Shan Baoqing is a professor and doctoral tutor at the Research Center for Eco-Environmental Sciences, the Chinese Academy of Sciences. He currently serves as the river expert group leader for Major Science and Technology Program for Water Pollution Control and Treatment. He got the awards of young and middle-aged leading scientists for Ministry of Science and Technology, leading academic of “Ten Thousand Talent Program” and distinguished researcher for University of Chinese Academy of Sciences. He is also the deputy editor of Environmental Protection Science magazine.
His research focused on the theory, technology and engineering practice in watershed water pollution control and river ecological restoration. Expertise collection and advantage development have been well made in the following research contents:
1) Planning and design of water pollution control and river restoration;
2) Wetland engineering technology and application;
3) Analysis method and transformation mechanism of nitrogen and phosphorus in watershed system;
4) Flux process across the water-sediment interface.
In recent years, he has undertaken more than 20 national-level research tasks, such as “the Baiyangdian Eco-Environment Protection Plan”, “Water Ecology Security Assessment and Strategy Research of the Middle and Lower Yangtze River”, Haihe river research for Major Science and Technology Program for Water Pollution Control and Treatment. He has published more than 240 papers, including 110 SCI papers, 2 books, and 25 patents.
In the aspect of application engineering, 6 planning and design of black-and-odorous treatment projects have been completed, and more than 10 ecological wetland engineering projects have been designed. These projects have had a positive impact in the field of river water environment management. He also developed a graduate course named "Water Environment Restoration Project" for the University of Chinese Academy of Sciences.
In the aspect of pollution control theory of river watershed, he completed “strategic plan for river water pollution control in the haihe river”, in which the process of river ecosystem degradation and its driving mechanism were diagnosed, and the method of river governance roadmap and strategic plan were established. This work has enriched the theoretical methods of river pollution control in China.

The theory, technology and engineering practice in watershed water pollution control and river ecological restoration

1. River expert group leader for Major Science and Technology Program for Water Pollution Control and Treatment
2. Special Committee for comprehensive environmental control of Beijing-Tianjin-Hebei region

1. 2013：Young and middle-aged leading scientists
2. 2016：Leading academic of “Ten Thousand Talent Program”

1.Zhang, W., Jin, X., Tang, W., and Shan, B. (2017) Overestimation of orthophosphate monoesters in lake sediment by solution P-31-NMR analysis, Environmental Science and Pollution Research 24, 25469-25474.
2.Wang, C., Shan, B., Tang, W., Zhu, X., Jin, X., and Wang, W. (2017) Pollution and ecological risk of heavy metals in surface sediments from input river (Yang River) of Guanting Reservoir, Acta Scientiae Circumstantiae 37, 1632-1640.
3.Wang, C., Shan, B., Tang, W., Wang, X., Shi, M., and Jin, X. (2017) Heavy metal speciation in the surface sediments of Yang River System (Guanting Reservoir), Acta Scientiae Circumstantiae 37, 3471-3479.
4.Liu, D., Li, S., Zhang, W., Shan, B., Wang, X., Han, X., and Hao, Y. (2017) Biogenic phosphorus speciations in the sediments of an artificial river in the Haihe River Basin characterized with ~(31)P nuclear magnetic resonance spectroscopy(~(31)P-NMR), Acta Scientiae Circumstantiae 37, 2870-2877.
5.Li, Y., Shan, B., Tang, W., and Chen, J. (2017) Pollution characteristic of sediment oxygen demand in typical urban river (Liangshui River) of Beijing city, China, Chinese Journal of Environmental Engineering 11, 5065-5070.
6.Zhu, X., Zhang, H., Lei, P., Zhang, B., Shan, B., and Shi, M. (2016) Historical distribution characteristics of major elements in Guanting Reservoir sediment, Acta Scientiae Circumstantiae 36, 442-449.
7.Zhang, W., Li, J., Jin, X., and Shan, B. (2016) Detection of phosphorus components in the sediments of typical river in the Haihe Basin by SMT and ~(31)P-NMR, Acta Scientiae Circumstantiae 36, 1891-1900.
8.Zhang, S., Zhao, Y., Shan, B., Zhang, H., Duan, S., and Lang, C. (2016) Spatial distribution characteristics of nitrogen in surface sediments and estimation of the inorganic fluxes in Fuyang River, Acta Scientiae Circumstantiae 36, 1774-1781.
9.Zhang, B., Wang, D., Zhang, H., Meng, X., Lei, P., Zhu, X., Shan, B., and Li, J. (2016) The flux of sedimentary heavy metals and variation of ecological risks recorded by sediments from Guanting Reservoir, Acta Scientiae Circumstantiae 36, 458-465.
10.Xiao, S., Shan, B., Zhang, W., and Wen, S. (2016) Study on the three-dimensional pore structure of sediments in Chaohu Lake based on CT technique, Acta Scientiae Circumstantiae 36, 747-752.
11.Wang, X., Shan, B., Tang, W., Zhang, W., and Yang, L. (2016) Pollution characteristics and ecological risk of mercury in the surface sediment of a typical urban river, Acta Scientiae Circumstantiae 36, 1153-1159.
12.Wang, X., Shan, B., Tang, W., Zhang, C., and Wang, C. (2016) Arsenic Content and Speciation in the Surficial Sediments of Liangshui River in Beijing, Environmental Science 37, 180-186.
13.Rong, N., Shan, B., Zhang, H., Lin, C., Guo, Y., and Wang, C. (2016) Characteristics and causes analysis of unconventional water resources supply for plain rivers in the Haihe river basin, Acta Scientiae Circumstantiae 36, 483-490.
14.Rong, N., Shan, B., Lin, C., Guo, Y., Zhao, Y., and Zhu, X. (2016) Evolution of the nitrogen pollution in the Hai River Basin, Acta Scientiae Circumstantiae 36, 420-427.
15.Lei, P., Zeng, Z., Zhang, H., and Shan, B. (2016) Nitrogen and Phosphorus Loss Characteristics from Agricultural Runoff Plots in the Danjiangkou Reservoir, Journal of Soil and Water Conservation 30, 44-48.
16.Lang, C., Shan, B., Li, S., Zhao, Y., Duan, S., and Zhang, S. (2016) Pollution analysis and ecological risk assessment of heavy metals in surface sediments of Fuyang River, Acta Scientiae Circumstantiae 36, 64-73.
17.Lang, C., Shan, B., Li, S., Zhang, W., Zhang, C., and Song, Z. (2016) Garbage distribution along Fuyang river and the ammonia nitrogen entering into the river, Acta Scientiae Circumstantiae 36, 2974-2982.
18.Jin, X., Shan, B., Li, S., Zhang, W., Bi, J., and Li, J. (2016) Temporal and spatial variation of nitrogen and phosphorus and eutrophication assessment in typical arid river in northern China, Chinese Journal of Environmental Engineering 10, 3538-3544.
19.Gao, Z., Meng, X., Zhang, H., Wang, D., and Shan, B. (2016) Spatial distribution and pollution evaluation of nutrients in the sediments of Liangzi Lake, Acta Scientiae Circumstantiae 36, 2382-2388.
20.Ding, Y., Zhang, H., and Shan, B. (2016) The spatial distribution and evolution trend of rivers in Hai River Basin, Acta Scientiae Circumstantiae 36, 47-54.
21.Zhang, H., Lin, C., Lei, P., Shan, B., and Zhao, Y. (2015) Evaluation of river eutrophication of the Haihe River Basin, Acta Scientiae Circumstantiae 35, 2336-2344.
22.Zhang, H., Lin, C., Lei, P., Shan, B., and Zhao, Y. (2015) Trends of pollution by the oxygen-consuming substances and the distribution of oxygen deficiency in the Haihe River Basin, Acta Scientiae Circumstantiae 35, 2324-2335.
23.Zhang, H., Lei, P., Shan, B., Wang, C., and Tang, W. (2015) Methodology for priority control sequence of river water pollution mitigation and its application in the Haihe River Basin, Acta Scientiae Circumstantiae 35, 2306-2313.
24.Zhang, B., Lei, P., Pan, Y. a., Li, J., Bi, J., Shan, B., and Zhang, H. (2015) Pollution and ecological risk assessment of heavy metals in the surface sediments from the tributaries in the main urban districts,Chongqing City, Acta Scientiae Circumstantiae 35, 2185-2192.
25.Zeng, Z., Lei, P., Zhang, H., Shan, B., and Ye, Y. (2015) Nitrogen and phosphorus fractions and releasing characteristics of the soils from the representative water-level-fluctuating zone of Danjiangkou Reservoir, Acta Scientiae Circumstantiae 35, 1383-1392.
26.Wang, L., Bi, J., Wang, X., Tang, W., Shan, B., and Yang, L. (2015) Characteristics and ecological risk assessment of heavy metal pollution in unconventional supply urban river, Acta Scientiae Circumstantiae 35, 903-910.
27.Wang, C., Zhang, H., Tang, W., Shan, B., and Rong, N. (2015) Structure analysis of river pollution source in the Haihe River Basin, Acta Scientiae Circumstantiae 35, 2345-2353.
28.Wang, C., Shan, B., and Zhao, Y. (2015) Spatial distribution of nitrification rate and the restriction effect of oxygen in the Fuyang River, Acta Scientiae Circumstantiae 35, 1735-1740.
29.Wang, C., Shan, B., Qin, J., and Zhang, H. (2015) The impact of socioeconomic development on the river water quality in the Haihe River Basin, Acta Scientiae Circumstantiae 35, 2354-2361.
30.Tang, W., Wang, L., Shan, B., Zhao, Y., Su, H., and Yang, L. (2015) Heavy metal pollution of the surface sediments in Daqing River System, Haihe Basin, Acta Scientiae Circumstantiae 35, 3620-3627.
31.Tang, W., Wang, L., Shan, B., Zhang, W., Zhang, H., and Yang, L. (2015) Speciation distribution of heavy metals in the surface sediments of a typical urban river (Liangshui River System), Acta Scientiae Circumstantiae 35, 3898-3905.
32.Su, H., Shan, B., Tang, W., Wang, L., and Wang, W. (2015) Heavy metal pollution of the surface sediments in a typical clean river system of Haihe Basin, Acta Scientiae Circumstantiae 35, 2860-2866.
33.Shan, B., Zhang, H., Tang, W., and Lei, P. (2015) Methodology for road map enacting of river pollution mitigation and its application in the Haihe River Basin, Acta Scientiae Circumstantiae 35, 2297-2305.
34.Shan, B., Wang, C., Li, X., Li, W., and Zhang, H. (2015) Method for river pollution control plan based on water quality target management and the case study, Acta Scientiae Circumstantiae 35, 2314-2323.
35.Li, Y., Bi, J., Wang, L., Tang, W., Shan, B., Yang, L., and Chen, J. (2015) Effect of storm runoff on the water quality of urban rivers with unconventional water sources, Acta Scientiae Circumstantiae 35, 443-448.
36.Li, L., Gong, Y., Yan, Z., and Shan, B. (2015) Bioretention Media Screening for the Removal of Phosphorus in Urban Stormwater, Environmental Science 36, 2511-2517.
37.Li, J., Zhang, W., Jin, X., Bi, J., Yuan, S., and Shan, B. (2015) Detection of phosphorus components in the soils of coastal wetlands surrounding Bohai Sea, Acta Scientiae Circumstantiae 35, 1143-1151.
38.Lei, P., Zeng, Z., Zhang, H., Gao, Z., and Shan, B. (2015) Risk characteristics of nutrients and heavy metals in the sediments from the branches of Xiangyang section,Hanjiang River, Acta Scientiae Circumstantiae 35, 1374-1382.
39.Duan, S., Zhao, Y., Shan, B., Tang, W., Zhang, W., Zhang, S., and Lang, C. (2015) Research of the Stormwater Runoff and Pollution Characteristics in Rural Area of Yuhang District, Hangzhou, Environmental Science 36, 3697-3705.
40.Di, Z., Zhang, H., and Shan, B. (2015) Status of internal nutrient loads and their effects on overlying water quality in Taihu Lake, Acta Scientiae Circumstantiae 35, 3872-3882.
41.Di, Z., Gao, Z., Zhang, H., and Shan, B. (2015) Study on the historical accumulation of trace metals in the central lake zone of Taihu Lake, Acta Scientiae Circumstantiae 35, 2867-2874.
42.Bi, J., Wang, L., Wang, X., Tang, W., Shan, B., and Yang, L. (2015) Temporal and spatial variations of eutrophication and its risks in the urban rivers with unconventional water sources, Acta Scientiae Circumstantiae 35, 1703-1709.
43.Zhao, Y., Shan, B., Zhang, W., and Wang, C. (2014) Forms and Spatial Distribution Characteristics of Nitrogen in Ziya River Basin, Environmental Science 35, 143-149.
44.Zhang, W., Shan, B., Zhang, H., and Tang, W. (2014) Characterization and optimization of the extractants for solution ~(31) P-nuclear magnetic resonance (~31 P-NMR) analysis of organic phosphorus in river sediments, Acta Scientiae Circumstantiae 34, 194-201.
45.Zhang, W., Shan, B., Zhang, H., and Tang, W. (2014) Characterization and Optimization of the NaOH-EDTA Extracts for Solution ~(31)P-NMR Analysis of Organic Phosphorus in River Sediments, Environmental Science 35, 163-170.
46.Zeng, Z., Zhang, H., Shan, B., and Yang, H. (2014) Analysis of industrial pollution sources of the middle and lower reaches of hanjiang river basin, Resources and Environment in the Yangtze Basin 23, 252-259.
47.Tang, W., Wang, L., Zang, W., and Shan, B. (2014) Heavy metal distribution and ecological risk assessment in sediments of river network region,Tianjin City, Chinese Journal of Environmental Engineering 8, 2174-2180.
48.Song, J., Fan, J., Liu, S., and Shan, B. (2014) Phosphorus Speciation and Distribution in Topsoil of Constructed Pond-wetland System Used for Advanced Treatment of Reclaimed Water, Enuivonmental Science and Technology 37, 140-145.
49.Pan, Y., Lei, P., Zhang, H., Shan, B., and Li, J. (2014) Distribution of Nitrogen and Phosphorus in the Sediments and Estimation of the Nutrients Fluxes in Longjinghu Lake, Chongqing City, During the Initial Impoundment Period, Environmental Science 35, 1727-1734.
50.Niu, Y., Yang, L., Zhang, H., and Shan, B. (2014) Distribution features and risk assessment of heavy-metal pollutants in the sediments of the main stream of Ziya River, Journal of Safety and Environment 14, 253-257.
51.Li, Y., Shan, B., Chen, J., Tang, W., and Zhang, W. (2014) Analysis of the oxygen-consuming features of pollutants in the North Canal Watershed, northern China, Journal of Safety and Environment 14, 311-315.
52.Lei, P., Zhang, H., Shan, B., and Zhang, G. (2014) Analysis of cod and nh_3-n discharged from industrial pollution source of danjiangkou reservoir area and upper reaches, Resources and Environment in the Yangtze Basin 23, 243-251.
53.Zhao, Y., Shan, B., and Tang, W. (2013) Geochemical characteristics of amino acids in surface sediments of Haihe basin, Acta Scientiae Circumstantiae 33, 3075-3082.
54.Zhang, W., and Shan, B. (2013) Detection of phosphorus species in the sediments of Chaohu Lake by 31P nuclear magnetic resonance spectroscopy(~(31)P-NMR), Acta Scientiae Circumstantiae 33, 1967-1973.
55.Yi, S., Li, J., Zeng, C., Shan, B., and Wang, W. (2013) Horizontal distribution pattern of Phytoplankton species richness and composition in the Haihe river basin, Acta Scientiae Circumstantiae 33, 1467-1474.
56.Tang, W., Li, N., and Shan, B. (2013) Partitioning and transformation of phosphorus in surface soil of land treatment system, Chinese Journal of Environmental Engineering 7, 2383-2390.
57.Lv, S., Zhang, H., Shan, B., and Li, L. (2013) Spatial Distribution and Ecological Risk Assessment of Heavy Metals in the Estuaries Surface Sediments from the Haihe River Basin, Environmental Science 34, 4204-4210.
58.Liu, Y., Fu, Q., Lu, H., Yin, C., Wang, W., Shan, B., and Mao, Z. (2013) The status of phosphorus and its environmental significance in various pond sediments in an agriculture watershed, Environmental Chemistry 32, 2307-2314.
59.Li, S., Shan, B., and Zhang, H. (2013) Characteristics and ecological risk assessment of heavy metal pollution in surface sediments of Fuyang River, Acta Scientiae Circumstantiae 33, 2277-2284.
60.Li, S., Shan, B., and Zhang, H. (2013) Heavy metal speciation in the surface sediments of Fuyang River, Environmental Chemistry 32, 2016-2023.
61.Li, N., Shan, B., Tang, W., and Wang, Y. (2013) Preparation of powder activated carbon by rice husks and its adsorption capacity to phosphorus, Chinese Journal of Environmental Engineering 7, 1024-1028.
62.Lei, P., Zhang, H., and Shan, B. (2013) Analysis of heavy metals pollution and ecological risk assessment in the sediments from the representative river mouths and tributaries of the danjiangkou RESERVOIR, Resources and Environment in the Yangtze Basin 22, 110-117.

More than 20 main projects:
1. 2016-2018 Baiyangdian ecological environment management and protection planning
2. 2017-2019 Water ecology security assessment and strategy research of the middle and lower Yangtze River (ZDRW-ZS-2017-3)
3. 2012-2016 The influence mechanism and restoration path of river ecosystem integrity in Haihe River Basin (2012ZX07203-006)
4. 2012-2018 Haihe River water quality improvement technology integration and comprehensive demonstration project (2012 ZX07203-006) 5. 2008-2012 Technical integration and general plan for integrated water pollution control in Haihe River Basin (2008ZX07209-010)
6. 2012-2017 Comprehensive demonstration of water quality improvement of Lihe River, the heavily polluted tributary of the middle reaches of Fuyang River (2012ZX07203-003)
7. 2012-2017 Research on river ecosystem restoration in the Haihe River (Tianjin section) (2012ZX07203-002)
8.2014-2017 River basin water pollution control and management technology integration research (2014 zx07510-001)
9. 2015-2017 Impact assessment of climate change on water quality in typical regions (201509027)
10.2014-2017 Basic theory and implementation strategy for optimizing water pollution control pattern in Three Gorges Reservoir area (KFJ-EW-STS-010)