删除或更新信息,请邮件至freekaoyan#163.com(#换成@)

南京农业大学资源与环境科学学院导师教师师资介绍简介-李真

/2021-03-27


Curriculum Vitae of Zhen Li

李真
江苏南京市卫岗 1 号 南京农业大学资环学院
办公室:资环学院大楼A219 E-mail: lizhen@njau.edu.cn Tel:025-84399827


李真博士主要结合磷灰石,解磷真菌,以及其他微生物在土壤中研究磷(包括磷与碳氮的耦合)的地球化学和生态循环。在基础研究上主要解析
1)磷素的高效释放机理;2)微生物-矿物/金属-土壤相互作用;3)磷元素的生物矿化过程。在应用层次主要研究 1)高效磷肥的开发;2)基于高效磷素释放的重金属土壤修复;3)含磷固体废弃物的处理。

教育与工作经历

● 2001-2005,南京大学地球科学系地质学国家理科人才培养基地 理学学士
● 2005-2008,(免试保送)南京大学地球科学系 地球探测与信息技术专业 工学硕士
● 2008.8-2013.12, 圣路易斯华盛顿大学 地球与行星科学系 哲学博士
● 2014.6-2016.12,南京农业大学土壤与生态学系 讲师
● 2016.12- 南京农业大学土壤与生态学系 副教授

学术兼职与服务

● 美国矿物学协会 会员
● Scientific Reports 学术编委 (矿物与土壤科学)
● Goldschmidt2020 微生物-矿物-金属 会场 召集人
● 哈萨克斯坦国家科学技术评估中心外审专家
● 江苏省耕地土壤污染治理专家库专家
● EI, JHM, EP, STOTEN, ACS, Chemosphere, PoulSci, MSEC, ESPR, EnvRev, JSSP, CCM,
JMS 等杂志同行评议。近三年年均 SCI 审稿量 = 34


获奖经历

● 华盛顿大学 Wheeler 奖学金 (2008-2012)
● 华盛顿大学优秀助教 (2009-2010)
● 华盛顿大学毕业论文奖学金 (2013)
● 江苏双创博士计划 (2015)
● 南京市留学人员择优项目(2015)
● 全国高校农林类专业微课教学比赛一等奖 (最高奖) (2017)
● 南京农业大学本科生毕业论文特等奖以及江苏省二等奖指导老师(2018)
● 国家精品在线开放课程”土壤、地质与生态学综合实习” 地质学部分(2018)

Curriculum Vitae of Zhen Li

● 南京农业大学优秀学生教育管理工作者(2018)
● 梅特勒-托利多全国论文比赛二等奖(2018)
● 南京农业大学本科生毕业论文一等奖指导老师 (2019)
● 研究生国家奖学金获得者指导老师 (2017, 2018, 2019)

主持项目

● 2015,国家 973 重大专项子课题专题,No.2015CB150504, ¥920,000
● 2015,教育部留学人员回国基金 (生物磷灰石重金属沉积),¥35,000
● 2015,南京市留学人员择优项目(基于矿物的土壤修复),¥20,000
● 2015,江苏省青年基金(土壤磷循环),No.BK20150683, ¥200,000
● 2015,江苏双创博士,¥150,000
● 2016,南京大学内生矿床国家重点实验室开放基金,No.21-16-07,¥100,000
● 2017,中国博士后面上基金一等资助(解磷菌),No. 2017M610330, ¥80,000
● 2017,中央高校基本业务费重点项目(解磷菌),No. KYZ201712, ¥90,000
● 2017,江苏省大学生创新业训练计划(土壤修复),No. 201710307003P, ¥50,000
● 2015,横向项目,¥550,000
● 2017, NJAU-MSU Asia Hub, ¥330,000
● 2018,江苏省大学生创新业训练计划(土壤修复),No. 201810307004P, ¥50,000



已授权国家发明专利

● 2016,李真,一种提高磷肥磷元素释放效率的方法,ZL2014104588239
● 2018,李真,一种基于粘土和磷灰石的土壤修复材料及其制备方法, ZL2014104139475
● 2018,李真等,一种矿物修复剂及其制备方法和应用,ZL2015108973545


毕业学生去向

● 2017,本科生:孟士婷(保送北师大);张俐(日本九州大学,全奖);胡云潇(卡塞尔大学)
研究生:李桥(华中农大读博,协助指导)

● 2018,本科生:张馨玉(保送上交大);唐凌逸(保送南农,清华联培);张帆(南农);马硕嘉(上师大);郑扬凡(就业)
研究生:王书杰(南农读博,协助指导);段晓芳(南大读博,协助指导)


2019,本科生:蒋柳(马里兰大学,博士全奖);吴袁依(帝国理工);邹湘(保送浙大);赖桢媛(浙大);郭洁芸(保送南大);杨梦影(保送浙大);田维韬(保送复旦);王志军(南农);刘树展(就业);彭瑾钰
(就业)
研究生:苏慕(南农读博,协助指导);蒋中权(提前攻博);吴义玲(就业)

Curriculum Vitae of Zhen Li

博士生:田达(安徽农大讲师,协助指导);陈颢明(南理工讲师,协助指导);

● 2020,本科生:邵晓晴(多伦多大学,博士全奖);宋芯玮(保送浙大);张佳雯
(保送浙大);韩飞宇(南农);马菁(华南农大);杨辉(就业)









































Curriculum Vitae of Zhen Li


Below is the English version:

Zhen Li
College of Resources & Environmental Sciences
Ecosystem Ecology Lab at NJAU
Nanjing Agricultural University
#1 Weigang, 210095, Nanjing, China Email: lizhen@njau.edu.cn
Tel: +86-25-84399827
Office: Room A219

Google Scholar: https://scholar.google.com/citations?hl=en&user=FL3HAhMAAAAJ
ResearchGate:http://www.researchgate.net/profile/Zhen_Li54
Publons: https://publons.com/researcher/2222311/zhen-li/


Employer:
? 2014.06 – 2016.12, Lecturer, Nanjing Agricultural University
? 2012.12-, Associate Professor, Nanjing Agricultural University

Education:
? Ph.D., 2008-2013, Earth and Planetary Sciences, Washington University in St. Louis
? M.E., 2005-2008, Applied Mineralogy, Nanjing University
? B.S., 2001-2005, Geology, Nanjing University

Teaching Courses:
? Academic English in Ecology
? Biogeochemistry
? Environmental Geology

Membership & Society Service:
? Member of Mineralogical Society of America
? Editor Member (in Mineralogy and Soil Sciences), Scientific Reports

Awards:
? The Double Innovation Talent Program of Jiangsu Province (2015)
? Dissertation Fellowship at WUSTL (2013)
? Outstanding Performance of Teaching Assistant at WUSTL (2010)

Oral Presentations
? 2019 Sep 22nd, ENPE, Wuhan, China
? 2019 Aug 21st, Goldschmidt, Barcelona, Spain
? 2019 Aug 9th, ISEG, Beijing, China
? 2019 May 8th, ICOBTE, Nanjing, China
? 2019 May 4th, Tsinghua Forum of Environmental Remediation, Beijing, China

Curriculum Vitae of Zhen Li

? 2018 Oct 12th, 2nd ISWSGS, Nanjing, China
? 2018 Aug 14th, Goldschmidt, Boston, MA, US
? 2017 Oct, 7th Agro-Environmental Sciences, Guiyang, China
? 2017 Oct, 9th NCEC, Hangzhou, China
? 2017 Mar, 1st ENPE, Nanjing, China
? 2016 Sep, 13rd Soil Society Conference, Xi’an, China
? 2014 Oct, Mineralogical Science and Engineering, Nanjing, China
? 2014 June, Goldschmidt, Sacramento, CA U.S.
? 2014 June, XI GeoRaman, Saint Louis, MO U.S.
? 2014 July, 12th ICSLR, Beijing, China

Research Interests:
? Environmental Microbiology
? Environmental Mineralogy
? Soil Remediation
? Phosphorous Biogeochemistry

Grants:
? 2017-2019, Direction on Jiangsu Undergraduate Research, ¥150,000
? 2017, NJAU-MSU Asia Hub, ¥330,000
? 2016, Analytical fund of State Key Laboratory for Mineral Deposits Research, Nanjing University,
¥100,000
? 2015-2019, National Program on Key Basic Research Project, No. 2015CB150504,
¥900,000
? 2015, Scientific Research Foundation for the Returned Overseas Chinese Scholars, State Education
Ministry, ¥35,000
? 2015, Analytical fund of CAGS, ¥90,000
? 2015, Distinguished Project for Returned Scholars, Nanjing, ¥20,000
? 2015-2018, Natural Science Foundation of Jiangsu Province, No. BK20150683,
¥200,000
? 2015-2017, The Double Innovation Talent Program of Jiangsu Province, ¥150,000

Authorized Patents:
[1] 2016, Li Z. A method of enhancing P release from apatite, ZL201410458823.9.

[2] 2018, Li Z. A new material for heavy metal remediation based on apatite and clay minerals,
ZL2014104139475

Curriculum Vitae of Zhen Li

Representative Publications (*: Corresponding):

[41] Chen H.M., Tang L.Y., Wang Z.J., Su M., Tian D., Zhang L., Li Z.* (2020)
Evaluating the protection of bacteria from extreme Cd (II) stress by P-enriched biochar,
Environmental Pollution. 263: 114483.
[40] Jiang Z.Q., Wang T., Sun Y.L., Nong Y., Tang L.Y., Gu T.T.*, Wang S.M., Li Z.* (2020)
Application of Pb(II) to probe the physiological responses of fungal intracellular vesicles,
Ecotoxicology and Environmental Safety. 194: 110441.
[39] Jiang Z.Q.#, Jiang L.#, Zhang L., Su M., Tian D., Wang T., Sun Y.L., Nong Y., Hu S.J., Wang
S.M., Li Z.* (2020) Contrasting the Pb (II) and Cd (II) tolerance of Enterobacter sp.
via its cellular stress responses, Environ Microbiol. 22(4): 1507-1516.
[38] Wu Y.L.#, Shao X.Q. #, Jiao H., Song X.W., He K., Li Z.* (2020) Tracking the
fungus-assisted biocorrosion of lead metal by RISE technique, J. Raman Spectroscopy, 51: 508-513
(Featured Cover).
[37] Okolie C., Chen H.M., Zhao Y.X., Tian D., Zhang L., Su M., Jiang Z.Q., Li Z.*, Li
H.X. (2020) Cadmium immobilization in aqueous solution by Aspergillus niger and
geological fluorapatite, Environ. Sci. Pollut. Res. 27: 7647-7656.
[36] Tang L.Y., Zhang L., Yue M., Tian D., Su M., Li Z.*(2019) New insights into the ultrastructure
of bioapatite after partial dissolution: based on whale rostrum, the densest bone, Microscopy &
Microanalysis, 25: 1323-1330.
[35] Chen H.M., Zhang J.W., Tang L.Y., Su M., Tian D., Zhang L., Li Z.*, Hu S.J. (2019) Enhanced Pb
immobilization via the combination of biochar and phosphate solubilizing bacteria, Environ. Int.,
127: 395-401.
[34] Li C.K., Li Q.S., Wang Z.P., Ji G.N., Zhao H., Gao F., Su M., Jiao J.G.*, Li Z.*, Li
H.X. (2019) Environmental fungi and bacteria facilitate lecithin decomposition and the
transformation of phosphorus to apatite, Sci Rep., 9: 15291.
[33] Tang L.Y., Shen Z.T., Duan X.F., Wang Z.J., Wu Y.Y., Shao X.Q., Song X.W., Hu S.J., Li Z.*
(2019) Evaluating the potential of charred bone as P hotspot assisted by
phosphate-solubilizing bacteria, Science of the Total Environ., 696: 133965.
[32] Zhang L., Song X.W., Shao X.Q., Wu Y.L., Zhang X.Y., Wang S.M., Pan J.J., Hu S.J., Li Z.*
(2019) Lead immobilization assisted by fungal decomposition of organophosphate under
various pH values, Sci. Rep., 9: 13353.
[31] Wang S.J., Hu Y.X., Wu Y.L., Liu YW., Liu G.P., Yan Z.J., Li Q., Zhou Z.L.*, Li Z.* (2019)
Influences of bioapatite mineral and fibril structure on the mechanical properties of
chicken bone during the laying period, Poultry Sci., 98: 6393-6399.

Curriculum Vitae of Zhen Li

[30] Su M., Han F.Y., Wu Y.L., Yan Z.P., Lv Z.S., Tian D., Wang S.M., Hu S.J., Shen Z.T., Li Z.*
(2019) Effects of phosphate-solubilizing bacteria on phosphorous release and sorption on
montmorillonite, Applied Clay Sci., 181: 105227
[29] Zhang L., Hu Y.X., Han F.Y., Wu Y.L., Tian D., Su M., Wang S.M., Li Z.*, Hu S.J. (2019)
Influences of multiple clay minerals on the phosphorus transport driven by Aspergillus
niger, Applied Clay Sci., 177: 12-18.
[28] Li J.J., Jiang Z.Q., Chen S.S., Wang T., Jiang L., Wang M.X., Wang S.M.*, Li Z. * (2019)
Biochemical changes of polysaccharides and proteins within EPS under Pb (II) stress in
Rhodotorula mucilaginosa, Ecotoxicol. Environ. Safety, 174: 484-490.
[27] Li Q., Xia J.F., Wang S.J., Zhou Z.L.*, Li Z*. (2019) Letrozole induced changes in bone
mineral properties and mechanical functions of laying hens, Poultry Sci., 98: 2562- 2569.
[26] Guo C.M., Tian W.T., Wang Z.J., Han F.Y., Su M., Wu Y.L., Li Z.*, Hu S.J. (2019) Reduction of
Pb availability during surficial leaching in different types of soils with addition of
apatite and oxalic acid, J. Soils Sediment. 19(2): 741-749.
[25] Tian D., Jiang Z.Q., Jiang L., Su M., Feng Z.Y., Zhang L., Wang S.M.*, Li Z. *, Hu
S.J. (2019) A new insight into lead (II) tolerance of environmental fungi based on a study of
Aspergillus niger and Penicillium oxalicum, Environ. Microbiol., 21(1): 471-479.
[24] Wang S.J., Liu, M.H., Tian D., Su M., Li Q., Li Z.*, Zhou Z.L.* (2019) Identifying the
initiation and aging during laying period of hens by Raman analysis on their beaks, J. Poultry
Sci., 56: 159-165.
[23] Tian D., Lai Z.Y., Zou X., Guo C.M., Yang L.Y., Su M., Li Z.*, Hu S.J. (2018) A contrast of
lead immobilization via bioapatite under elevated CO2 between acidic and alkaline soils,
Soil Use Managem., 34: 542-544.
[22] Zhang X.Y., Zhang L., Zou X., Han F.Y., Yan Z.P., Li Z.*, Hu S.J.* (2018) Semi- quantitative
analysis of microbial production of oxalic acid by montmorillonite sorption and ATR-IR, Appl. Clay
Sci., 162: 518-523.

[21] Li Z.*, Su M., Duan X.F., Tian D., Yang M.Y., Guo J.Y., Wang S.M.*, Hu S.J.* (2018), Induced
biotransformation of lead (II) by Enterobacter sp. in SO4-PO4-Cl solution, J. Hazard.
Mater., 357: 491-497.

[20] Tian D., Wang W.C., Su M., Zheng J.Y., Wu Y.Y., Wang S.M.*, Li Z.*, Hu S.J. (2018)
Remediation of lead-contaminated water by geological fluorapatite and fungus Penicillium
oxalicum, Environ. Sci. Pollut. Res., 25: 21118-21126.

Curriculum Vitae of Zhen Li

[19] Tang L.Y., Duan X.F., Kong F.J., Zhang F., Zheng Y.F., Li Z.*, Mei Y.*, Zhao
Y.W.*, Hu S.J. (2018) Influences of climate change on area variation of Qinghai Lake on
Qinghai-Tibetan Plateau since1980s, Sci. Rep., 7331.

[18] Shen Z.T., Li Z.*, Alessi D.S. (2018) Stabilization-based soil remediation should
consider longterm challenges, Front. Environ. Sci. Eng., 12(2): 16.

[17] Li Z., Deng Z.L., Chen S.S., Yang H., Zheng Y.F., Dai L.T., Zhang F., Wang S.M.*, Hu S.J.*
(2018) Contrasting physical and biochemical properties of orchard soils suppressive and
conducive to Fusarium wilt of banana, Soil Use Managem., 34: 154-162.

[16] Shen Z.T., Tian D., Zhang X.Y., Tang L.Y., Su M., Zhang L., Li Z*, Hu S.J.*, Hou
D.Y. (2018) Mechanisms of biochar assisted immobilization of Pb2+ by bioapatite in
aqueous solution, Chemosphere, 190, 260-266.

[15] Li Z., Su M., Tian D., Tang L.Y., Zhang L., Zheng Y.F., Hu S.J.* (2017) Effects of elevated
atmospheric CO2 on dissolution of geological fluorapatite in water and soil. Sci. Total Environ.,
599-600: 1382-1397.

[14] Li Q., Lu L., Xie S.D., Zhang P.H., Wang S.J., Zhang X.Y., Zhou Z.L.*, Li Z*.
(2017) Mineralogical changes of bioapatite in femoral bones of mice during pregnancy, Spectros.
Lett., 50(6), 336-341.

[13] Li Z.*, Tang L.Y., Zheng Y.F., Tian D., Su M., Zhang F., Ma S.J., Hu S.J.* (2017)
Characterizing the mechanisms of lead immobilization via bioapatite and various clay
minerals, ACS Earth Space Chem., 1, 152-157.

[12] Wang S.J., Zhang P.H., Kong X.F., Xie S.D., Li Q., Li Z*, Zhou Z.L.* (2017)
Delicate changes of bioapatite mineral in pig femur with addition of dietary
xylooligosaccharide: Evidences from Raman spectroscopy and ICP, Animal Sci. J., 88(11),
1820-1826.

[11] Chen W.K., Wang Q.Z., Meng S.T., Yang P., Jiang L., Zou X., Li Z*, Hu S.J.*
(2017) Temperature-related changes of Ca and P release in synthesized hydroxylapatite, geological
fluorapatite, and bone bioapatite, Chem. Geol., 451:183-188.

[10] Zheng W.J., Yang H., Xuan G.H., Dai L.T., Hu Y.X., Hu S.J., Zhong S.K., Li Z*., Gao M.Y.,
Wang S.M., Feng Y*. (2017) Longitudinal study of the effects of environmental
pH on the mechanical properties of Aspergillus niger. ACS Biomater. Sci. Engineer., 3: 2974-2979.

[9] Li Z., Wang F.W., Bai T.S., et al. (2016) Lead immobilization by geological
fluorapatite and fungus Aspergillus niger. J Hazard. Mater., 320: 386-392.

Curriculum Vitae of Zhen Li

[8] Li Z., Bai T.S., Dai L.T., et al. (2016) A study of organic acid production in contrasts
between two phosphate solubilizing fungi: Penicillium oxalicum and Aspergillus niger. Sci. Rep.,
6: 25313.

[7] Li Z., Li Q., Wang S.J., et al. (2016) Rapid increase of carbonate in cortical bones of hens
during laying period. Poultry Sci., 95: 2889-2894.

[6] Li Z., AI-Jawad M., Siddiqui S., Pasteris J.D.* (2015) A mineralogical study in
contrasts: highly mineralized whale rostrum and human enamel. Sci. Rep., 5: 16511.

[5] Li Z.*, Wu S.P., and Ye C.L. (2015) Temperature-related changes of bioapatite based on
hypermineralized dolphin’s bulla. J. Raman Spectros., 46: 964-968.

[4] Li Z. and Pasteris J. D.* (2014) Tracing the pathway of compositional changes in
bone mineral with age: Preliminary study of bioapatite aging in hypermineralized
dolphin’s bulla. BBA-Gen. Sub., 1840: 2331-2339.

[3] Li Z. and Pasteris J. D.* (2014) Chemistry of bone mineral, based on
the hypermineralized rostrum of the beaked whale Mesoplodon densirostris. Am. Miner., 99: 645-653.

[2] Li Z., Pasteris J. D.*, et al. (2013) Hypermineralized whale rostrum as the exemplar for bone
mineral. Connect Tissue Res., 54(3):167-175.

[1] Li Z., He K., Yin L.*, et al. (2007) Crystallochemistry of Fe-rich palygorskite from Eastern
China. Clay Miner., 42(4): 453-461.


Contributed Publications:
[3] Smith L.J., Deymier A.C., Boyle J.J., Li Z., Linderman S.W., Pasteris J.D., Xia Y.N., Genin
G.M., Thomopoulos S.* (2016) Tunability of collagen matrix mechanical properties
via multiple modes of mineralization. Interface, 6 (1):
DOI:10.1098/rsfs.2015.0070.

[2] Huang Y.J., Li Z., Li S.Z., et al. (2007) M?ssbauer investigations of palygorskite
from Xuyi, China. Nuclear Instruments & Methods in Physics Res. B., 2: 657-662.

[1] He K., Dong Y.M., Li Z., et al. (2007) Catalytic ozonation of phenol in water with natural
brucite and magnesia. J Hazardous Materials, 159: 587-592.
相关话题/

  • 领限时大额优惠券,享本站正版考研考试资料!
    大额优惠券
    优惠券领取后72小时内有效,10万种最新考研考试考证类电子打印资料任你选。涵盖全国500余所院校考研专业课、200多种职业资格考试、1100多种经典教材,产品类型包含电子书、题库、全套资料以及视频,无论您是考研复习、考证刷题,还是考前冲刺等,不同类型的产品可满足您学习上的不同需求。 ...
    本站小编 Free壹佰分学习网 2022-09-19