Education Background：

Oct., 1999 – Mar., 2003:

D. Eng. in Civil Engineering, School of Engineering, Tohoku University, Japan

Doctoral Dissertation:Hydrological study on non-point source pollution considering catchment characteristics

Research theme: Agricultural non-point source pollution and its relationship with hydrological processes

Sept., 1990 – Jul., 1993:

M. Sc. in Environmental Engineering, Department of Environmental Science & Engineering, Tsinghua University, Beijing, China

Master Thesis: A performance study on wastewater marine disposal – a case study in Xiaogang of Ningbo City, Zhejiang Province

Research theme: Wastewater marine disposal and water quality modeling

Sept., 1983 – Jul., 1988:

B. Sc. in Environmental Engineering,Department of Environmental Engineering,Tsinghua University, Beijing, China

Bachelor Thesis: Comprehensive planning of water pollution control in the Luohe City, Henan Province, China

Research theme: Regional water pollution control and planning

Job experiences：

Sept., 2006 – Present:   Associate Professor in College of Water Sciences, Beijing Normal University, Beijing, China

Dec., 2005 – Aug., 2006: Associate Professor in Department of Environmental Science &Engineering, Tsinghua University, Beijing, China

Apr., 2003 – Nov., 2005: Lecturer in Department of Environmental Science &Engineering, Tsinghua University, Beijing, China

Aug., 1993 – Aug., 1999: Teaching Assistant and Lecturer in Department of Environmental Engineering, Tsinghua University, Beijing, China

Aug., 1988 – Aug., 1990:      Technician in Environmental Protection Section, Capital Iron & Steel Complex—SHOUGANG Group, Beijing, China

Papers：

Dr/Associate ProfessorBaolinSu is specialized in studies of environmental science and hydrology, and he has focused on research fields of environment system analysis, environment planning and water environmental management for more than 25 years. His current research interests are agricultural non-point source pollution and control, urban runoff pollution modeling and surface water quality modeling. He has published more than 100 scientific articles so far.

Selected research articles:

[1].   Baolin Su &YunxiangLuo (2019) Modelling hydrological processes and nutrient retention in plain polders, Hydrological Sciences Journal, 64:7, 835-844, DOI:10.1080/02626667.2019.1601728

[2].   XU Yun-qiang, SU Bao-lin*, WANG Hong-qi, et al. Analysis of water balance and runoff pollution in a paddy field with direct seeding cultivation in-situ in the Taihu Lake Basin,China[J]. Journal of Agro-Environment Science, 2019, 38(4): 892-902(In Chinese with English abstract)

[3].   Xu, Y., Su, B*, Wang, H., and He, J.(2018).A new method for indirectly estimating infiltration of paddy fields in situ, Proc. IAHS, 379, 205-210,https://doi.org/10.5194/piahs-379-205-2018

[4].   Ningbo Huang,Baolin Su*,Ruirui Li,Wuzhi Yang,MengmengShen. A field-scale observation method for non-point source pollution of paddy fields. Agricultural Water Management. 2014, 146:305-313.

[5].   Zhou Jingwen, Su Baolin*, Huang Ningbo, et al., In situ experiment on non-point source pollution in paddy fields, Acta Scientiae Circumstantiae.2016, 36(4): 1145-1152 (In Chinese with English abstract)

[6].   Zhou, Jing-wen, Su, Bao-lin*, Huang, Ning-bo, Guan, Yu-tang, Zhao, Kun. (2016). Runoff Pollution Experiments of Paddy Fields Under Different Irrigation Patterns, Huanjingkexue= Huanjingkexue. 37(3):963-969(In Chinese with English abstract)

[7].   Zhao Kun, Su Baolin*,ShenMengmeng, et al..An improved method for parameter identification of SWAT model. South-to-North Water Transfers and Water Science & Technology. 2017, 15 (4), 49-53 (In Chinese with English abstract)

[8].   Yang Wuzhi, Su Baolin*,LuoYunxiang, et al..Application of distributed hydrologic model to area with intensive human activities. Water Resources and Hydropower Engineering.2014, 45(2):5-9.(In Chinese with English abstract)

[9].   Su Baolin, Yuan Junying, Li Hui, et al.. Loss rates of rural domestic pollutants in the down-stream plain polder area ofGanjiangRiver.Journal of Beijing Normal University. Natural Science. 2013, 49(2/3): 256-260 (In Chinese with English abstract)

[10].Yang Wuzhi, Su Baolin*, LuoYunxiang et al..Method of non-point source pollution load accounting by SWAT model under influence of point-source pollution. Water Resources and Power.2013, 31(3): 21-24(In Chinese with English abstract)

[11].Su Baolin,LuoYunxiang, Chen Hongwen, et al..Modeling of hydrological processes in lower plain polder of theGanjiang River. South-to-North Water Diversion and Water Science & Technology.2013. 11(1):25-29.(In Chinese with English abstract)

[12].Zhang Qian, Su Baolin*,LuoYunxiang, et al..Estimation of pollutant loads into the water environmental control units in urban areas. Acta Scientiae Circumstantiae.2013, 33(3):887-884(In Chinese with English abstract)

[13].LuoYunxiang, Su Baolin*, Zhang Qian, et al..Identifying and Modeling Confined Hydrological Processes in Plain Polders. Resources Science.2013. 35(3):594-600 (In Chinese with English abstract)

[14].Huang Ningbo, Su Baolin*,LuoYunxiang, et al..Estimation of non-point source pollution load based on improved unit pollutograph method. Journal of Beijing Normal University. Natural Science.2012. 48(5):458-462(In Chinese with English abstract)

[15].Yang Wuzhi, Su Baolin*,LuoYunxiang, et al..Identification of the point source load input for the swat model: a case study in the NanshaRiver in Anshan City. Journal of Beijing Normal University. Natural Science.2012. 48(5):515-519(In Chinese with English abstract)

[16].Zhang Qian, Su Baolin*,LuoYunxiang, et al..Runoff pollution simulation of intercepted combined sewer system. Journal of Beijing Normal University. Natural Science.2012. 48(5):537-541(In Chinese with English abstract)

[17].Zhang Qian, Su Baolin*,LuoYunxiang, et al..Estimating load of urban runoff pollution in different drainage sustems. Journal of Beijing Normal University. Natural Science.2012, 48(1):86-91.(In Chinese with English abstract)

[18].Su Baolin, Li Hui, Zhang Lei, et al..Runoff pollution from vineyards in the Taige Canal Valley. Journal of Ecology and Rural Environment.2011, 27(6):32-36.(In Chinese with English abstract)

[19].YunxiangLuo, Baolin Su*, Junying Yuan, Hui Li, Qian Zhang. GIS Techniques for Watershed Delineation of SWAT Model in Plain Polders. Procedia Environmental Sciences. 2011, 10: 2050-2057

[20].LI Hui, SU Baolin*, ZHANG Qian, et al..Mechanism of rural domestic pollution flowing into rivers in plain river network area. Journal of Ecology and Rural Environment. 2011, 27(4):110-112. (In Chinese with English abstract)

[21].Lu Yu, Su Baolin*. Comparison of water environment capacity calculation methods for a river system. Water Resources Protection.2011, 27(4):6-11. (In Chinese with English abstract)

[22].Su B. L., Cai X. T., Sun Y. L., and Xu Z. X. (2010). Application of SWAT model to Zhangweinan Canal sub-watershed, 4th International Conference on Bioinformatics and Biomedical Engineering, iCBBE 2010

[23].CaiXitian, Xu Zongxue, Su Baolin*, et al..Distributed simulation for regional evapotranspiration and verification by using remote sensing. Transactions of the Chinese Society of Agricultural Engineering, 2009, 25(10): 154-160 (In Chinese with English abstract)

[24].XitianCai, Baolin Su*, Zongxue Xu. Hydrological Modeling for the Zhangweinan River Basin with Intensive Human Activities, International Symposium Of IAHS-PUB and The 2nd International Symposium Of China-PUB, IAHS-PUB-China 2008, Chengdu, Nov. 7-9, 2008 . IAHS Publ. 335, 2009, p97-104

[25].Baolin Su, Chengwen Wang, Shengtong Cheng. Water environment capacity in watershed scale: A case study in the Yong River system. International Symposium Of IAHS-PUB and The 2nd International Symposium Of China-PUB, IAHS-PUB-China 2008, Chengdu, Nov. 7-9, 2008. IAHS Publ. 335, 2009, p266-275

[26].Baolin Su, So Kazama, Seiichiro Katayama and Masaki Sawamoto. Influences of catchment characteristics on nitrogen concentration in largely forested streams during base flow period. Hydrological Processes Vol. 20, 4391-4403, 2006

[27].Su Baolin, Wang Jianping, JiaHaifeng et al.,Non-point source modeling system of theMiyun Reservoir watershed. J Tsinghua Univ (Sci& Tech). 2006. 46 (3): 355-359 (In Chinese with English abstract)

[28].Su Baolin, Wang Jianping, JiaHaifeng et al..Identification of non-point source pollutionin theMiyun Reservoir watershed. J Tsinghua Univ (Sci& Tech). 2006.46(3): 360-365(In Chinese with English abstract)

[29].Baolin Su, HaifengJia, Jianping Wang, Yuan’an Hu, Shengtong Cheng, Simulation and scenario analysis of soil erosion in the Miyun Reservoir watershed, IAHS Publ. no. 292, 2005

[30].Baolin Su, So Kazama, Minjiao Lu and Masaki Sawamoto, Development of a distributed hydrological model and its application to soil erosion simulation in a forested catchment during storm period, Hydrological Processes, 17(14): 2811-2823, 2003

[31].Baolin Su, So Kazama, Minjiao Lu and Masaki Sawamoto, Modeling nitrogen dynamics in an agricultural-forested catchment, IAHS Publ. no. 280, 2003, p195-204

[32].Baolin Su, So Kazama, Masaki Sawamoto, Vegetation Cover Changes and Correlation with Suspended Solids Concentration of Stream Water in Small-Scale Forested Catchment, Annual Journal of Hydraulic Engineering, JSCE, Vol.46, 2002, p301-306

Other publications:

[1].   Su Baolin, Huang Ningbo, Li Ruirui et al. (2016). Chinese National Innovation Patent: In situ observation method and system of nonpoint source pollution from paddy fields. ZL 201310232100.2

[2].   <Textbook in Environmental System Analysis>(2ndEdition), Edited by Shengtong Cheng, Chemical Industry Press, 2012, (Chapter 6Watershed nonpoint source pollution）

[3].   <Exercise Sets and Solutions for Textbook inEnvironmental System Analysis >,Edited by Shengtong Cheng, Chemical Industry Press, 2007.(Chapter 6Watershed non-point modeling)

[4].   <Environmental Impact Assessment> Edited by ShuyuLu, Higher Education Press, 2001 (Chapter 2Procedures of Environment Impact Assessment)

[5].   <Environmental Impact Assessment> Edited by Asian Development Bank and National EPA, Graduate course textbook, 1999 (Chapter 5Environmental Impact Assessment and Cleaner Production)

Otherpapers can be reached via https://orcid.org/0000-0003-3089-2487

 

Research Projects

[1].   Integration of estimation methods of nonpoint source pollution loadings(2017ZX07301-003), the Major Science and Technology Programme for Water Pollution Control and Treatment,2018.1-2020.6,research fund: 600,000 RMB, PI

[2].   Accounting of agricultural non-point source pollution and optimization of loading reduction countermeasures(2013ZX07501005-04),the Major Science and Technology Programme for Water Pollution Control and Treatment,2013.1-2015.12,research fund: 1,900,000 RMB,PI

[3].   Quantification of non-point source pollution in plain river network area (lowland area):2011.1-2013.12. The Fundamental Research Funds for the Central Universities, research fund: 350,000 RMB, PI

[4].   Quantificationof water pollution loading in water environmental control unit (2009ZX07526005-02), the Major Science and Technology Programme for Water Pollution Control and Treatment,2009.1-2011.12,research fund: 1,970,000RMB, PI

[5].   Assimilative capacity calculation of main rivers in Wenzhou City, Zhejiang Province, 2009.6-2010.6,Research fund: 150,000 RMB, PI

[6].   Assimilative capacity calculation and assessment in main rivers of the Quanzhou City, Fujian Province. 2008.5-2009.12,research fund: 100,000 RMB, Co-PI

[7].   Environmental Impact Assessment of the 15thOutline of National Economic Development Planning of the Ningbo City, 2008.4 -2009.1, research fund: 350,000 RMB, PI

[8].   Water process simulation and non-point source pollution estimation of theZhangweinan Canal sub-basin based on SWAT model, Integrated Management of Water Resources and Water Environment in the Haihe River Basin(IWEMP), Global Environment Facilities (GEF), 2006-2010, research fund: 1,020,000 RMB, Co-PI

[9].   Study on Regional Water Environmental Carrying Capacity of the Xiangshan Port in Ningbo City, Zhejiang Province, 2006.2-2007.8,research fund: 250,000 RMB, PI

[10].Study on Environmental Carrying Capacity of Economic and Social Development and Environmental Protection Countermeasure in the Ningbo City, Zhejiang Province(totally funds: 4,200,000), 2004-2005. Responsible for Water environmental Carrying Capacity subtopics, PI, research fund: 500,000RMB

[Nonpoint Source Pollution Processes](Spring semester for graduate students from 2007）

[Water Quality Modeling] (Fall semester for graduate students from 2008）

[Environmental QualityAssessment] (forBachelor students from 1998 to 1999)

[Elementary Professional Practice in Environmental Engineering](for Bachelor students from 1994 to 1999)

Acting as anactive manuscript reviewer of international journals of Journal of Hydrology, Ecological Modeling, Agricultural Water Management, Hydrological Sciences Journal, PIAHS, Environmental Processes, Paddy and Water Environmentand domestic journals of Environmental Science, Acta Scientiae Circumstantiae,Research of Environmental Sciences，Transactions of the CSAE, Journal of Agro-Environment Science, Journal of Ecology and Rural Environment, Resources And Environment In The Yangtze Basin, South-to-North Water Diversion and Water Science & Technology, and etc.

[1].   Second Prizeof Dayu Water Conservancy Science and Technology Award (DYJ20130202-G10) for“Study on Key Technologies of Comprehensive Simulation and Management of Water Resources and Water Environment in the Zhangweinan Canal Basin”,2013.10

[2].   Second Prize for Scientific and Technological Progress of Chinese Ministry of Education(2012-202, 360-12-20030506-03) for “Comprehensive simulation technology of water quantity and quality in river basin and its application platform”, 2013.1

[3].   Second Prize of Environmental Protection Science and Technology Award of State EPA (KJ2007-2-12-G03) for “Study on Environmental Carrying Capacity of Economic and Social Development and Environmental Protection Countermeasure in the Ningbo City”, 2007

[4].   Second Prize of Beijing Water Science and Technology Award for “Study on Eutrophication Control Technology of the Miyun Reservoir. 2005.

[5].   Second Prize of the State Environmental Protection Administration Award for Scientific and Technological Progress(J98009-07) for “Development of Provincial Basic Environmental Information Database funded by World Bank Environmental Technical Assistance Project B-1-9”, 1998.12

[6].   Postgraduate Excellent Teaching Award of Beijing Normal University for excellent teaching contribution in graduate course “Non-point Source Pollution Processes” in spring semester of 2009-2010

[7].   Postgraduate Excellent Teaching Award of Beijing Normal University for excellent teaching contribution in graduate course “Water Quality Modeling” in autumn semester of 2007-2008, 2010-2011, 2011-2012 and2018-2019, respectively