师资队伍

COLLEGE OF LIFE SCIENCES
师资概况
专家人才
植物生物学
微生物学
生化与分子
动物生物学
实验中心
兼职教授
退休教授
师德师风
教师风采
副高职称

娄来清/副教授

发布时间:2022年10月10日 15:42 | 编辑:成丹 | 作者:

娄来清,博士,副教授,硕士研究生导师。2008年毕业于香港浸会大学,获得博士学位。长期从事污染环境的生物修复、农作物污染控制、植物对重金属的耐性机制等方面的研究工作。近年来在国内外学术刊物如Journal of Hazardous Materials, Chemosphere, Science of the Total Environment 等发表论文40余篇;参编教材3部。

联系方式:loulq@njau.edu.cn

受教育和工作经历

      2012-至今,美高梅mgm1888网站,副教授

      2008-2011,美高梅mgm1888网站,讲师

      2004-2008,香港浸会大学,研究生/博士

      2002-2004,美高梅mgm1888网站,助理实验师

      1999-2002,美高梅mgm1888网站,研究生/硕士

      1995-1999,山东农业大学,本科/学士

研究方向

    1)植物对逆境的耐性机制;

    2)农作物污染控制;

    3)根际微生物对植物重金属耐性的调控及其机制;


教学情况


讲授课程

本科生:植物生理学、植物生理学实验、科技论文写作;研究生:现代植物学实验技术,植物与发育



参编教材

植物生理学(专业“十二五”规划系列教材),蔡庆生主编,中国农业大学出版社,2014,参编。

植物生理学实验 (普通高等学校精品课程建设教材),蔡庆生主编,中国农业大学出版社,2013,参编。

现代植物生理学(普通高等教育“十一五”国家级规划教材),李合生,王学奎主编,第4版,高等教育出版社,2019,参编




科研情况


主持和参与的项目

(1) 国家重点研发计划子课题“重金属低积累农作物与Cd 富集植物间套种对重度Cd污染农田的植物阻控与污染土壤修复技术与机理研究”,2016-2020,参加;

(2) 中央高校基本科研业务费“硅转运蛋白阻遏低积累小麦籽粒砷积累的机制”, 2016-2018,主持;

(3) 江苏省科技支撑计划-社会发展项目“建立水稻-黑麦草复种模式、利用植物促生菌调控——修复稻田重金属污染土壤的技术研究”,2014-2017,参加;

(4) 国家自然科学基金面上项目“耐镉胁迫的生物质能源植物柳枝稷种质资源挖掘及其生理与分子基础研究”,2014-2017,参加;

(5) 江苏省自然科学基金“同品种小麦砷耐性和积累的遗传学差异及其机制”, 2013-2016,主持;

(6) 国家自然科学基金青年项目“低砷积累小麦品种对砷的阻遏机制”,2013-2015,主持;


代表性论文 (一作或通讯)

(1) Shi GL, Li DJ, Wang YF, Liu CH, Hu ZB, Lou LQ*, Rengel Z, Cai QS. Accumulation and distribution of arsenic and cadmium in winter wheat (Triticum aestivum L.) at different developmental stages, Science of the Total Environment, 2019, 667, 532-539

(2) Shi G, Ma H, Chen Y, Liu H, Song G, Cai Q, Lou L*, Rengel Z. Low arsenate influx rate and high phosphorus concentration in wheat (Triticum aestivum L.): A mechanism for arsenate tolerance in wheat plants, Chemosphere, 2019, 214, 94-102

(3) Nahmina Begum*, Zhaoyang Hu, Qingsheng Cai*, Laiqing Lou*, Influence of PGPB inoculation on HSP70 and HMA3 gene expression in switchgrass under cadmium stress, Plants-Basel, 2019, 8(11), 504

(4) Begum N, Afzal S, Zhao H, Lou L*, Cai Q*. Shoot endophytic plant growth-promoting bacteria reduce cadmium toxicity and enhance switchgrass (Panicum virgatum L.) biomass, Acta Physiologiae Plantarum, 2018, 40(9), 170

(5) Shi GL#, Lou LQ#,*, Li DJ, Hu ZB, Cai QS*. Phytochelatins play key roles for the difference in root arsenic accumulation of different Triticum aestivum cultivars in comparison with arsenate uptake kinetics and reduction. Chemosphere, 2017,175: 192-199

(6) Afzal S, Begum N, Zhao H, Fang Z, Lou L*, Cai Q*. Influence of endophytic root bacteria on the growth, cadmium tolerance and uptake of switchgrass (Panicum virgatum L.) , Journal of Applied Microbiology, 2017, 123 (2): 498~510

(7) Shi G.L., Zhu S., Bai S.N., Xia Y., Lou L.Q.*, Cai Q.S.*,The  transportation and accumulation of arsenic, cadmium, andphosphorus in 12 wheat  cultivars  and  their  relationships  with  each other. Journal of Hazardous Materials, 299, 94–102, 2015.

(8) Shi G.L., Zhu S., Meng J.R., Qian M., Yang N., Lou L.Q.*, Cai Q.S.*, Variation in arsenic accumulation and translocation among wheat cultivars: The relationship between arsenic accumulation, ef?ux by wheat roots and arsenate tolerance of wheat seedlings. Journal of Hazardous Materials, 289, 190–196, 2015.

(9) Lou L.Q.*, Shi G.L., Wu J.H., Zhu S., Qian M., Wang H.Z., Cai Q.S.*, The in?uence of phosphorus on arsenic uptake/ef?ux and As toxicity to wheat roots in comparison with sulfur and silicon. Journal of Plant Growth Regulation, 2015, 34, 242-250

(10) Shi G.L., Lou L.Q.*, Zhang S., Xia X.W., Cai Q.S.*, 2013. Arsenic, copper, and zinc contamination in soil and wheat during coal mining, with assessment of health risks for the inhibitants of  Huaibei, China. Environmental Science and Pollution Research, 20, 8435–8445.

(11) Jiang L., Shi G.R., Ding Y.L., Lou L.Q.* and Cai Q.S.*, 2013. Differential responses of two bamboo species (Phyllostachys  Auresulcata and Pleioblastus Chino) to excess copper. Bioenergy Resources, 6, 1223–1229.

(12) Lou, L.Q., Ye, Z.H., Lin, A.J., Wong, M.H., 2010. Interaction of As and P on their uptake and accumulation in Pteris vittata L. International Journal of Phytoremediation, 12, 487-502.

(13) Lou, L.Q., Ye, Z.H., Wong, M.H., 2009. A comparison of arsenic tolerance, uptake and accumulation between arsenic hyperaccumulator, Pteris vittata L. and non-accumulator, P. semipinnata L.-A hydroponic study. Journal of Hazardous Materials, 171, 436–442.

(14) Lou, L.Q., Ye, Z.H., Wong, M.H., 2007. Solubility and accumulation of metals in Chinese brake fern, vetiver and rostrate sesbania using chelating agents. International Journal of Phytoremediation, 9, 325-343.

(15) Lou, L.Q., Shen, Z.G., Li, X.D., 2004. The copper tolerance and mechanisms of Elsholtzia haichowensis, a plant from copper-enriched soils. Environmental and Experimental Botany, 51, 111-120.

(16) 李思妍,史高玲,娄来清*,蔡庆生. P、Fe及水分对土壤砷有效性和小麦砷吸收的影响. 农业环境科学学报,2018,37(3):415-422




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