何敏艷,女,中國科學院武漢植物園副研究員。2022年1月至今擔任 中國科學院武漢植物園, 入侵生態學, 副研究員。研究領域是外來植物入侵機制及生物防治生態安全。
基本介紹
人物經歷,研究領域,主要貢獻,承擔科研項目,代表論著,
人物經歷
2022年1月至今, 中國科學院武漢植物園, 入侵生態學, 副研究員;
2011年3月-2021年12月, 中國科學院武漢植物園, 入侵生態學, 助理研究員;
2005年9月-2010年12月, 華中農業大學, 環境微生物, 博士;
2001年9月- 2005年6月, 華中農業大學, 生物工程, 學士。
研究領域
外來植物入侵機制及生物防治生態安全
主要貢獻
承擔科研項目
1、國家自然科學基金青年項目:入侵植物空心蓮子草介導的新型地上-地下植食者互和及其機制研究(2015-2017),主持。
2、國家自然科學基金面上項目:外來植物空心蓮子草入侵的土壤微生物學機制及生態學效應(2019-2022),主持。
代表論著
1. He M, Zhang J, Siemann E, Yi J, Qin W, Sun X, Ding J, Huang W.(2021) Herbivory of a biocontrol agent on a native plant causes an indirect trait-mediated non-target effect on a native insect. Journal of Ecology, 109: 2692-2704.
2.LuX,He M, DingJ, SiemannE. (2018) Latitudinal variation in soil biota: testing the biotic interaction hypothesis with an invasive plant and a native congener. The ISME Journal, 12: 2811-2822.(#並列第一作者).
3. He M, ChenJ,Ding J,LuX.(2018)Differing interactions between an introduced beetle and a resident root nematode mediated by an invasive plant and its native congener.Plant Ecology, 219: 803-812.
4. He M, DingJ, LuX. (2014)Increased compensatory ability of an invasive plant to above- and below-ground enemies in monocultures.Plant Ecology, 215: 253-260.
5. Lu X, He M, Tang S, Wu Y, Shao X, Wei H, Siemann E, Ding J. (2019) Herbivory may promote a non-native plant invasion at low but not high latitudes. Annals of Botany, 124: 819–827.
6. Lu X, Siemann E, He M, Wei H, Shao X, Ding J. (2016) Warming benefits a native species competing with an invasive congener in the presence of a biocontrol beetle. New Phytologist, 211: 1371–1381.
7. Wei H, He M, LuX,DingJ. (2016) Differences in interactions of aboveground and belowgroundherbivores on the invasive plant Alternanthera philoxeroides and native host A. sessilis..Biol Invasions, 18:3437–3447.
8. Lu X, Siemann E, He M, Wei H, Shao X, Ding J. (2015) Climate warming increases biological control agent impact on a non-target species. Ecology letters, 18: 48-56.
9. He M, Li X, Liu H, Miller SJ, Wang G, Rensing C. (2011) Characterization and genomic analysis of a highly chromate resistant and reducing bacterial strain Lysinibacillus fusiformis ZC1. Journal of Hazardous Materials, 185: 682-688.
10. He M, Li X, Guo L, Miller SJ, Rensing C, Wang G. (2010) Characterization andgenomic analysis of chromate resistant and reducing Bacillus cereus strain SJ1.BMC Microbiology,10: 221.
11. Xiong J, Li D, Li H, He M, Miller SJ, Yu L, Rensing C, Wang G. (2011). Genomeanalysis and characterization of zinc efflux systems of a highly zinc-resistantbacterium, Comamonastestosteroni S44. Research in Microbiology,162: 671-679.
12. Zhou Y, Yao J, He M, Choi Martin MF, Feng L, Chen H, Wang F, Chen K,Zhuang R, Maskow T, Wang G, Zaray G. (2010) Reduction in toxicity ofarsenic(III) to Halobacillus sp. Y35 by kaolin and their related adsorption studies.Journal of Hazardous Materials,176: 487-494.
13. Yang Y, Zou Z, He M, Wang G. (2010) Pontibacillus yanchengensis sp. nov., amoderately halophilic bacterium isolated from Yancheng salt field soil, SoutheastChina. International Journal of Systematic Evolutionary Microbiology,61:1906-1911.
14.Yang J, He M, Wang G. (2009) Removal of toxic chromate using free animmobilized Cr (VI) reducing bacterial cells of Intrasporangium sp. Q5-1. World Journal ofMicrobiology and Biotechnology, 25: 1579-1587.
