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刘满强

作者: 发稿时间:2019-02-13 访问次数:

刘满强liumq@njau.edu.cn,1975年8月生,山东人,教授,博士生导师。1998年本科毕业于南京农业大学资环学院土壤与农业化学专业,2001年和2005年先后获得土壤学硕士和博士学位。

主要从事土壤生态学的基础应用研究1)干扰和恢复下土壤生物多样性、生物相互作用对功能稳定性的影响;土壤动物的分布、演化和生态功能。2)生态系统地上部和地下部的相互作用机制;碳氮磷转化的生物和非生物调控机制。3)绿肥种类调控和废弃物循环利用对土壤、作物和环境的多功能影响机制。读博期间赴德国吉森大学动物生态研究所参加DFG项目进行土壤有机碳稳定性研究。

2005年-2006年赴英国The James Hutton Institute进行土壤功能稳定性研究;2009年赴该所进行地上和地下部多营养级互作的合作研究。2009-2010年在丹麦哥本哈根大学进行生物入侵及土壤食物网关系的博士后研究。2011年赴爱尔兰环境研究中心进行土壤动物对土壤功能稳定性影响的研究。

主讲本科生《生态学》、《土壤生物与生态学》、《土壤生态学》及研究生《土壤生态学》和《生态学研究进展》课程。Applied Soil Ecology, Rhizosphere及南京农业大学学报编委。现为国际土壤生态学终身会员,中国土壤学会会员,中国生态学会会员,江苏省生态学会副理事长。

主要论文有

[1] Liu, T., Chen, X., Gong, X., Lubbers, I.M., Jiang, Y., Feng, W., Li, X., Whalen, J.K., Bonkowski, M., Griffiths, B.S., Hu, F., Liu, M.*, 2019. Earthworm coordinate soil biota to improve multiple ecosystem functions. Current Biology 29, 3420-3429.

[2] Li, X., Geisen, S., Bellard, C., Hu, F., Li, H., Chen, X., Liu, M.*, 2019. Agriculture erases climate constraints on soil nematode communities across large spatial scales. Global Change Biology DOI: 10.1111/gcb.14821.

[3] Xiao, Z., Jiang, L., Chen, X., Zhang, Y., Defossez, E., Hu, F., Liu, M.*, Rasmann, S., 2019. Earthworms suppress thrips attack on tomato plants by concomitantly modulating soil properties and plant chemistry. Soil Biology and Biochemistry 130, 23-32.

[4] Hu, Z., Chen, X., Yao, J., Zhu, C., Zhu, J., Liu, M.*, 2019. Plant-mediated effects of elevated CO2 and rice cultivars on soil carbon dynamics in a paddy soil. New Phytologist DOI: 10.1111/nph.16298.

[5] Gong, X., Wang, S., Wang, Z., Jiang, Y., Hu, Z., Zheng, Y., Liu, M.*, Scheu, S., 2019. Earthworms modify soil bacterial and fungal communities through enhancing aggregation and buffering pH. Geoderma 347, 59-69.

[6] Shen, D., Ye, C., Hu, Z., Chen, X., Guo, H., Li, J., Du, G., Adl, S., Liu, M.*, 2018. Increased chemical stability but decreased physical protection of soil organic carbon in response to nutrient amendment in a Tibetan alpine meadow. Soil Biology and Biochemistry 126, 11–21.

[7] Liu, T., Chen, X., Qi, L., Chen, F., Liu, M.*, Whalen, J.K., 2018. Root and detritus of transgenic Bt crop did not change nematode abundance and community composition but enhanced trophic connections. Science of the Total Environment 644, 822–829.

[8] Zheng, Y., Wang, S., Bonkowski, M., Chen, X., Griffiths, B., Hu, F., Liu, M.*, 2018. Litter chemistry influences earthworm effects on soil carbon loss and microbial carbon acquisition. Soil Biology and Biochemistry 123, 105–114.

[9] Gong, X., Chen, T.-W., Zieger, S.L., Bluhm, C., Heidemann, K., Schaefer, I., Maraun, M., Liu, M.*, Scheu, S., 2018. Phylogenetic and trophic determinants of gut microbiota in soil oribatid mites. Soil Biology and Biochemistry 123, 155–164.

[10] Yu, D., Qin, C., Ding, Y., Hu, F., Zhang, F., Liu, M. 2018. Revealing species diversity of Tomocerus ocreatus complex (Collembola: Tomoceridae): integrative species delimitation and evaluation of taxonomic characters. Arthropod Systematics & Phylogeny 76, 147–172

[11] Gong, X., Jiang, Y., Zheng, Y., Chen, X., Li, H., Hu, F., Liu, M., Scheu, S., 2018. Earthworms differentially modify the microbiome of arable soils varying in residue management. Soil Biology and Biochemistry 121, 120–129.

[12] Xiao, Z., Wang, X., Koricheva, J., Kergunteuil, A., Le Bayon, R.-C., Liu, M., Hu, F., Rasmann, S., 2018. Earthworms affect plant growth and resistance against herbivores: A meta-analysis. Functional Ecology 32, 150–160.

[13]张宇, 肖正高, 蒋林惠, 钱蕾, 陈小云, 陈法军, 胡锋, 刘满强*. 2018. 施氮水平影响蚯蚓介导的番茄生长及抗虫性. 生物多样性, 26 (12): 1296–1307.

 [14]马超, 龚鑫, 郜红建, 吴婧, 李大明, 陈小云, 李辉信, 刘满强*. 2018. 历史因素对土壤微生物群落与外来细菌入侵间关系的影响. 生态学报, 38(22): 79337941

[15] Jiang, Y., Liu, M., Zhang, J., Chen, Y., Chen, X., Chen, L., Li, H., Zhang, X.-X., Sun, B., 2017. Nematode grazing promotes bacterial community dynamics in soil at the aggregate level. ISME Journal 11, 2705–2717.

[16] Hu, Z., Zhu, C., Chen, X., Bonkowski, M., Griffiths, B., Chen, F., Zhu, J., Hu, S., Hu, F., Liu, M., 2017. Responses of rice paddy micro-food webs to elevated CO2 are modulated by nitrogen fertilization and crop cultivars. Soil Biology and Biochemistry 114, 104–113.

[17] Chen, X., Liu, T., Li, X., Li, H., Chen, F., Liu, M., Whalen, J.K., 2017. Soil nematode community varies between rice cultivars but is not affected by transgenic Bt rice expressing Cry1Ab or Cry1Ab/Cry1Ac. Biology and Fertility of Soils 53, 501–509.

[18] 田善义, 王明伟, 成艳红, 陈小云, 李大明, 胡锋, 刘满强. 2017. 化肥和有机肥长期施用对红壤酶活性的影响. 生态学报, 37, 4963–4972

[19] 王笑, 王帅, 滕明姣, 林小芬, 吴迪, 孙静, 焦加国, 刘满强, 胡锋. 2017. 两种代表性蚯蚓对设施菜地土壤微生物群落结构及理化性质的影响. 生态学报, 37, 5146–5156

[20] Ma C, Li S-p, Pu Z, Tan J, Liu M, Zhou J, Li H, Jiang L. 2016. Different effects of invader–native phylogenetic relatedness on invasion success and impact: a meta-analysis of Darwin’s naturalization hypothesis. Proc. R. Soc. B 283, 20160663.

[21] Xiao, Z., Liu, M., Jiang, L., Chen, X., Griffiths, B.S., Li, H., Hu, F., 2016. Vermicompost increases defense against root-knot nematode (Meloidogyne incognita) in tomato plants. Applied Soil Ecology 105, 177–186.

[22] 蒋林惠, 罗琌, 肖正高, 李大明, 陈小云, 刘满强, 胡锋. 2016. 长期施肥对水稻生长和抗虫性的影响: 解析土壤生物的贡献. 生物多样性, 24, 907–915.

[23] Song, X., Liu, M., Wu, D., Griffiths, B., Jiao, J., Li, H., Hu, F., 2015. Interaction matters: synergy between vermicompost and PGPR agents improves soil quality, crop quality and crop yield in the field. Applied Soil Ecology 89, 25–34

[24] Ma, C., Liu, M., Wang, H., Chen, C., Fan, W., Griffiths, B., Li, H., 2015. Resource utilization capability of bacteria predicts their invasion potential in soil. Soil Biology and Biochemistry 81, 287–290

[25] Huang, J., Liu, M., Chen, X., Chen, J., Li, H., Hu, F., 2015. Effects of intraspecific variation in rice resistance to aboveground herbivore, brown planthopper, and rice root nematodes on plant yield, labile pools of plant and rhizosphere soil. Biology and Fertility of Soils 51, 417–425

[26] Wu, D., Liu, M., Song, X., Jiao, J., Li, H., Hu, F., 2015. Earthworm ecosystem service and dis-service in an N-enriched agroecosystem: increase of plant production leads to no effects on yield-scaled N2O emissions. Soil Biology and Biochemistry 82, 1–8

[27] 王慧, 桂娟, 刘满强, 卢焱焱, 帕提古丽·亚生, 陈小云, 胡锋. 2015. 稻草和三叶草分解对微型土壤动物群落的影响. 土壤学报, 52, 1124–1134.

[28] 陈婧, 陈法军, 刘满强, 冯运, 党志浩, 李辉信, 胡锋. 2014. 温度和CO2浓度升高下转Bt水稻种植对土壤活性碳氮和线虫群落的短期影响. 生态学报, 34, 1481–1489.

[29] Song, X., Liu, M., Wu, D., Qi, L., Ye, C., Jiao, J., Hu, F., 2014. Heavy metal and nutrient changes during vermicomposting animal manure spiked with mushroom residues. Waste Management 34, 1977–1983.

[30] 刘满强, 陈小云, 秦江涛, 黄欠如, 余喜初, 李辉信, 胡锋. 2013. 土壤团聚结构上水溶性有机物的性质及其对有机肥的响应. 中国农业科学, 46, 961–969.

[31] 刘雨迪, 陈小云, 刘满强, 秦江涛, 李辉信, 胡锋. 2013. 不同稻作年限下土壤微生物学性质和线虫群落特征的变化. 生物多样性, 21, 334–342.

[32] Huang, J., Liu, M., Chen, X., Chen, J., Chen, F., Li, H., Hu, F., 2013. Intermediate herbivory intensity of an aboveground pest promotes soil labile resources and microbial biomass via modifying rice growth. Plant and Soil 367, 437–447.

[33] Yang, J., Li, X., Xu, L., Hu, F., Li, H., Liu, M., 2013. Influence of the nitrification inhibitor DMPP on the community composition of ammonia-oxidizing bacteria at microsites with increasing distance from the fertilizer zone. Biology and Fertility of Soils 49, 23–30

[34] Huang, J., Liu, M., Chen, F., Griffiths, B., Chen, X., Johnson, S., Hu, F., 2012. Crop resistance traits modify the effects of an above-ground herbivore, brown planthopper, on soil microbial biomass and nematode community via changes to plant performance. Soil Biology and Biochemistry 49, 157–166.

[35] Liu, M., Chen, X., Griffiths, B.S., Huang, Q., Li, H., Hu, F., 2012. Dynamics of nematode assemblages and soil function in adjacent restored and degraded soils following disturbance. European Journal of Soil Biology 49, 37–46.

[36] Liu, M., Bjørnlund, L., Rønn, R., Christensen, S., Ekelund, F., 2012. Disturbance promotes non-indigenous bacterial invasion in soil microcosms: analysis of the roles of resource availability and community structure. PLoS ONE 7, e45306.

[37] Liu, M., Chen, X., Chen, S., Li, H., Hu, F., 2011. Resource, biological community and soil functional stability dynamics at the soil-litter interface. Acta Ecologica Sinica 31, 347–352.

[38] 陈小云, 郭菊花, 刘满强, 焦加国, 黄欠如, 赖涛, 李辉信, 胡锋. 2011. 施肥对红壤性水稻土有机碳活性和难降解性组分的影响. 土壤学报48, 125-131.

[39] Li, D., Liu, M., Cheng, Y., Wang, D., Qin, J., Jiao, J., Li, H., Hu, F., 2011. Methane emissions from double-rice cropping system under conventional and no tillage in southeastChina. Soil & Tillage Research 113, 77–81.

[40] 刘满强,黄菁华,陈小云,王峰,葛成,苏昱,邵波,汤英,李辉信,胡锋. 2009. 地上部植食者褐飞虱对不同水稻品种土壤线虫群落的影响. 生物多样性17, 431–439.

[41] Liu, M., Hu, F., Chen, X., Huang, Q., Jiao, J., Zhang, B., Li, H. 2009. Organic amendments with reduced chemical fertilizer promote soil microbial development and nutrient availability in a subtropical paddy field: the influence of quantity, type and application time of organic amendments. Applied Soil Ecology 42, 166-175.

[42] Liu, M., Chen, X., Qin, J., Wang, D., Griffiths, B., Hu, F. 2008. A sequential extraction procedure reveals that water management affects soil nematode communities in paddy fields. Applied Soil Ecology 40, 250–259.

[43] 刘满强, 陈小云, 郭菊花, 李辉信, 胡锋. 2007. 土壤生物对土壤有机碳稳定性的影响. 地球科学进展 22, 152–158.

[44] 刘满强, 胡锋, 陈小云. 2007. 土壤有机碳稳定机制研究进展. 生态学报27, 2642–2650.

[45] 陈小云, 刘满强, 胡锋, 毛小芳, 李辉信. 2007. 根际微型土壤动物—原生动物和线虫的生态功能. 生态学报, 27, 3132–3143.

[46] Ekschmitt, K., Liu, M., Vetter, S., Fox, O., Wolters, V. 2005. Strategies used by soil biota to overcome soil organic matter stability-Why is dead organic matter left over in the soil? Geoderma 128, 167–176.

参加或主持的科研项目:

[1] 国家自然科学基金青年基金“水稻土有机碳的生物稳定机制及影响因素”(2006-2008);

[2] 教育部博士点专项基金“蚯蚓产生的可溶性有机物对重金属污染土壤植物修复效率的影响”(2008-2010);

[3] 转基因生物新品种培育科技重大专项“基于土壤动物及其生物标志物的转基因作物检测与安全性监测新技术”子课题(2009-2011);

[4] 国家重点基础研究发展计划专题“新型硝化抑制剂/脲酶抑制剂对肥际微域氮素转化和损失的影响”(2007-2011);

[5] 国家自然科学基金重点项目“稻田土壤有机碳固定与稳定化过程及机制:土壤-作物-微生物相互作用研究”子专题(2009-2012);

[6] 农业部公益性行业科研专项“农业清洁生产与农村废弃物循环利用集成配套技术体系研究与示范”(2010-2013);

[7] 国家自然科学基金“水稻地上和地下部植食者的相互关系、机制及调控研究”(2012-2015);

[8] 中央高校基本科研业务费“根际微动物对水稻地上部植食者的影响机理及土壤生态调控研究”(2012-2015);

[9] 国家自然科学基金“生境调控下红壤食物网结构和功能的时序变化及影响机制”(2014-2017);

[10] 国家重点研发计划“连作障碍抑制作物对养分吸收利用机理与消减技术”(2016-2020);

[11] 国家绿肥产业技术体系项目:“旱地土壤及肥水管理岗位”(2017-2020)

[12] 国家自然科学基金面上项目:“蚯蚓介导的土壤过程对植物生长和抗(虫)性的影响”(2018-2021)。


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