and nutrient balances in acidic paddy soil under a rice-based cropping system.  Agronomy , 2019, 9(12), 780: 1-18. DOI: 10.3390/agronomy9120780.

[34] Waqas A, Liu K L, Muhammad Q, Huang J, Huang Q H, Xu Y M, Sehrish A, Sajid M, Rana M A A, Mohsin M, Zhang H M*. Long-term mineral fertilization improved the grain yield and phosphorus use efficiency by changing soil P fractions in Ferralic Cambisol.  Agronomy , 2019, 9(12), 784: 1-15. DOI: 10.3390/agronomy9120784.

[35] Muhammad Q, Li D C, Huang J, Han T F, Waqas A, Muhammad A, Zhang L, Du J X, Zulqarnain H K, Sami U, Zhang H M*, Wang B R*. Interaction of liming and long-term fertilization increased crop yield and phosphorus use efficiency (PUE) through mediating exchangeable cations in acidic soil under wheat-maize cropping system.  Scientific Reports . 2020, 10:19828. DOI: 10.1038/s41598-020-76892-8.

[36] Kailou, L., L. Yazhen, Y. Paolan, W. Yan, Z. Lijun, H. Huiwen and Z. Huimin*, 2016. Estimating grain yield based on BSW and SPAD at grain filling stage in double rice cropping system of China.  International Journal of Agriculture & Biology , 18: 889‒894 .

[37] Zhang Huimin, Xu Minggang, Zhu Ping and Peng Chang. 2011. Effect of 15-Year-Long Fertilization on Potassium Quantity/Intensity Relationships in Black Soil in Northeastern China.  Communications in Soil Science and Plant Analysis , 42: 1289 - 1297.

[38] Zhang Huimin, X-Y. Yang, X-H. He, M-G. Xu, S-M. Huang, H. Liu, and B-R. Wang. 2011. Effect of Long-Term Potassium Fertilization on Crop Yield and Potassium Efficiency and Balance Under Wheat-Maize Rotation in China.  Pedosphere , 21: 154-163

[39] Zhang Huimin, WANG BoRen, XU MingGang, FAN TingLu. Crop yield and soil responses to long-term fertilization on a red soil in southern China.  Pedosphere , 2009, 19(2): 199-207

[40] Zhang Huimin, Xu Minggang, Shi Xiaojun, et al. Rice yield, potassium uptake and apparent balance under long-term fertilization in rice-based cropping systems in southern China.  Nutrient Cycling in Agroecosystems , 2010, 88: 341-349

[41] Zhang Huimin, M. G XU and F. D. ZHANG. Long-term effects of manure application on grain yield under different cropping systems and ecological conditions in China.  The Journal of Agricultural Science , 2009, 147, 31-42

[42] Zhang Huimin, XU MingGang, ZHANG WenJu , HE XinHua. Factors affecting potassium fixation in seven soils under 15-year long-term fertilization.  Chinese Science Bulletin , 2009, 54(10): 1773-1780

[43] Zhang Huimin, Wang Boren, Xu Minggang. Effects of inorganic fertilizer inputs on grain yields and soil properties in a long-term wheat-corn cropping system in south China. Communications in Soil Science and Plant Analysis , 2008, 39(11): 1583-1599

[44] 柳开楼, 韩天富, 黄晶, 李亚贞, 马常宝, 薛彦东, 都江雪, 王远鹏, 李文军, 张会民*. 中国稻作区土壤速效钾和钾肥偏生产力时空变化.  土壤学报 , 2021, 58(1): 202-212,DOI:10.11766/trxb201910300311.

[45] 都江雪, 柳开楼, 黄晶, 韩天富, 王远鹏, 李冬初, 李亚贞, 马常宝, 薛彦东, 张会民*. 中国稻田土壤有效磷时空演变特征及其对磷平衡的响应.  土壤学报 , 2021, 58(2): 476-486. DOI: 10.11766/trxb201911040381.

[46] 柳开楼, 黄晶, 韩天富, 黄庆海, 余喜初, 李大明, 胡惠文, 叶会财, 胡志华, 张会民*. 长期施肥下红壤旱地解钾菌变化及其驱动因子.  土壤学报 , 2020, 57(1): 183-194.

[47] 周玲红, 黄晶, 王伯仁, 李冬初, 柳开楼, 韩天富, 张会民*. 南方酸化红壤钾素淋溶对施石灰的响应.  土壤学报 , 2020, (2): 457-467.

[48] 柳开楼, 黄晶, 张会民*, 李冬初, 韩天富, 蔡泽江, 王伯仁, 黄庆海. 长期施肥对红壤旱地团聚体特性及不同组分钾素分配的影响.  土壤学报 , 2018, 55(2): 443-454.

[49] 韩天富, 王伯仁, 张会民*, 黄 晶, 李冬初, 蔡泽江, 柳开楼, 蔡岸冬, 徐明岗. 长期施肥及石灰后效对不同生育期玉米根际钾素的影响.  土壤学报 , 2017, 54(6): 1497-1507.

[50] 张会民, 徐明岗, 吕家珑. 长期施肥对水稻土和紫色土钾素容量和强度关系的影响.  土壤学报 , 2009, 46(4): 640-645

[51] 刘淑军, 李冬初, 黄晶,马常宝, 王慧颖, 于子坤, 曲潇林, 张璐, 韩天富, 都江雪, 柳开楼, 张会民*. 1988-2018年中国水稻秸秆资源时空分布特征及还田替代化肥潜力.  农业工程学报 , 2021, 37(11): 151-161.

[52] 张璐, 蔡泽江, 王慧颖, 于子坤, 韩天富, 柳开楼, 刘立生, 黄晶, 文石林, 张会民*. 中国稻田土壤有效态中微量元素含量分布特征.  农业工程学报 , 2020, 36(16): 62-70.

[53] 李冬初, 黄晶, 马常宝, 薛彦东, 高菊生, 王伯仁, 张杨珠, 柳开楼, 韩天富, 张会民*. 中国稻田土壤有机质时空变化及其驱动因素.  中国农业科学 , 2020, 53(12): 2410-2422.

[54] 王远鹏, 黄晶, 孙玉翔, 柳开楼, 周虎, 韩天富, 都江雪, 蒋先军, 陈金*, 张会民*. 近35年红壤稻区土壤肥力时空演变特征.  中国农业科学 , 2020, 53(16): 3294-3306.

[55] 韩天富, 马常宝, 黄晶, 柳开楼, 薛彦东, 李冬初, 刘立生, 张璐, 刘淑军, 张会民*. 基于Meta分析中国水稻产量对施肥的响应特征. 中国农业科学 ,2019,52(11):1918-1929.

[56] 李冬初, 王伯仁, 黄晶, 张杨珠, 徐明岗, 张淑香, 张会民*. 长期不同施肥红壤磷素变化及其对产量的影响.  中国农业科学 , 2019, 52(21): 3830-3841.

[57] 柳开楼,张会民*,韩天富,周利军,李大明 ,胡志华,黄庆海*,叶会财,徐小林,胡惠文. 长期化肥和有机肥施用对双季稻根茬生物量及养分积累特征的影响.  中国农业科学 , 2017, 50(18): 3540-3548.

[58] 李建军, 徐明岗, 辛景树, 段建军, 任意, 李冬初, 黄晶, 申华平, 张会民*. 中国稻田土壤基础地力的时空演变特征.  中国农业科学 ,2016 49:1510-1519.

[59] 查燕,武雪萍*,张会民*,蔡典雄,朱平,高洪军. 长期有机无机配施黑土土壤有机碳对农田基础地力提升的影响.  中国农业科学 ,2015,48(23):4649-4659.

[60] 岳龙凯,王伯仁,黄庆海,柳开楼,蔡泽江,李冬初,黄晶,张会民*. 长期施肥红壤及其有机无机复合体非交换性钾释放动力学.  中国农业科学 ,2015,48(23):4748-4758.

[61] 张会民, 徐明岗, 吕家珑, 等. 长期施钾下中国3种典型农田土壤钾素固定及其影响因素研究.  中国农业科学 , 2007, 40(4): 749-756

[62] 王远鹏, 黄晶, 柳开楼, 韩天富, 都江雪, 马星竹, 郝小雨, 周宝库, 刘彩文, 蒋先军*, 张会民*. 东北典型县域稻田土壤肥力评价及其空间变异.  植物营养与肥料学报 , 2020, 26(2): 256-266.

[63] 黄晶, 刘立生 马常宝, 薛彦东, 韩天富 柳开楼, 刘淑军, 张璐 李冬初, 都江雪 张会民*. 近30年中国稻区氮素平衡及氮肥偏生产力时空变化.  植物营养与肥料学报 , 2020,  26(6): 987-998.

[64] 高菊生,黄 晶,杨志长,曹卫东*,张会民*,高 鹏,高学成. 绿肥和稻草联合还田提高土壤有机质含量并稳定氮素供应.  植物营养与肥料学报 ,  2020, 26(3): 472-480.

[65] 刘淑军, 李冬初, 高菊生, 黄 晶, 余泓, 李照全, 文炯, 张会民*. 长期施肥红壤稻田肥力与产量的相关性及县域验证.  植物营养与肥料学报 , 2020, 26(7): 1262-1271.

[66] 韩天富, 柳开楼, 黄晶, 马常宝, 郑磊, 王慧颖, 曲潇林, 任意, 于子坤, 张会民*. 近30年中国主要农田土壤pH时空演变及驱动因素.  植物营养与肥料学报 , 2020, 26(12): 2136-2148.

[67] 柳开楼, 黄晶, 张会民*, 韩天富,黄庆海*,余喜初,李大明,胡惠文,叶会财,胡志华,马常宝,薛彦东. 基于红壤稻田肥力与相对产量关系的水稻生产力评估.  植物营养与肥料学报 , 2018, 24(6): 1425-1434.

[68] 岳龙凯,蔡泽江,徐明岗,王伯仁,黄庆海,李冬初,柳开楼,李建军,张会民*. 长期施肥红壤钾素在有机无机复合体中的分布.  植物营养与肥料学报 ,2015,21(6):1551-1562.

[69] 岳龙凯,蔡泽江,徐明岗,王伯仁,李冬初,黄晶,张会民*. 长期施肥红壤钾有效性研究.  植物营养与肥料学报 ,2015,21(6):1543-1550.

[70] 李建军,辛景树,张会民*,段建军,任意,孙楠,徐明岗. 长江中下游粮食主产区 25 年来稻田土壤养分演变特征.  植物营养与肥料学报 ,2015,21(1):92-103.

[71] 张会民, 徐明岗, 王伯仁. 小麦-玉米种植制度下长期施钾对土壤钾素Q/I关系的影响.  植物营养与肥料学报 , 2009, 15 (4): 843-849

[72] 李冬初, 黄晶, 马常宝, 薛彦东, 高菊生, 王伯仁, 张杨珠, 柳开楼, 韩天富, 张会民*. 中国农耕区土壤有机质含量及其与酸碱度和容重关系.  水土保持学报 , 2020, 34(06): 252-258.

[73] 柳开楼, 韩天富, 黄庆海, 余喜初, 李大明, 马常宝, 薛彦东, 张会民*. 鄱阳湖流域长期施肥下双季稻田的土壤基础地力.  应用生态学报 ,2019,30(01):209-216.

[74] 刘淑军, 秦道珠, 黄晶, 徐明岗, 张会民*, 高菊生, 张璐, 刘立生. 大地情怀——记刘更另院士的科学人生.  湖北农机化 , 2019, (12) :1-5.

[75] 黄 晶, 蒋先军, 曾跃辉, 陈 金, 柴如山, 柳开楼, 张会民*. 稻田土壤肥力评价方法及指标研究进展.  中国土壤与肥料 , 2017, ( 6): 1-8.

[76] 张会民, 徐明岗, 张文菊, 等. 长期施肥条件下土壤钾素固定影响因素分析.  科学通报 , 2009, 54(17): 2574-2580

[77] 张会民, 吕家珑, 李菊梅, 等. 长期定位施肥条件下土壤钾素化学研究进展.  西北农林科技大学学报 , 2007, 35(1) :155-160

[78] 张会民, 徐明岗, 吕家珑, 等. 不同生态条件下长期施钾对土壤钾素固定影响的机理.  应用生态学报 , 2007, 18(5): 1009-1014

三、近年来主持课题

[1] 主持国家重点研发课题“高产稻田的肥力变化与培肥耕作途径”(2016-2020年)

[2] 主持国家自然科学基金“土壤及团聚体钾素形态对红壤pH和有机质的响应机制”(2017-2020年)

[3] 主持国家自然科学基金“酸化红壤施用石灰后根际土壤钾素转化特征及机制”(2014-2017年)

[4] 主持国家自然科学基金“长期不同施肥下红壤钾素有效性的演变机理”(2011-2013年)

[5] 主持国家“973”计划课题“农田地力形成与演变规律及其主控因素”(2011-2015年)

[6] 主持国家粮食丰产科技工程课题“高产作物节肥高效技术研究”(2011-2015年)

[7] 主持国家科研基础性工作专项“钢铁渣及矿山铁尾矿生产新型材料技术与示范”专题主持(2013-2017年)

[8] 公益性行业(农业)科研专项经费项目“粮食主产区土壤肥力演变与培肥技术研究与示范”(2012-2016年),专题主持

[9] 国家科技支撑计划“华中贫瘠及潜育中低产稻田改良技术集成示范”(2012-2016年),专题主持

[10] 中韩国际合作项目“复垦地盐碱地改良的生物技术研究”(2011-2012年),专题主持

[11] 国家基础性工作专项项目“农田长期试验数据的深加工与整编”(2008-2010),专题主持

[12] 国家科技支撑项目“红壤退化的阻控和定向修复与高效优质生态农业关键技术研究与试验示范”(2009-2011),专题主持

四、代表性著作

[1] 张会民,张卫建,黄晶,樊红柱 等著. 典型稻作区土壤肥力时空变化与提升原理. 北京:科学出版社,2022.

[2] 张卫建,张俊,张会民 等著. 稻田土壤培肥与丰产增效耕作理论和技术. 北京: 科学出版社,2021.

[3] 张会民,徐明岗 等著.长期施肥土壤钾素演变. 北京: 中国农业出版社, 2008.

[4] 中国土壤磷素演变与高效利用(参著). 北京: 中国农业出版社,2020.

[5] 红壤稻区绿肥效应及机制-湘南长期冬绿肥-双季稻轮作的启示(参著). 北京:中国农业出版社,2019.

[6] 中国土壤肥力演变(第二版)(参著). 北京: 中国农业科技出版社, 2015

[7] 新开垦土壤绿肥利用技术. (韩国出版) (参编), 韩国IKSAN:Keumsung Graphics,2011

[8] 农田土壤培肥(第一副主编). 北京: 科学出版社, 2009

[9] 农科专业英语(参编). 北京: 气象出版社, 2007

[10] 中国土壤肥力演变(参著). 北京: 中国农业科技出版社, 2006

[11] 土壤与植物营养实验教程(主编). 杨凌:西北农林科技大学出版社, 2004

[12] 园艺土壤肥料学(参编). 北京: 中国农业科技出版社, 1999

五、代表性成果

[1] 水稻土地力分级与培肥改良技术规程,2021.11,农业行业标准,排名第一;

[2] 红壤双季稻田地力提升机制与关键技术,中国农业科学院杰出科技创新奖,2021, 排名第一;

[3] 四川省中低产稻田土壤质量提升关键技术与应用,神农中华农业科技奖三等奖,2020-2021年度,排名第二;

[4] 稻田土壤质量演变特征与地力提升技术创建及应用. 2021.3,四川省科技进步二等奖,第五完成人

[5] 稻田土壤肥力等级划分和培肥技术规程. 2021.7,湖南省地方标准,第五完成人

[6] 一种评估水稻产量的方法. 2019.2,国家发明专利,第一发明人

[7] 土壤培肥与改良创新团队优秀创新团队奖. 2019.12,神农中华农业科技奖,第五完成人。

[8] 我国典型区域农田酸化特征及其防治技术与应用. 2017.11,中国农业科学院杰出科技创新奖,第五完成人

[9] 瘠薄土壤熟化过程及定向快速培育技术研究与应用. 2013,中华农业科技奖科研类成果二等奖,第五完成人

[10] 中国农科院科学技术成果奖一等奖. 2013, 主要完成人

[11] 施肥与改良剂修复Pb、Cd污染土壤技术研究与产品应用. 2011,神农中华农业科技奖一等奖,主要完成人

[12] 红壤酸化防治技术推广与应用. 2010,农业部农业技术推广成果丰收奖一等奖,第三完成人

[13] 河南省高校青年骨干教师资助计划. 2009,第一完成人

[14] 旱地耕作土壤固钾特性及调钾技术研究. 2008,省部级鉴定,第一完成人

[15] 旱地冬小麦施钾增产机理及其技术研究与示范. 2008,省部级鉴定,第一完成人

[16] 河南省优秀教学成果一等奖. 2005,第三完成人

[17] 豫西旱地小麦钾锰配施的增产机理及配套技术研究与应用. 2004,河南省教育厅科技进步二等奖,第一完成人

六、招生专业和研究方向

招生专业:土壤学

研究方向:农业资源与环境

联系方式:

北京市中关村南大街12号中国农业科学院农业资源与农业区划研究所

电话:010-82105039

邮箱: zhanghuimin@caas.cn

zhhm2007@163.com



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