Name: YAN Xiulan

Current Appointment: Professor

Education:

Ph.D.       2003-2006      (Ecology) Institute of Geographic Sciences and Natural Resources Research, Chinese Academy of Sciences

M. Sc.      2000-2003      (Environmental Science) Huazhong Agricultural University

B. Sc.       1996-2000      (Plant Nutrition) Huazhong Agricultural University
Areas of Specialization:

Regional soil pollution monitoring and assessment, soil remediation principles, technologies and equipment for the cleanup of contaminated soil and groundwater

Academic Awards：

The first prize of Beijing Science and Technology Award (Ranking No.2)

Venus outstanding talents of the Beijing branch of the Chinese Academy of Sciences; Bingwei Young Talent Award from the Institute of Geography of the Chinese Academy of Sciences

Resources and Ecological Environment Talents special project from the Wang Kuancheng Education Fund of the Chinese Academy of Sciences

Beijing Science and Technology New Star

Society Appointments:

Committee member, Chinese Society of Mineral and Rock Geochemistry

Committee member, the National Expert Base of Judicial Appraisal of Environmental Damage

Expert, soil pollution prevention and control in Beijing, Hebei, Tianjin, Jiangsu, Guangzhou, Anhui.

Representative Publications:

1.     Wen Q Q, Yang X, Yan X L*, Yang L S*. (2022) Evaluation of arsenic mineralogy and geochemistry in gold mine-impacted matrices: Speciation, transformation, and potential associated risks. Journal of Environmental Management, 308: 114619 (IF 8.910) (JCR (Q1), Environmental Sciences: 34/279) (*Corresponding Author)

2.     Yang X, Liu S Y, Liang T, Yan X L*, et al. (2021) Ball-milled magnetite for efficient arsenic decontamination: Insights into oxidation–adsorption mechanism. Journal of Hazardous Materials, 427: 128117 (IF 14.224) (JCR Top 5% (Q1), Engineering, Environmental: 3/54) (*Corresponding Author)

3.     Yang X, Li J C, Liang T, Yan X L*, et al. (2021) A combined management scheme to simultaneously mitigate As and Cd concentrations in rice cultivated in contaminated paddy soil. Journal of Hazardous Materials, 416: 125837 (IF 14.224) (JCR Top 5% (Q1), Engineering, Environmental: 3/54) (*Corresponding Author)

4.     Yan X L, Fei Y, Yang X*, et al. (2021) Enhanced delivery of engineered Fe-Mn binary oxides in heterogeneous porous media for efficient arsenic stabilization. Journal of Hazardous Materials, 424: 127371 (IF 14.224) (JCR Top 5% (Q1), Engineering, Environmental: 3/54)

5.     Yan X L*, Zhao W C, Yang X*, et al. (2020) Input-output balance of cadmium in typical agriculture soils with historical sewage irrigation in China. Journal of Environmental Management, 276: 111298 (IF 8.910) (JCR (Q1), Environmental Sciences: 34/279) (*Corresponding Author)

6.     Yan X L*，Fei Y, Zhong L R, Wei W X. (2020) Arsenic stabilization performance of a novel starch-modified Fe-Mn binary oxide colloid. Science of the Total Environment, 707:1360-1364 (IF 10.754) (JCR (Q1), Environmental Sciences: 26/279) (*Corresponding Author)

7.     Yan X L*, Shao J Q, Wen Q Q, et al. (2020) Stabilization of Soil Arsenic by Natural Limonite After Mechanical Activation and the Associated Mechanisms. Science of the Total Environment, 708:118-135 (IF 10.754) (JCR (Q1), Environmental Sciences: 26/279) (*Corresponding Author)

8.     Yang S, Yan X L*, et al. (2020) Benzene homologues contaminants in a former herbicide factory site: distribution, attenuation, risk, and remediation implication. Environmental Geochemistry and Health, 42: 241-253 (IF 4.898) (JCR (Q2), Engineering, Environmental: 24/54) (*Corresponding Author)

9.     Yan X L*, Liu C C, Zhong L R, Wang J Y.(2018) Combining phytoremediation with soil flushing for arsenic removal from contaminated soil. International Journal of Phytoremediation, 20, 1229-1235. (IF 4.003) (JCR (Q2), Environmental Sciences: 128/279) (*Corresponding Author)

10.   Lin L Y, Yan X L*, Liao X Y, Wang Z Y. (2017) Migration and arsenic adsorption study of starch-modified Fe-Ce oxide on a silicon-based micromodel observation platform. Journal of Hazardous Materials, 338: 202-207 (IF14.224) (JCR Top 5% (Q1), Engineering, Environmental: 3/54) (*Corresponding Author)

11.   Yan X L*, Liu Q X, Wang J Y, Liao X Y. (2017) A combined process coupling phytoremediation and in situ flushing for removal of arsenic in contaminated soil. Journal of Environmental Sciences, 57: 104-109 (IF 6.796) (JCR (Q1), Environmental Sciences: 58/279) (*Corresponding Author)

12.   Liao X Y, Li Y, Yan X L*. (2016) Removal of heavy metals and arsenic from a co-contaminated soil by sieving combined with washing process. Journal of Environmental Sciences, 41: 202-210(IF 6.796) (JCR (Q1), Environmental Sciences: 58/279) (*Corresponding Author)

13.   Yan X L*, Liao X Y, Chen T B. (2009) Leaching potential of arsenic from Pteris vittata L. under field conditions. Science of the Total Environment, 408: 425-430 (IF 10.754) (JCR (Q1), Environmental Sciences: 26/279) (*Corresponding Author)

14.   Xie Q, Yan X L, Liao X Y*, Li X*. (2009) The arsenic hyperaccumulator fern Pteris vittata L. Environmental Science & technology, 43(22): 8488-8495 (IF 11.357) (JCR (Q1), Engineering, Environmental: 8/54)

15.   Yan X L, Chen T B, Liao X Y, et al. (2008) Arsenic transformation and volatilization during incineration of the hyperaccumulator Pteris vittata L. Environmental Science & Technology, 42: 1479-1484 (IF 11.357)(JCR (Q1), Engineering, Environmental: 8/54)

16.   Wang X, Liu X, Yang X, Wang L*, Yang J, Yan X, Liang T, Hansen H, Yousaf B, Shaheen S M*, Bolan N, Rinklebe J*. In vivo phytotoxic effect of yttrium-oxide nanoparticles on the growth, uptake and translocation of tomato seedlings (Lycopersicon esculentum) [J]. Ecotoxicology and Environmental Safety. 2022. 242: 113939. (IF=7.129)

17.   Wang S, Xiong Z, Wang L, Yang X, Yan X, Li Y, Zhang C, Liang T*. Potential hot spots contaminated with exogenous, rare earth elements originating from e-waste dismantling and recycling[J]. Environmental Pollution. 2022, 309: 119717. (IF=9.988)

18.   Yang X, Li Z, Yan X, Liang T, Chen H. Monitoring of anaerobic biological processes [M]//Bui X, Nguyen D D, Nguyen P, Ngo H H, Pandey A. Current Developments in Biotechnology and Bioengineering. Elsevier, 2022: 561-585.

19.   Yang X, You M, Yan X. Utilization of biochar to mitigate the impacts of potentially toxic elements on sustainable agriculture [M]//Tsang D C W and OK Y S. Biochar in Agriculture for Achieving Sustainable Development Goals. Academic Press, 2022: 203-220.

Major Research Projects:

10. Sub-project Leader         National Key Research and Development Program of China（SQ2023YFC3700140）

1.     Sub-project Leader         National Key Research and Development Program of China (No.2017YFD0800900)

2.     Principal Investigator             National Natural Science Foundation of China (No.41571309)

3.     Sub-project Leader         Beijing Science and Technology Plan Project (No.Z161100001216008)

4.     Principal Investigator             Science and Technology Service Network Initiative (STS)

5.     Co-Principal Investigator       National High-tech R&D Program (863 Program)

6.     Principal Investigator    Bingwei Youth Talent Fund, Bingwei Youth Talent Fund, Institute of Geography, Chinese Academy of Sciences

7.     Principal Investigator    Promoting Environmental Governance in China: Demonstrating the Positive Impact of Public Participation in the Environmental Remediation Process

8.     Co-Principal Investigator Chinese Academy of Sciences Research Equipment Development Project

9.     Sub-project Leader         National Science and Technology Support Program

Office Address:

Room 708, Building No.B IGSNRR

11A Da Tun Road

An Wai, Beijing 100101

People’s Republic of China

Telephone: 86-10-6488-9085

Fax: 86-10-6488-9085

Email: yanxl@igsnrr.ac.cn

Updated on November 15, 2023