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  • 职  称: 副教授
  • 所在部门: 植物学
  •  办公室: 天演楼218
  • 联系电话:
  • 传真号码:
  • 电子邮件: [email protected]
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学习经历

2007.07-2011.07 兰州大学,博士,植物学

2005.07-2007.07 兰州大学,硕士,生物化学

2001.09-2005.07 兰州大学,本科,生物科学

工作经历

2011.07-2019.11 宁夏大学生命科学学院,副教授

2019.11至今   兰州大学生命科学学院,副教授

社会工作
研究方向

1、植物逆境生理

2、植物-微生物互作

3、植物-土壤反馈

项目成果

5- 黑粉菌hfj311缓解植物镉胁迫的效应分子及机制研究,姚高明校友基金,主持,经费7万元,执行年限2021.01-2021.12(在研)

4- 枸杞连作障碍的土壤微生物生态学机制研究,国家自然科学基金(地区项目),主持,31760612,直接经费38万,执行年限2018.01-2021.12(在研)

3- 生物质碳缓解枸杞连作障碍的微生物生态学机制研究,宁夏自然科学基金,主持,2018aac03015,直接经费4万,执行年限2018.07-2020.07(已结题)

2- 自毒作用在枸杞连作障碍中的作用及机制研究, 国家自然科学基金(地区项目),主持,31560345,直接经费38万,执行年限2016.01-2019.12(已结题)

1- 旱地土壤真菌多样性对枸杞种植的响应机制研究,宁夏自然科学基金(重点项目),主持,nz12115,直接经费6万,执行年限2012.09-2014.09(已结题)

荣誉、获奖
教学及指导研究生情况

参与本科生专业课《植物生物学》及植物学实验的教学工作

 

发表论文及专著

19- wang s*, na x*, yang l, liang c, he l, jin j, liu z, qin j, wang x, bi y. (2021). bacillus megaterium strain ww1211 promotes plant growth and lateral root initiation via regulation of auxin biosynthesis and redistribution. plant and soil. 466:491–504

18- na x, ma s, ma c, liu z, xu p, zhu h, liang w, kardol p. (2021). lycium barbarum l.(goji berry) monocropping causes microbial diversity loss and induces fusarium spp. enrichment at distinct soil layers. applied soil ecology. 168:104107.

17- li x, wang l, wang m, zhang z, ma c, ma x, na x, liang w (2021). global analysis of protein succinylation modification of nostoc flagelliforme in response to dehydration. journal of proteomics. 237:104149.

16- huang j, xu y, yu h, zhu w, wang p, wang b, na x (2021). soil prokaryotic community shows no response to 2 years of simulated nitrogen deposition in an arid ecosystem in northwestern china. environmental microbiology. 23(2): 1222-1237.

15- na x, ma c, ma s, ma x, zhu x, xu p, zhu h, liang w (2019). monocropping decouples plant–bacteria interaction and strengthens phytopathogenic fungi colonization in the rhizosphere of a perennial plant species. plant and soil, 445(1), 549-564.

14- na x, yu h, wang p, zhu w, niu y, huang j (2019). vegetation biomass and soil moisture coregulate bacterial community succession under altered precipitation regimes in a desert steppe in northwestern china. soil biology and biochemistry, 136: 107520.

13- na x*, cao x*, ma c, ma s, xu p, liu s, wang j, wang h, chen l, qiao z (2019). plant stage, not drought stress, determines the effect of cultivars on bacterial community diversity in the rhizosphere of broomcorn millet (panicum miliaceum l.). frontiers in microbiology, 10: 828.

12- na x, xu t, li m, zhou z, ma s, wang j, he j, jiao b, ma f (2018). variations of bacterial community diversity within the rhizosphere of three phylogenetically related perennial shrub plant species across environmental gradients. frontiers in microbiology, 9:709.

11- na x, li x, zhang z, li m, kardol p, xu t, wang m, cao x, ma f (2017). bacterial community dynamics in the rhizosphere of a long-lived, leguminous shrub across a 40-year age sequence. journal of soils & sediments, (1):1-9.

10- na x, xu t, li m, ma f, kardol p (2017). bacterial diversity in the rhizosphere of two phylogenetically closely related plant species across environmental gradients. journal of soils & sediments, 17(1):122-132.

9- cao x, wang j, wang h, liu s, chen l, tian x, qin h, na x, qiao z (2017). the complete chloroplast genome of panicum miliaceum. mitochondrial dna part b, 2(1):43-45.

8- cao x, fei m, xu t, wang j, liu s, li g, su q, qiao z, na x(2016). transcriptomic analysis reveals key early events of narciclasine signaling in arabidopsis, root apex. plant cell reports, 35(11):1-21.

7- ma f*, na x*, xu t (2016). drought responses of three closely related caragana species: implication for their vicarious distribution. ecology & evolution, 6(9):2763-2773.

6- na x, jian b, yao w, wu c, hou w, jiang b, bi y, han t (2013). cloning and functional analysis of the flowering gene gmsoc1-like, a putative suppressor of overexpression co1/agamous-like 20 (soc1/agl20) ortholog in soybean. plant cell reports, 32(8):1219.

5- na x, hu y, yue k, lu h, jia p, wang h, wang x, bi y (2011). narciclasine modulates polar auxin transport in arabidopsis roots. journal of plant physiology, 168(11):1149-1156.

4- na x, hu y, yue k, lu h, jia p, wang h, wang x, bi y (2011). concentration-dependent effects of narciclasine on cell cycle progression in arabidopsis, root tips. bmc plant biology, 11(1):184.

3- hu y, yang l, na x, you j, hu w, liang x, liu j, mao l, wang x, wang h, bi y (2012). narciclasine inhibits the responses of arabidopsis roots to auxin. planta, 236(2):597.

2- lu h, wan q, wang h, na x, wang x, bi y (2012). oxidative stress and mitochondrial dysfunctions are early events in narciclasine-induced programmed cell death in tobacco bright yellow-2 cells. physiologia plantarum, 144(1):48–58.

1- hu y, na x, li j, yang l, you j, liang x, wang j, peng l, bi y (2015). narciclasine, a potential allelochemical, affects subcellular trafficking of auxin transporter proteins and actin cytoskeleton dynamics in arabidopsis roots. planta, 242(6):1349-60.

corresponded author

* equal contribution

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