李天玲
Associate professor

Gender:Female

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Main courses: Environmental engineering, Environmental chemistry, Environmental monitoring, Methodology of 

environmental science, biochemistry, etc.

Main research areas: Field-based real-time monitoring; Changes in ecological environment and BVOC emissions; Ammonia emission reduction from agricultural sources; removal of water/gas pollutants by advanced environmental materials


Education experience:

2013-2016 Griffith University, Doctorate degree

2009-2012 Institute of Soil Science, Chinese Academy of Sciences, Master degree


Work experience:

2017 to now, School of Environmental Science and Engineering, NUIST

2016-2017, Griffith University, Center for Clean Environment and Energy


Academic activities:

√ Reviwer of Environmental Science & Technology, Water Research, Sensors & Actuators: B. Chemical, Bioresource Technology,ACS sensors, Science of the Total Environment, Water Science & Technology, etc.

√ Member of the American Chemical Society

√ Member of the Australian Water Association

√ Member of the Chinese Society of Soil Science

√ Member of the Chinese Society for Environmental Sciences


Publications:

[20] Li T., Wang C., Ji W., Wang Z., Shen W., Feng Y., Zhao M., Cutting-edge ammonia emissions monitoring technology for sustainable 

livestock and poultry breeding: A comprehensive review of the state of the art. Journal of Cleaner Production, 428(2023), 139387.

[19] Li T., Zhou M., Wang Z., Xing C., Zhang S., Chapter 4 - Environmental monitoring and membrane technologies: a possible marriage? 

In: Basile A, Genisni M, Allegrini I, Figoli A (eds) Current Trends and Future Developments on (Bio-) Membranes. Elsevier, 2023, p 101-13

[18] Li T., Wang Z., Wang C., Huang J., Zhou M.*, Chlorination in the pandemic times: The current state of the art for monitoring chlorine 

residual in water and chlorine exposure in air. Scienc of The Total Environment, 838(2022), 156193. 

[17] Li T., Wang Z., Wang C., Huang J., Feng Y., Shen W., Zhou M., Yang L., Ammonia volatilization mitigation in crop farming: A review of 

fertilizer amendment technologies and mechanisms. Chemosphere, 303(2022), 134944.

[16] Zhou M., Li T., Xing C., Liu Y.*, Zhao H.*, Membrane-based portable colorimetric gaseous chlorine sensing probe, 

Analytical Chemistry, 93(2021),769-776.

[15] Zhou M., Li T., Liu P., Zhang, S., Liu Y., An T., Zhao H.*, Real-time on-site monitoring of soil ammonia emissions using membrane 

permeation-based sensing probe, Environmental Pollution, 289(2021), 117850.

[14] Li, D., Cheng, Y., Li, T., Sun H., Xue L., Cui H., Feng Y., Yang L., Chu Q. Co-application of biogas slurry and hydrothermal 

carbonisation aqueous phase substitutes urea as the nitrogen fertiliser and mitigates ammonia volatilisation from paddy 

soil. Environmental Pollution, 287(2021), 117340.

[13] Zhou M., Li T., Zu M., Zhang S., Liu Y.*, Zhao H.*, Membrane-Based Colorimetric Flow-Injection System for Online Free Chlorine 

Monitoring in Drinking Water, Sensors & Actuators: B. Chemical, 327(2020), 128905. 

[12] Huang J., Xiong R., Fang L., Li T., Shen W.* Estimation of interannual trends of ammonia emissions from agriculture in Jiangsu 

Province from 2000 to 2017, Atmospheric and Oceanic Science Letters, 13(2020), 268-273.

[11] Li T., Zhou M., Fan Z., Li X., Huang J., Wu Y., Zhao H.*, Zhang S.*, Online conductimetric flow-through analyser based on 

membrane diffusion for ammonia control in wastewater treatment process. ACS Sensors, 4(2019), 1881-1888. 

[10] Li T., Zhou M., Qiu Y., Huang J., Wu Y., Zhang S.*, Zhao H.*, Membrane-based conductivity probe for real-time in-situ monitoring

 rice field ammonia volatilisation, Sensors & Actuators: B. Chemical, 286(2019), 62-68. 

[9] Huang J., Nadeeka R.K., Chow C., Welsh D.T., Li T., Teasdale, P.R.*, Removing ammonium from water and wastewater using 

cost-effective adsorbents: A review, Journal of Environmental Sciences, 63(2018), 174-197.

[8] Li T., Panther J., Qiu Y., Liu C., Huang J., Wu Y., Wong K P., An T*., Zhang S.*, and Zhao H.*, Gas-permeable membrane-based 

conductivity probe capable of in situ real-time monitoring of ammonia in aquatic environments. Environmental Science & Technology, 51 (2017), 13265–13273. 

[7] Li T., Winnel M., Lin H., Panther J., Liu C., O’Halloran R., Wang K., An T., Wong K P., Zhang S*. and Zhao H*, A reliable sewage quality 

abnormal event monitoring system. Water Research. 121(2017), 248-257. 

[6] Li T., Wu Y., Huang J. and Zhang S.*, Gas sensors based on membrane diffusion for environmental monitoring. 

Sensors & Actuators: B. Chemical, 243(2017), 566-578. 

[5] Huang J., Bennett W.W., Welsh D.T., Li T., Teasdale P.R.*, Diffusive gradients in thin films techniques provide representative time-weighted

 average measurements of inorganic nutrients in dynamic freshwater systems. Environmental Science & Technology, 50(2016), 13446-13454.

[4] Huang J., Bennett W.W., Welsh D.T., Li T., Teasdale P.R.*, Development and evaluation of a diffusive gradients in a thin film 

technique for measuring ammonium in freshwaters. Analytica Chimica Acta, 904(2016), 83-91.

[3] Bo L., Wang D.*, Li T., Li Y., Zhang G., Wang C. and Zhang S., Accumulation and risk assessment of heavy metals in water, sediments, 

and aquatic organisms in rural rivers in the Taihu Lake region, China. Environmental Science and Pollution Research, 22(2014), 6721-6731.

[2] Li T., Wu Y., Lin Z.*, Comparison of the removal of COD by a hybrid bioreactor at low and room temperature and the associated 

microbial characteristics. Bioresource Technology. 108 (2012), 28–34. 

[1] Wu Y., Li T., Lin Z.*, Mechanisms of removing pollutants from aqueous solutions by microorganisms and their aggregates: A review. 

Bioresource Technology. 107 (2012):10–18. 


Research projects:

10. General Project of the National Natural Science Foundation of China, 2024-2027, ongoing, participant

9. Key Special Project of "Earth System and Global Change" under the National Key R&D Program, 2023-2027, ongoing, participant

8. Open Topic of the Agricultural Environment Key Laboratory of the Yangtze River Delta Plain of the Ministry of Agriculture and 

Rural Affairs, 2023-2024, ongoing, principal investigator

7. Industry Linkage Project, 2021-2023, completed, principal investigator

6. General Project of the National Natural Science Foundation of China, 2019-2022, completed, participant

5. Youth Project of the National Natural Science Foundation of China, 2019-2021, completed, principal investigator

4. Open Topic of the Jiangsu Provincial Academy of Agricultural Sciences' State Key Laboratory Co-constructed by the 

Provincial and Ministry Levels, 2019-2021, completed, principal investigator

3. Nanjing Municipal Overseas Returnees' Scientific and Technological Innovation Project, 2019-2020, completed, 

principal investigator

2. General Project of Natural Science Research of Jiangsu Provincial Colleges and Universities, 2018-2020, completed, 

principal investigator

1. University Talent Startup Fund Project, 2018-2020, completed, principal investigator


Teaching and student guidance:

11. The FIRST prize in the National University Low-Carbon Circular Competition in 2023

10. The provincial SECOND prize in the Energy Conservation and Emission Reduction Competition in 2023

9. The school-level FIRST prize in the Energy Conservation and Emission Reduction Competition in 2023

8. The SILVER award in the Internet+ School-level Competition in 2023

7. The THIRD prize in the National University Low-Carbon Circular Competition in 2022

6. The provincial SECOND prize and third prize in the Energy Conservation and Emission Reduction Competition in 2022

5. The school-level FIRST prize and second prize in the Energy Conservation and Emission Reduction Competition in 2022

4. The qualified lecturer qualification recognized by the University of Reading, UK, in 2022

3. Guided undergraduate students to apply for 2 national patents and publish 2 papers from 2020 to 2023

2. Awarded the honor of "Excellent Class Advisor" by the university in 2019

1. Participated in 1 provincial teaching project (3/5) in 2019


Mini bulletin board:

√ Welcome graduate students with backgrounds in environmental science, environmental engineering, atmospheric environment, 

ecology, and other environmental-related fields to join our research group! 

  • Joint training and research opportunities are available with the Chinese Academy of Sciences, Academy of Agricultural Sciences, 

and other institutions. 

  • Priority recommendation for doctoral studies (with full scholarship) at high-level universities abroad!

√ Welcome undergraduate students to participate in the training of innovative practical projects for college students!


Current research areas:

√ Development and application of environmental intelligent monitoring, early warning, and forecasting systems;

√ Monitoring and mitigation of ammonia emissions from agricultural sources;

√ Impact of ecological environment changes on BVOC (Biogenic Volatile Organic Compounds) emissions;

√ Research on the removal of water/gas pollutants by advanced environmental materials.



Research Group

[1]Name of Research Group:Nitrogen Cycle and Climate and Atmospheric Environmental Changes

Description of Research Group:Research on Monitoring, Efficient Control Technologies, and Mechanisms of Greenhouse Gases and Ammonia

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