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胡春胜


胡春胜 男,1965年生,博士、博导、二级研究员、国科大教授
        中科院遗传与发育生物学研究所副所长、农业资源研究中心主任、河北省人大代表、河北省国土资源厅特邀监察专员。1985年毕业于山西农业大学,1988年毕业于北京农业大学,获硕士学位,1996年毕业于中国科学院沈阳应用生态研究所,获博士学位。1994-1995 曾在美国加州大学洛杉矶分校、国际小麦研究所(墨西哥)合作研究,1999.5-7在澳大利亚科工组织水土资源研究所合作研究, 2002.9-2002.12在美国农业部大平原系统实验室与麻省大学合作研究。


研究方向:
        农田生态系统氮、水、碳循环及土壤生态过程
 
承担科研项目情况:
        主持的主要项目
        国家重点研发计划“农畜牧业氨排放污染高效控制技术”项目
        国家自然科学基金重点项目“厚包气带农田土壤硝酸盐污染反硝化自修复机理研究”
 
学术成就
        曾获省部级及以上科技进步奖6项:
        2017年获河北省科技进步二等奖证书(排名第一),“环渤海低平原区咸水安全灌溉技术集成研究与示范”;
        2013年获河北省科技进步一等奖(排名第一),“华北平原缺水区保护性耕作技术集成研究与示范”;
        2009年获河北省科技进步二等奖(排名第一),“河北省主要农作物精准农业关键技术研究与集成示范”。
        2007年获国家科技进步二等奖(排名第二),“华北半湿润偏旱井灌区节水农业综合技术体系集成与示范”;
        2006年获河北省科技进步一等奖证书(排名第二),“华北半湿润偏旱井灌区节水农业综合技术体系集成与示范”;
        2005年河北省科技进步二等奖证书(排名第三),“河北平原典型地区农业节水示范与地下水可持续利用”;
        发表论文130余篇,其中以第一或通讯作者SCI论文50余篇;取得国家授权专利19项,组织制定河北省地方标准2项,已编写专著6部。
        担任国际SCI杂志“Journal of Soil and Water conservation”编委,中文核心期刊“土壤与作物”编委,中文核心期刊“中国生态农业学报”副主编。
        已培养指导博士生15名,硕士生14名。所培养的研究生中多人荣获中科院院长奖学金、朱李月华优秀博士奖学金等中科院与研究所的奖励。
 
学术兼职
        SCI杂志“Journal of Soil and Water conservation”编委;
        中文核心期刊“土壤与作物”编委;
        中文核心期刊“中国生态农业学报”副主编;
        中国生态学会常务理事;
        中国耕作学会常务理事;
        河北省农业系统工程学会理事长;
        河北省土壤学会副理事长;
        河北省水土保持学会副理事长

代表论著:
1.Bizimana, F., Timilsina, A., Dong, W.X., Uwamungu, J.Y., Li, X.X., Wang, Y.Y., Pandey, B., Qin, S.P., Hu, C.S*. Effects of long-term nitrogen fertilization on N2O, N2 and their yield-scaled emissions in a temperate semi-arid agro-ecosystem. Journal of Soils and Sediments 2021, 21: 1659-1671.
 
2.Wang, Y.Y., Dong, W.X., Zhang, Y.M., Li, X.X., Luo, J.F., Hu, C.S*. δ15N-N2O signatures in response to N fertilization in a wheat-maize rotation. Nutrient Cycling in Agroecosystems 2021, 119: 369–387.
 
3.Bohara,M., Acharya, K., Perveen, S., Manevski, K., Hu, C.S*., Yadav, R.K.P., Shrestha, K., Li, X.X. In situ litter decomposition and nutrient release from forest trees along an elevation gradient in Central Himalaya. Catena 2020, 194: 104698.
 
4.Li, Z.T., Wen, X.M., Hu, C.S*., Li, X.X., Li, S.S., Zhang, X.S., Hu, B.Q. Regional simulation of nitrate leaching potential from winter wheat-summer maize rotation croplands on the North China Plain using the NLEAP-GIS. Model. Agriculture, Ecosystems and Environment 2020, 294: 106861.
 
5.Timilsina, A., Bizimana, F., Pandey, B., Yadav, R.K.P., Dong, W.X., Hu, C.S*. Nitrous Oxide Emissions from Paddies: Understanding the Role of Rice. Plants 2020, 9(2):180.
 
6.Timilsina, A., Zhang, C., Pandey, B., Bizimana, F., Dong, W.X., Hu, C.S*. Potential Pathway of Nitrous Oxide Formation in Plants. Frontiers in Plant Science. 2020. 11:1177.
 
7.Timilsina, A., Dong, W.X., Luo, J.F., Lindsey, S., Wang, Y.Y., Hu, C.S*. Nitrogen isotopic signatures and fluxes of N2O in response to land?use change on naturally occurring saline–alkaline soil. Scientific Reports 2020. 10:21253
 
8.Liu, M.S., Zhang, W.H., Wang, X.G., Wang, F.H., Dong, W.X., Hu, C.S., Liu, B.B., Sun, R.B. Nitrogen leaching greatly impacts bacterial community and denitrifiers abundance in subsoil under long-term fertilization. Agriculture, Ecosystems and Environment 2020, 294: 106885.
 
9.Li, H.J., Zhang, Y.M., Lei, Y.P., Antoniuk, V., Hu, C.S. Evaluating Different Non-Destructive Estimation Methods for Winter Wheat (Triticum aestivum L.) Nitrogen Status Based on Canopy Spectrum. Remote Sens. 2020, 12: 95.
 
10.Wang, F.H., Han, W.X., Chen, S.M., Dong, W.X., Qiao, M., Hu, C.S., Liu, B.B. Fifteen-Year Application of Manure and Chemical Fertilizers Differently Impacts Soil ARGs and Microbial Community Structure. Frontiers in Microbiology 2020, 11: 62
 
11.Friedl, J., Cardenas, L.M., Clough, T.J., Dannenmann, M., Hu, C.S., Scheer, C. Measuring denitrification and the N2O:(N2O+N2) emission ratio from terrestrial soils. Current Opinion in Environmental Sustainability 2020, 47: 61-71.
 
12.Sun, R.B., Chen, Y., Han, W.X., Dong, W.X., Zhang, Y.M., Hu, C.S., Liu, B.B., Wang, F.H. Different contribution of species sorting and exogenous species immigration from manure to soil fungal diversity and community assemblage under long-term fertilization. Soil Biology and Biochemistry 2020, 151: 108049.
 
13.Chen, T., Oenema, O., Li, J.Z., Misselbrook, T., Dong, W.X., Qin, S.P., Yuan, H.J., Li, X.X., Hu, C.S*. Seasonal variations in N2 and N2O emissions from a wheat-maize cropping system. Biology and Fertility of Soils. 2019, 55: 539-551.
 
14.He, C.H., Manevski, K., Andersen, M., Hu, C.S*., Dong, W.X., Li, J.Z. Abiotic mechanisms for biochar effects on soil N2O emission. International Agrophysics 2019, 33, 537-546.
 
15.Bohara, M., Yadav, R.K.P., Dong, W.X., Cao, J.S., Hu, C.S*. Nutrient and Isotopic Dynamics of Litter Decomposition from Different Land Uses in Naturally Restoring Taihang Mountain, North China. Sustainability. 2019, 11: 1752.
 
16.Uwamungu, J.Y., Nartey, O.D., Uwimpaye, F., Dong, W.D. Evaluating Biochar Impact on Topramezone Adsorption Behavior on Soil under No-Tillage and Rotary Tillage Treatments: Isotherms and Kinetics. International Journal of Environmental Research and Public Health. 2019, 16, 5034.
 
17.Dong, W.X., Walkiewicz, A., Bieganowski, A., Oenema, O., Nosalewicz, M., He, C.H., Zhang, Y.M., Hu, C.S*. Biochar promotes the reduction of N2O to N2 and concurrently suppresses the production of N2O in calcareous soil. Geoderma 2020, 362: 114091.
 
18.Bai, Z.H., Winiwarter, W., Klimont, Z., Velthof, G., Misselbrook, T., Zhao, Z.Q., Jin, X.P., Oenema, O., Hu, C.S*., Ma, L*. Further Improvement of Air Quality in China Needs Clear Ammonia Mitigation Target. Environmental Science & Technology. 2019, 53: 10542-10544.
 
19.Chen, S.M., Waghmode, T.R., Sun, R.B., Kuramae, E.E., Hu, C.S*., Liu, B.B*. Root-associated microbiomes of wheat under the combined effect of plant development and nitrogen fertilization. Microbiome 2019, 7:136.
 
20.Li, W.Y., Xiao, Q., Hu, C.S., Liu, B.B., Sun. R.B. A comparison of the e?ciency of di?erent urease inhibitors and their e?ects on soil prokaryotic community in a short-term incubation experiment. Geoderma  2019, 354: 113877.
 
21.Sun, R.B., Li, W.Y., Hu, C.S., Liu, B.B. Long-term urea fertilization alters the composition and increases the abundance of soil ureolytic bacterial communities in an upland soil. FEMS Microbiology Ecology. 2019, 95(5): fiz044.
 
22.Wang, S.Q., Wei, S.C., Liang, H.Y., Zheng, W.B., Li, X.X., Hu, C.S., Currell, M.J., Zhou, F., Min, L.L. Nitrogen stock and leaching rates in a thick vadose zone below areas of longterm nitrogen fertilizer application in the North China Plain: A future groundwater quality threat. Journal of Hydrology 2019, 576: 28-40.
 
23.Lu, J., Bai, Z.H., Chadwick, D., Velthof, G.L., Zhao, H., Li, X.X., Hu, C.S., Ma, L. Mitigation options to reduce nitrogen losses to water from crop and livestock production in China. Current Opinion in Environmental Sustainability 2019, 40: 95-107.
 
24.Liu, M.S., Chen, S.M., Wang, S.Q., Hu, C.S., Liu, B.B. High-quality draft genome sequence of pseudomonas songnenensis L103, a denitrifier isolated from a 100-Meter-Deep aquifer in a heavily nitrogen-fertilized agricultural area.  Microbiology Resource Announcements. 2019,8:e00373-19.
 
25.Yuan, H.J., Zhang, Z.J., Qin, S.P., Zhou, S.G., Hu, C.S., Clough, T., Wrage-M?nnig, N., Luo, J.F., Conrad, R. Effects of nitrate and water content on acetylene inhibition technique bias when analysing soil denitrification rates under an aerobic atmosphere. Geoderma. 2019, 334: 33-36.
 
26.Wu, D.M., Horn, M.A., Behrendt, T., Müller, S., Li, J.S., Cole, J.A., Xie, B.H., Ju, X.T., Li, G., Ermel, M., Oswald, R., Fr?hlich-Nowoisky, J., Hoor, P., Hu, C.S., Liu, M., Andreae, M.O., P?schl, U., Cheng, Y.F.,  Su, H., Trebs, I., Weber, B., S?rgel, M. Soil HONO emissions at high moisture content are driven by microbial nitrate reduction to nitrite: tackling the HONO puzzle. The ISME Journal 2019, 13: 1688-1699.
 
27.Qin, S.P., Yu, L.P., Yang, Z.J., Li, M.Y., Clough, T., Wrage-Mo?nnig, N., Hu, C.S., Liu, B.B., Chen, S.M., Zhou, S.G. Electrodes donate electrons for nitrate reduction in a soil Matrix via DNRA and denitrification. Environmental Science & Technology 2019, 53, 2002?2012.
 
28.Wang, Y.Y., Li, X.X., Dong, W.X., Wu, D.M., Hu, C.S*., Zhang Y. M., Luo, Y.Q. Depth-dependent greenhouse gas production and consumption in an upland cropping system in northern China. Geoderma 2018, 319: 100-112.
 
29.Li, J.Z., Dong, W.X., Oenema, O., Chen, T., Hu, C.S*., Yuan, H.J., Zhao, L.Y. 2019. Irrigation reduces the negative effect of global warming on winter wheat yield and greenhouse gas intensity. Science of the Total Environment 2019, 646: 290-299.
 
30.Waghmode Tatoba, R., Chen, S.M., Li, J.Z., Sun, R.B., Liu, B.B*., Hu, C.S*. Response of Nitrifier and Denitrifier Abundance and Microbial Community Structure to Experimental Warming in an Agricultural Ecosystem. Frontiers in Microbiology 2018, 9(474): 1-12.
 
31.Bai, Z.H., Lu, J., Zhao, H., Velthof Gerard, L., Oenema, O., Chadwick, D., Williams, J.R., Jin, S.Q., Liu, H.B., Wang, M.R., Strokal, M., Kroeze, C., Hu, C.S*., Ma, L*. Designing Vulnerable Zones of Nitrogen and Phosphorus Transfers To Control Water Pollution in China. Environmental Science & Technology. 2018, 52(16): 8987-8988.
 
32.Bai, Z.H., Lee, M.R.F., Ma, L., Ledgard, S., Oenema, O., Velthof, L.G., Ma, W.Q., Guo, M.C., Zhao, Z.Q., Wei, S., Li, S.L., Liu, X., Havlík, P., Luo, J.F., Hu, C.S., Zhang, F.S. Global environmental costs of China’s thirst for milk. Global Change Biology 2018, 24(5):2198-2211.
 
33.Chen, S.M., Wang, F.H., Zhang, Y.M., Qin, S.P., Wei, S.C., Wang S.Q., Hu, C.S., Liu, B.B. Organic carbon availability limiting microbial denitrification in the deep vadose zone. Environmental Microbiology. 2018, 20(3): 980-992.
 
34.Sun, R.B., Li, W.Y., Dong, W.X., Tian, Y.P., Hu, C.S., Liu, B.B. Tillage Changes Vertical Distribution of Soil Bacterial and Fungal Communities. Frontiers in Microbiology 2018, 9: 699.
 
35.Manevski, K., B?rgesen. D.C., Li, X.X., Andersen, M.N., Zhang, X.Y., Shen, Y.J., Hu, C.S. Modelling agro-environmental variables under data availability limitations and scenario managements in an alluvial region of the north China plain. Environmental Modelling & Software 2019, 111: 94-107.
 
36.Qin, S.P., Clough, T.J., Luo, J.F., Wrage-M?nnig, N., Oenema, O., Zhang, Y.M., Hu, C.S*. Perturbation-free measurement of in situ di-nitrogen emissions from denitrification in nitrate-rich aquatic ecosystems. Water Research 2017: 109: 94-101.
 
37.Qin, S.P., Hu, C.S*., Clough, T.J., Luo, J.F., Oenema, O., Zhou, S.G. Irrigation of DOC-rich liquid promotes potential denitrification rate and decreases N2O/(N2O+N2) product ratio in a 0-2 m soil profile. Soil Biology & Biochemistry 2017, 106: 1-8.
 
38.Qin, S.P., Pang, Y. X., Clough, T.J., Wrage-M?nnig, N., Hu, C.S*., Zhang, Y.M., Zhou, S.G., Fang, Y.T. N2 production via aerobic pathways may play a significant role in nitrogen cycling in upland soils. Soil Biology & Biochemistry 2017, 108: 36-40.
 
39.Qin, S.P., Ding, K., Clough, T.J., Hu, C.S*., Luo, J.F. Temporal in situ dynamics of N2O reductase activity as affected by nitrogen fertilization and implications for the N2O/(N2O+N2) product ratio and N2O mitigation. Biol Fertil Soils 2017, 53: 723–727.
 
40.Yuan, H. J., Qin, S.P., Dong, W.X., Hu, C.S*., Manevski, K., Li, X.X. Denitrification Rates and Controlling Factors for Accumulated Nitrate in the 0-12 m Intensive Farmlands: a Case Study in the North China Plain. Pedosphere 2017, 29(4): 516-526.
 
41.Li, Z.T., Yang, J.Y., Drury, C.F., Yang, X.M., Reynolds, W.D., Li, X.G., Hu, C.S. Evaluation of the DNDC model for simulating soil temperature,moisture and respiration from monoculture and rotational corn,soybean and winter wheat in Canada. Ecological Modelling 2017, 360: 230-243.
 
42.Zhou, H., Fang, H., Hu, C.S., Jon Mooney, S., Dong, W.X., Peng X.H. Inorganic Fertilization Effects on the Structure of a Calcareous Silt Loam Soil. Soil Fertility & Crop Nutrition 2017, 109(6): 1-10.
 
43.Ju, Z.Q., Hu, C.S. Experimental warming alters soil hydro-thermal properties and heat flux in a winter wheat field. Archives of Agronomy and Soil Science 2018, 64(5): 718-730.
 
44.Bai, Z,H., Li, X.X., Lu, J., Wang, X., Velthof, G.L., Luo, J.F., Ledgard, S., Wu, Z.G., Jin, S.Q., Oenema, O., Ma, L., Hu, C.S. Livestock Housing and Manure Storage Need to Be Improved in China. Environ. Sci. Technol. 2017, 51 (15): 8212–8214.
 
45.Qin, S.P., Clough, T., Luo, J.F., Wrage-M?nnig, N., Oenema, O., Zhang, Y.M., Hu, C.S*. Perturbation-free measurement of in situ di-nitrogen emissions from denitrification in nitrate-rich aquatic ecosystems. Water Research 2017, 109: 94-101.
 
46.Dong, W.X., Duan, Y.M., Wang, Y.Y., Hu, C.S*. Reassessing carbon sequestration in the North China Plain via addition of nitrogen. Science of the Total Environment 2016, 563–564: 138–144
 
47.Liu, L., Hu C*., Olesen J. E., Ju, Z.Q., Zhang, X.Y. Effect of warming and nitrogen addition on evapotranspiration and water use efficiency in a wheat-soybean/fallow rotation from 2010 to 2014. Climatic Change. 2016, 139: 565–578.
 
48.Liu, L., Hu, C*., Yang, P., Ju, Z., Olesen J., Tang, J. Experimental warming-driven soil drying reduced N2O emissions from fertilized crop rotations of winter wheat–soybean/fallow, 2009–2014. Agriculture Ecosystems & Environment 2016, 219: 71-82.
 
49.Manevski, K., Borgesen, C.D., Li, X.X., Andersen, M.N., Zhang, X.Y., Abrahamsen, P., Hu, C.S., Hansen, S. Optimising crop production and nitrate leaching in China: Measured and simulated effects of straw incorporation and nitrogen fertilisation. European Journal of Agronomy 2016, 80: 32-44.
 
50.Manevski, K., Borgesen, C.D., Li, X.X., Andersen, M.N., Abrahamsen, P., Hu, C.S., Hansen, S. Integrated modelling of crop production and nitrate leaching with the Daisy model. MethodsX  2016, 3: 350-363
 
51.Wang, Y.Y., Hu, C.S*., Dong, W. X., Li, X.X., Zhang, Y.M., Qin, S.P., Oenema, O. Carbon budget of a winter-wheat and summer-maize rotation cropland in the North China Plain. Agriculture, Ecosystems and Environment 2015, 206: 33–45.
 
52.Liu, L., Hu, C*., Yang, P., Ju, Z., Olesen, J.E., Tang, J. Effects of experimental warming and nitrogen addition on soil respiration and CH4 fluxes from crop rotations of winter wheat–soybean/fallow. Agricultural and Forest Meteorology 2015, 207: 38-47.
 
53.Wei, Q., Hu, C.S*., Oenema, O. Soil mulching significantly enhances yields and water and nitrogen use efficiencies of maize and wheat: a meta-analysis. Scientific Reports 2015, 5:16210 DOI: 10.1038/srep16210.
 
54.Du, Z., T. Ren, C. Hu, and Q. Zhang. Transition from intensive tillage to no-till enhances carbon sequestration in microaggregates of surface soil in the North China Plain. Soil and Tillage Research 2015, 146: 26-31
 
55.Liang, M.Y., Wang, G.Y., Liang, W.L., Shi, P.F., Jing, D., Peng, S., Hu, C.S. Yield and quality of maize stover: Variation among cultivars and effects of N fertilization. Journal of Integrative Agriculture 2015, 14: 1581-1587.
 
56.Qin, S., Yuan, H., Hu, C*., Oenema, O. Determination of potential N2O-reductase activity in soil. Soil Biology and Biochemistry 2014, 70: 205-210.
 
57.Wang, Y.Y., Hu, C.S*., Ming, H., Oenema, O., Schaefer, D. A., Dong, W.X., Zhang, Y.M., Li, X.X. Methane, Carbon dioxide and nitrous oxide fluxes in soil profile under a winter wheat-summer maize rotation in the North China Plain. PLoS ONE 2014, 9(6): e98445.
 
58.Qin, S., Yuan, H., Dong, W., Hu, C*., Oenema, O., Zhang, Y. Relationship between soil properties and the bias of N2O reduction by acetylene inhibition technique for analyzing soil denitrification potential. Soil Biology and Biochemistry 2013, 66: 182-187.
 
59.Wu, D., Dong, W., Oenema, O., Wang, Y., Trebs, I., Hu, C*. N2O consumption by low-nitrogen soil and its regulation by water and oxygen. Soil Biology and Biochemistry 2013, 60: 165-172.
 
60.Qin S, Hu C*, Oenema O. Quantifying the underestimation of soil denitrification potential as determined by the acetylene inhibition method. Soil Biology & Biochemistry 2012, 47:14-17.
 
61.Liu, L., Hu, C*., Olesen, J. E., Ju, Z., Yang, P., Zhang, Y. Warming and nitrogen fertilization effects on winter wheat yields in northern China varied between four years. Field Crops Research 2013, 151: 56-64.
 
62.Qin, S., Hu, C*., & Oenema, O. Differentiating Intracellular from Extracellular Alkaline Phosphatase Activity in Soil by Sonication. PloS one 2013, 8(3): e58691.
 
63.Zhou, W., Hu, C.S*., Li, J., Christie, P., He, X. H., Ju, X. T. Natural 15N Abundance in Winter Wheat Amended with Urea and Compost: A Long-Term Experiment. Pedosphere 2013, 23(6): 835-843.
 
64.Wang, Y. Y., Hu, C.S*., Ming, H., Zhang, Y. M., Li, X. X., Dong, W. X., & Oenema, O. Concentration profiles of CH4, CO2 and N2O in soils of a wheat-maize rotation ecosystem in North China Plain, measured weekly over a whole year. Agriculture, ecosystems & environment 2013, 164: 260-272.
 
65.Qin, S., Wang, Y., Hu, C*., Oenema, O., Li, X., Zhang, Y., Dong, W. Yield-scaled N2O emissions in a winter wheat summer corn double-cropping system. Atmospheric Environment 2012, 55:240-244.
 
66.Schindler U, Mueller L, da Veiga M, Zhang Y, Schlindwein S, Hu C. Comparison of water-retention functions obtained from the extended evaporation method and the standard methods sand/kaolin boxes and pressure plate extractor. Journal of Plant Nutrition and Soil Science 2012, 175:527-534.
 
67.Zhou W, Hu C*, Li J, Christie P, Ju X. Natural 15N abundance of tomato and soil amended with urea and compost. International Journal of Food Agriculture and Environment 2012, 10: 287-293.
 
68.Dong W, Hu C*, Zhang Y, Wu D Gross mineralization, nitrification and N2O emission under different tillage in the North China Plain. Nutrient Cycling in Agroecosystems 2012, 94(2): 237-247.
 
69.Wang, Y., Hu, C.S*., Dong, W.X. Relationship between soil nutrient sand soil microbial biomass, structure and diversity under different tillage management in wheat-corn doubling cropping system. Freseniuns environmental bulletin. 2011, 20(7):1711-1718.
 
70.Ju, Z.Q., Ren, T.S., Hu, C.S. Soil Thermal Conductivity as Influenced by Aggregation at Intermediate Water Contents. Soil Science Society of America Journal 2011, 75(1): 26-29.
 
71.Qin S.P., Hu, C.S*., He, X.H., Dong, W.X., Cui, J.F., Wang, Y. Soil organic carbon, nutrients and relevant enzyme activities in particle-size fractions under conservational versus traditional agricultural management Applied Soil Ecology 2010, 45(3): 152-159.  
 
72.Qin S.P., He, X.H., Hu, C.S*., Zhang, Y.M., Dong, W.X. Responses of soil chemical and microbial indicators to conservational tillage versus traditional tillage in the North China Plain. European Journal of Soil Biology 2010, 46(3-4): 243-247.
 
73.Wang, Y.Y., Hu, C.S*., Zhu, B*., Xiang, H.Y., He, X.H. Effects of wheat straw application on methane and nitrous oxide emissions from purplish paddy fields. Plant Soil and Environment 2010, 56 (1): 16-22.
 
74.Du, Z.L., Ren, T.S., Hu, C.S., Tillage and Residue Removal Effects on Soil Carbon and Nitrogen Storage in the North China Plain. Soil Science Society of America Journal 2010, 74: 196-202.
 
75.Qin, S.P., Dong, W.X., Hu, C.S*. Tillage affecting the turnover rate of soil urease: implications for soil enzyme assays and ecological modeling. Fresenius Environmental Bulletin 2010, 19: 717-720. 
 
76.Dong, W.X., Hu, C.S*., Chen, S.Y., Zhang, Y.M. Tillage and residue management effects on soil carbon and CO2 emission in a wheat-corn double-cropping system. Nutrient Cycling in Agroecosystems 2009, 83: 27-37.
 
77.Mueller, L., Kay, B.D., Deen, B., Hu, C.S., Zhang, Y.M., Wolff, M., Eulenstein, F., Schindler, U. Visual assessment of soil structure: Part II. Implications of tillage, rotation and traffic on sites in Canada, China and Germany. Soil & Tillage Research 2009, 103: 188-196.
 
78.Mueller, L., Kay, B.D., Hu, C.S., Li, Y., Schindler, U., Behrendt, A., Shepherd, T.G., Ball, B.C. Visual assessment of soil structure: Evaluation of methodologies on sites in Canada, China and Germany Part I: Comparing visual methods and linking them with soil physical data and grain yield of cereals. Soil & Tillage Research 2009, 103: 178-187.
 
79.Delgado, J.A., Shaffer, M., Hu, C.S, Lavado, R., Cueto-Wong, J., Joosse, P., Sotomayor, D., Colon, W., Follett, R., DelGrosso, S., Li, X., Rimski-Korsakov, H. An index approach to assess nitrogen losses to the environment. Ecological Engineering 2008, 32: 108-120.
 
80.Wang, Y.Y., Zhu, B., Shi, Y., Hu, C.S. Effects of nitrogen fertilization on upland rice based on pot experiments. Communications in Soil Science and Plant Analysis 2008, 39: 1733-1749.
 
81.Li, X.X., Hu*, C.S., Delgado, J.A., Zhang, Y.M., Ouyang, Z.Y. Increased nitrogen use efficiencies as a key mitigation alternative to reduce nitrate leaching in north China plain. Agricultural Water Management 2007, 89: 137-147.
 
82.Delgado, J.A., Shaffer, M., Hu, C.S., Lavado, R.S., Wong, J.C., Joosse, P., Li, X.X., Rimski-Korsakov, H., Follett, R., Colon, W., Sotomayor, D. A decade of change in nutrient management: A new nitrogen index. Journal of Soil and Water Conservation 2006, 61(2): 62a-71a.
 
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  * indicates corresponding author.
 
获奖及荣誉:
        国务院政府特殊津贴(国务院2006-491032号),河北省优秀科技工作者(2009,省组织部、科技厅、人事厅、科协),河北省优秀青年(2003,河北省省委、省政府),河北省政府二等功(2003,河北省政府),河北省直五一劳动奖章 (2011,河北省直工委),中科院朱李月华优秀老师奖(2008,中国科学院),全国优秀科技工作者(2010,中国科协技术协会),全国野外先进科技工作者(2009,科技部),中国生态系统研究网络科技贡献奖(2014年,中国科学院生态系统研究网络科学委员会),中国科学院优秀导师奖(2015年,中国科学院),中国科学院“优秀研究生指导教师”奖(2016年,中国科学院),河北省第八批优秀省管专家(2019年,河北省委组织部)