师资队伍

赵英

发表日期:2021年11月16日 22:22 文章编辑: 浏览次数:

 


个人信息简介

姓名:赵英

学历:博士研究生

所属教研室:地理科学与教育系

职称:教授

职务:土壤健康与果蔬品质研究院院长

人才称号:国家人才项目青年专家、“JSPS研究员”、“马普学者”、山东省杰青、泰山学者青年专家、陕西省青年科技新星、烟台市高端“双百计划”人才

邮箱:yzhaosoils@gmail.com


教育经历:

1998.092002.07,西北师范大学,地理学,学士

2002.092005.07,中国科学院南京土壤研究所,水土保持与荒漠化防治,硕士

2005.102008.02,基尔大学(Christian-Albrecht-Universitaet zu Kiel),土壤学,博士


工作经历:

2008.042009.10,基尔大学(Christian-Albrecht-Universitaet zu Kiel),土壤与植物营养系,研究助理

2009.122014.12,西北农林科技大学,资源环境学院,副教授

2010.122011.12,日本东京大学(The University of Tokyo),环境地水学系,博士后

2011.082012.07,美国宾夕法尼亚州立大学(The Pennsylvania State University),土壤与作物系,博士后

2015.012017.12,中国科学院新疆生态与地理研究所,荒漠环境室,研究员

2016.012017.12,加拿大萨斯喀彻温大学(University of Saskatchewan),土壤系,访问教授

2017.12—至今,鲁东大学,资源与环境工程学院,教授

2020.10—至今,鲁东大学,现代农业高质量发展产教融合东营基地主任

2021.08—至今,鲁东大学,土壤健康与果蔬品质研究院院长


学术兼职:重要学术组织兼职

12021.052024.04,国际土壤耕作研究组织(International Soil Tillage Research OrganizationISTRO),理事

22012.092018.04,中国土壤学会土壤物理委员会,委员

32020.062023.05,山东省留学人员协会,理事


重要学术期刊编委兼职:

12020.012024.12Water编辑

22020.012024.12Soil & Tillage Research编辑

32017.072022.06International Journal of AgricultureSoil & Environment,编辑

现为教育部学位论文评审专家以及中国土壤学会土壤物理委员会委员,获得2020年度山东省“留学回国人员创业奖”,是烟台欧美同学会会员、烟台市统一战线助力新旧动能转换专家团成员等。


研究方向与招生:

研究方向:土壤水文、盐碱地改良

硕士招生方向:地理学


承担课程:

研究生课程:高等水文学、专业英语、科技论文写作

本科生课程:水文学 


著作论文:

一、近5年发表代表性论文:

1.Chen, H., J. Liu, A. Zhang, J. Chen, G. Cheng, B. Sun, X. Pi, M. Dyck, B. Si, Y. Zhao, and H. Feng. 2017. Effects of straw and plastic film mulching on greenhouse gas emissions in Loess Plateau, China: A field study of 2 consecutive wheat-maize rotation cycles. Science of the Total Environment 579: 814-824.

2.Chen, H.X., L.C. Li, X.Q. Luo, Y. Li, D.L. Liu, Y. Zhao, H. Feng, and J. Deng. 2019. Modeling impacts of mulching and climate change on crop production and N2O emission in the Loess Plateau of China. Agricultural and Forest Meteorology 268: 86-97.

3.Ding, D., H. Feng, Y. Zhao, R.L. Hill, H. Yan, H. Chen, H. Hou, X. Chu, J. Liu, N. Wang, T. Zhang, and Q. Dong. 2019. Effects of continuous plastic mulching on crop growth in a winter wheat-summer maize rotation system on the Loess Plateau of China. Agricultural and Forest Meteorology 271: 385-397.

4.Ding, D., Y. Zhao, H. Feng, R.L. Hill, X. Chu, T. Zhang, and J. He. 2018a. Soil water utilization with plastic mulching for a winter wheat-summer maize rotation system on the Loess Plateau of China. Agricultural Water Management 201: 246-257.

5.Ding, D., Y. Zhao, H. Feng, X. Peng, and B. Si. 2016a. Using the double-exponential water retention equation to determine how soil pore-size distribution is linked to soil texture. Soil & Tillage Research 156: 119-130.

6.Ding, D., Y. Zhao, H. Guo, X. Li, J. Schoenau, and B. Si. 2018b. Water footprint for pulse, cereal, and oilseed crops in Saskatchewan, Canada. Water 10 no. 11: 1609.

7.Ding, D.Y., H. Feng, Y. Zhao, J.Q. He, Y.F. Zou, and J.M. Jin. 2016b. Modifying winter wheat sowing date as an adaptation to climate change on the Loess Plateau. Agronomy Journal 108 no. 1: 53-63.

8.Ding, D.Y., H. Feng, Y. Zhao, W.Z. Liu, H.X. Chen, and J.Q. He. 2016c. Impact assessment of climate change and later-maturing cultivars on winter wheat growth and soil water deficit on the Loess Plateau of China. Climatic Change 138 no. 1-2: 157-171.

9.Ding, D.Y., Y. Zhao, H. Feng, B.C. Si, and R.L. Hill. 2016d. A user-friendly modified pore-solid fractal model. Scientific Reports 6: 39029.

10.Dong, Z., C. Li, S. Li, J. Lei, Y. Zhao, and H. Umut. 2020a. Stoichiometric features of C, N, and P in soil and litter of Tamarix cones and their relationship with environmental factors in the Taklimakan Desert, China. Journal of Soils and Sediments 20 no. 2: 690-704.

11.Dong, Z., S. Li, Y. Zhao, J. Lei, Y. Wang, and C. Li. 2020b. Stable oxygen-hydrogen isotopes reveal water use strategies of Tamarix taklamakanensis in the Taklimakan Desert, China. Journal of Arid Land 12: 115-129.

12.Du, K.C., Y. Zhao, and J.Q. Lei. 2017. The incorrect usage of singular spectral analysis and discrete wavelet transform in hybrid models to predict hydrological time series. Journal of Hydrology 552: 44-51.

13.Du, Y., W. Niu, X. Gu, Q. Zhang, B. Cui, and Y. Zhao. 2018. Crop yield and water use efficiency under aerated irrigation: A meta-analysis. Agricultural Water Management 210: 158-164.

14.Guo, H., and Y. Zhao. 2020. Using isotopic labeling to investigate root water uptake in an alley cropping system within Taklimakan Desert Oasis, China. Agroforestry Systems: 1-12.

15.He, H., Y. Zhao, M.F. Dyck, B. Si, H. Jin, J. Lv, and J. Wang. 2017. A modified normalized model for predicting effective soil thermal conductivity. Acta Geotechnica 12 no. 6: 1281-1300.

16.He, H.L., M. Dyck, Y. Zhao, B.C. Si, H.J. Jin, T.J. Zhang, J.L. Lv, and J.X. Wang. 2016. Evaluation of five composite dielectric mixing models for understanding relationships between effective permittivity and unfrozen water content. Cold Regions Science and Technology 130: 33-42.

17.Jiang, R., X. Li, M. Zhou, H.J. Li, Y. Zhao, J. Yi, L.L. Cui, M. Li, J.G. Zhang, and D. Qu. 2016. Plastic film mulching on soil water and maize (Zea mays L.) yield in a ridge cultivation system on Loess Plateau of China. Soil Science and Plant Nutrition 62 no. 1: 1-12.

18.Khan, M.N., Z.L. Lan, T.A. Sial, Y. Zhao, A. Haseeb, J.G. Zhang, A.F. Zhang, and R.L. Hill. 2019. Straw and biochar effects on soil properties and tomato seedling growth under different moisture levels. Archives of Agronomy and Soil Science 65 no. 12: 1704-1719.

19.Lan, Z., Y. Zhao, J. Zhang, X. Yang, T.A. Sial, and M.N. Khan. 2020. Effects of the longterm fertilization on pore and physicochemical characteristics of loess soil in Northwest China. Agronomy Journal 112 no. 6: 4741-4751.

20.Lan, Z.L., Y. Zhao, J.G. Zhang, R. Jiao, M.N. Khan, T.A. Sial, and B.C. Si. 2021. Long-term vegetation restoration increases deep soil carbon storage in the Northern Loess Plateau. Scientific Reports 11 no. 1: 11.

21.Li, F., Y. Zhao, J. Zheng, J. Luo, and X. Zhang. 2016a. Monitoring grazing intensity: an experiment with canopy spectra applied to satellite remote sensing. Journal of Applied Remote Sensing 10 no. 2.

22.Li, F., J.J. Zheng, H. Wang, J.H. Luo, Y. Zhao, and R.B. Zhao. 2016b. Mapping grazing intensity using remote sensing in the Xilingol steppe region, Inner Mongolia, China. Remote Sensing Letters 7 no. 4: 328-337.

23.Li, J., Y. Zhao, A. Zhang, B. Song, and R.L. Hill. 2021. Effect of grazing exclusion on nitrous oxide emissions during freeze-thaw cycles in a typical steppe of Inner Mongolia. Agriculture, Ecosystems & Environment 307: 107217.

24.Li, Y., X. Ren, R. Hill, R. Malone, and Y. Zhao. 2018. Characteristics of water infiltration in layered water-repellent soils. Pedosphere 28 no. 5: 775-792.

25.Li, Z., M. Song, H. Feng, and Y. Zhao. 2016c. Withinseason yield prediction with different nitrogen inputs under rainfed condition using CERESWheat model in the northwest of China. Journal of the Science of Food and Agriculture 96 no. 8: 2906-2916.

26.Mao, D., J. Lei, Y. Zhao, J. Zhao, F. Zeng, and J. Xue. 2016. Effects of variability in landscape types on the microclimate across a desert–oasis region on the southern margins of the Tarim Basin, China. Arid Land Research and Management 30 no. 1: 89-104.

27.Qi, Z., H. Feng, Y. Zhao, T. Zhang, A. Yang, and Z. Zhang. 2018. Spatial distribution and simulation of soil moisture and salinity under mulched drip irrigation combined with tillage in an arid saline irrigation district, northwest China. Agricultural Water Management 201: 219-231.

28.Qi, Z.J., T.B. Zhang, L.F. Zhou, H. Feng, Y. Zhao, and B.C. Si. 2016. Combined effects of mulch and tillage on soil hydrothermal conditions under drip irrigation in Hetao Irrigation District, China. Water 8 no. 11.

29.Rahmati, M., L. Weihermuller, J. Vanderborght, Y.A. Pachepsky, L.L. Mao, S.H. Sadeghi, N. Moosavi, H. Kheirfam, C. Montzka, K. Van Looy, B. Toth, Z. Hazbavi, W. Al Yamani, A.A. Albalasmeh, M.Z. Alghzawi, R. Angulo-Jaramillo, A.C.D. Antonino, G. Arampatzis, R.A. Armindo, H. Asadi, Y. Bamutaze, J. Batlle-Aguilar, B. Bechet, F. Becker, G. Bloschl, K. Bohne, I. Braud, C. Castellano, A. Cerda, M. Chalhoub, R. Cichota, M. Cislerova, B. Clothier, Y. Coquet, W. Cornelis, C. Corradini, A.P. Coutinho, M.B. de Oliveira, J.R. de Macedo, M.F. Duraes, H. Emami, I. Eskandari, A. Farajnia, A. Flammini, N. Fodor, M. Gharaibeh, M.H. Ghavimipanah, T.A. Ghezzehei, S. Giertz, E.G. Hatzigiannakis, R. Horn, J.J. Jimenez, D. Jacques, S.D. Keesstra, H. Kelishadi, M. Kiani-Harchegani, M. Kouselou, M.K. Jha, L. Lassabatere, X.Y. Li, M.A. Liebig, L. Lichner, M.V. Lopez, D. Machiwal, D. Mallants, M.S. Mallmann, J.D.D. Marques, M.R. Marshall, J. Mertens, F. Meunier, M.H. Mohammadi, B.P. Mohanty, M. Pulido-Moncada, S. Montenegro, R. Morbidelli, D. Moret-Fernandez, A.A. Moosavi, M.R. Mosaddeghi, S.B. Mousavi, H. Mozaffari, K. Nabiollahi, M.R. Neyshabouri, M.V. Ottoni, T.B. Ottoni, M.R. Pahlavan-Rad, A. Panagopoulos, S. Peth, P.E. Peyneau, T. Picciafuoco, J. Poesen, M. Pulido, D.J. Reinert, S. Reinsch, M. Rezaei, F.P. Roberts, D. Robinson, J. Rodrigo-Comino, O.C.R. Filho, T. Saito, H. Suganuma, C. Saltalippi, R. Sandor, B. Schutt, M. Seeger, N. Sepehrnia, E.S. Moghaddam, M. Shukla, S. Shutaro, R. Sorando, A.A. Stanley, P. Strauss, Z.B. Su, R. Taghizadeh-Mehrjardi, E. Taguas, W.G. Teixeira, A.R. Vaezi, M. Vafakhah, T. Vogel, I. Vogeler, J. Votrubova, S. Werner, T. Winarski, D. Yilmaz, M.H. Young, S. Zacharias, Y.J. Zeng, Y. Zhao, H. Zhao, and H. Vereecken. 2018. Development and analysis of the Soil Water Infiltration Global database. Earth System Science Data 10 no. 3: 1237-1263.

30.Sial, T.A., M.N. Khan, Z.L. Lan, F. Kumbhar, Z. Ying, J.G. Zhang, D.Q. Sun, and X. Li. 2019a. Contrasting effects of banana peels waste and its biochar on greenhouse gas emissions and soil biochemical properties. Process Safety and Environmental Protection 122: 366-377.

31.Sial, T.A., Z. Lan, L. Wang, Y. Zhao, J. Zhang, F. Kumbhar, M. Memon, M.S. Lashari, and A.N. Shah. 2019b. Effects of Different Biochars on Wheat Growth Parameters, Yield and Soil Fertility Status in a Silty Clay Loam Soil. Molecules (Basel, Switzerland) 24 no. 9.

32.Sial, T.A., Z.L. Lan, M.N. Khan, Y. Zhao, F. Kumbhar, J. Liu, A.F. Zhang, R.L. Hill, A.H. Lahori, and M. Memon. 2019c. Evaluation of orange peel waste and its biochar on greenhouse gas emissions and soil biochemical properties within a loess soil. Waste Management 87: 125-134.

33.Sial, T.A., J. Liu, Y. Zhao, M.N. Khan, Z.L. Lan, J.G. Zhang, F. Kumbhar, K. Akhtar, and I. Rajpar. 2019d. Co-Application of Milk Tea Waste and NPK Fertilizers to Improve Sandy Soil Biochemical Properties and Wheat Growth. Molecules 24 no. 3: 17.

34.Sial, T.A., I. Rajpar, M. Memon, M.S. Lashari, Y. Zhao, P.K. Korai, F. Kumbhar, and K. Akthar. 2019e. Comparison of toxic effects of alkali salts (Na2CO3 and NaHCO3) on sorghum growth parameters and soil chemical properties. Fresenius Environmental Bulletin 28 no. 5: 3729-3739.

35.Wang, Y.D., Y. Zhao, S.Y. Li, F.Y. Shen, M.M. Jia, J.G. Zhang, X.W. Xu, and J.Q. Lei. 2018. Soil aggregation formation in relation to planting time, water salinity, and species in the Taklimakan Desert Highway shelterbelt. Journal of Soils and Sediments 18 no. 4: 1466-1477.

36.Xue, J., D.W. Gui, Y. Zhao, J.Q. Lei, F.J. Zeng, X.L. Feng, D.L. Mao, and M. Shareef. 2016. A decision-making framework to model environmental flow requirements in oasis areas using Bayesian networks. Journal of Hydrology 540: 1209-1222.

37.Yao, Z.Y., Q. Xu, Y.P. Chen, N. Liu, L.D. Huang, Y. Zhao, D.B. Zhang, Y.Y. Li, S.Q. Zhang, W.D. Cao, B.N. Zhai, Z.H. Wang, S.N. Adl, and Y.J. Gao. 2019. Enhanced Stabilization of Soil Organic Carbon by Growing Leguminous Green Manure on the Loess Plateau of China. Soil Science Society of America Journal 83 no. 6: 1722-1732.

38.Yu, K., Q.G. Dong, H.X. Chen, H. Feng, Y. Zhao, B.C. Si, Y. Li, and D.W. Hopkins. 2017. Incorporation of pre-treated straw improves soil aggregate stability and increases crop productivity. Agronomy Journal 109 no. 5: 2253-2265.

39.Zhang, A., G. Cheng, Q. Hussain, M. Zhang, H. Feng, M. Dyck, B. Sun, Y. Zhao, H. Chen, and J. Chen. 2017a. Contrasting effects of straw and straw–derived biochar application on net global warming potential in the Loess Plateau of China. Field Crops Research 205: 45-54.

40.Zhang, J., J. Lei, Y. Wang, Y. Zhao, and X. Xu. 2016a. Survival and growth of three afforestation species under high saline drip irrigation in the Taklimakan Desert, China. Ecosphere 7 no. 5: e01285.

41.Zhang, J., X. Xu, S. Li, Y. Zhao, A. Zhang, T. Zhang, and R. Jiang. 2016b. Is the Taklimakan Desert Highway Shelterbelt Sustainable to Long-Term Drip Irrigation with High Saline Groundwater? PLoS One 11 no. 10: e0164106.

42.Zhang, J.G., Y.D. Wang, Y. Zhao, X.W. Xu, J.Q. Lei, and S.Y. Li. 2016c. Spatial-temporal distribution of soil salt crusts under saline drip irrigation in an artificial desert highway shelterbelt. Water 8 no. 2.

43.Zhang, J.G., X.W. Xu, Y. Zhao, J.Q. Lei, S.Y. Li, and Y.D. Wang. 2016d. Effect of shifting sand burial on soil evaporation and moisture-salt distribution in a hyper-arid desert. Environmental Earth Sciences 75 no. 21.

44.Zhang, M., G. Cheng, H. Feng, B. Sun, Y. Zhao, H. Chen, J. Chen, M. Dyck, X. Wang, J. Zhang, and A. Zhang. 2017b. Effects of straw and biochar amendments on aggregate stability, soil organic carbon, and enzyme activities in the Loess Plateau, China. Environmental Science and Pollution Research 24 no. 11: 10108-10120.

45.Zhang, X.M., Y.D. Wang, Y. Zhao, X.W. Xu, J.Q. Lei, and R.L. Hill. 2017c. Litter decomposition and nutrient dynamics of three woody halophytes in the Taklimakan Desert Highway Shelterbelt. Arid Land Research and Management 31 no. 3: 335-351.

46.Zhao, H., X. Tian, Y. Jiang, Y. Zhao, and B. Si. 2021. Effect of combining strawderived materials and wood ash on alkaline soil carbon content and the microbial community. European Journal of Soil Science 72: 1863 1878.

47.Zhao, Y. 2021. An incorrect wetness-based correction method for deuterium offset. Proceedings of the National Academy of Sciences 118 no. 15.

48.Zhao, Y., D. Ding, B. Si, Z. Zhang, W. Hu, and J. Schoenau. 2019a. Temporal variability of water footprint for cereal production and its controls in Saskatchewan, Canada. Science of The Total Environment 660: 1306-1316.

49.Zhao, Y., F. Li, R. Yao, W. Jiao, and R.L. Hill. 2020. An Empirical Orthogonal Function-Based Approach for Spatially-and Temporally-Extensive Soil Moisture Data Combination. Water 12 no. 10: 2919.

50.Zhao, Y., and B. Si. 2019. Thermal properties of sandy and peat soils under unfrozen and frozen conditions. Soil and Tillage Research 189: 64-72.

51.Zhao, Y., B. Si, Z. Zhang, M. Li, H. He, and R.L. Hill. 2019b. A new thermal conductivity model for sandy and peat soils. Agricultural and Forest Meteorology 274: 95-105.

52.Zhao, Y., B.C. Si, H.L. He, J.H. Xu, S. Peth, and R. Horn. 2016. Modeling of coupled water and heat transfer in freezing and thawing soils, Inner Mongolia. Water 8 no. 10.

53.Zhao, Y., X. Zhai, Z. Wang, H. Li, R. Jiang, R. Lee Hill, B. Si, and F. Hao. 2018. Simulation of soil water and heat flow in ridge cultivation with plastic film mulching system on the Chinese Loess Plateau. Agricultural Water Management 202: 99-112.

54.Zheng, C., J. Šimůnek, Y. Zhao, Y. Lu, X. Liu, C. Shi, H. Li, L. Yu, Y. Zeng, and Z. Su. 2021. Development of the Hydrus-1D freezing module and its application in simulating the coupled movement of water, vapor, and heat. Journal of Hydrology 598: 126250.

55.Zhou, H.H., Y.N. Chen, X.M. Hao, Y. Zhao, G.H. Fang, and Y.H. Yang. 2019. Tree rings: A key ecological indicator for reconstruction of groundwater depth in the lower Tarim River, Northwest China. Ecohydrology 12 no. 8.

56.Zhou, L., H. Feng, Y. Zhao, Z. Qi, T. Zhang, and B. Si. 2017a. Root-shoot regulation and yield of mulched drip irrigated maize on sandy soil. International Journal of Plant Production 11 no. 4: 461-475.

57.Zhou, L.F., H. Feng, Y. Zhao, Z.J. Qi, T.B. Zhang, J.Q. He, and M. Dyck. 2017b. Drip irrigation lateral spacing and mulching affects the wetting pattern, shoot-root regulation, and yield of maize in a sand-layered soil. Agricultural Water Management 184: 114-123.

58.Zou, Y.F., Q. Saddique, W.J. Dong, Y. Zhao, X. Zhang, J.C. Liu, D.Y. Ding, H. Feng, O. Wendroth, and K.H.M. Siddique. 2021. Quantifying the compensatory effect of increased soil temperature under plastic film mulching on crop growing degree days in a wheat-maize rotation system. Field Crops Research 260.

60.陈定帅, 董正武, 高磊, 陈效民, 彭新华, 司炳成, and 赵英. 2017. 不同降水条件下科尔沁沙地小叶锦鸡儿和盐蒿的水分利用动态. 植物生态学报 41 no. 12: 1262-1272.

61.成功, 陈静, 刘晶晶, 张阿凤, 王旭东, 冯浩, and 赵英. 2017. 秸秆/生物炭施用对关中地区小麦-玉米轮作系统净增温潜势影响的对比分析. 环境科学 38 no. 02: 792-801.

62.丁奠元, 冯浩, 赵英, and 杜璇. 2016. 氨化秸秆还田对土壤孔隙结构的影响. 植物营养与肥料学报 22 no. 03: 650-658.

63.胡亚瑾, 吴淑芳, 冯浩, and 赵英. 2016. 宽垄窄行覆膜种植对夏玉米土壤水热及产量的影响. 灌溉排水学报 35 no. 10: 8-12.

64.焦瑞, 赵英, 司炳成, 兰志龙, and 张建国. 2017. 黄土高原退耕还林措施对深层土壤含水率的影响. 干旱地区农业研究 35 no. 05: 129-135.

65.兰志龙, 潘小莲, 赵英, 司炳成, 汪有科, 焦瑞, and 张建国. 2017. 黄土丘陵区不同土地利用模式对深层土壤含水量的影响. 应用生态学报 28 no. 03: 847-855.

66.兰志龙, 赵英, 张建国, 李会杰, 司炳成, 焦瑞, M.N. Khan, and T.A. Sial. 2018. 陕北黄土丘陵区不同土地利用方式下土壤碳剖面分布特征. 环境科学 39 no. 01: 339-347.

67.李晋波, 姚楠, 李秀, 赵英, 张阿凤, 兰志龙, and 范庭. 2018a. 内蒙古典型草原季节性冻土区土壤剖面CO_2N_2O特征. 环境科学 39 no. 05: 2330-2338.

68.李晋波, 姚楠, 赵英, 范庭, 张建国, 兰志龙, 易军, and 司炳成. 2018b. 不同放牧条件下锡林郭勒典型草原土壤水分分布特征及降水入渗估算. 植物生态学报 42 no. 10: 1033-1042.

69.李秀, 韩佳乐, 吴文雪, 张建国, 赵英, and 冯浩. 2018. 秸秆还田方式对关中盆地土壤微生物量碳氮和冬小麦产量的影响. 水土保持学报 32 no. 04: 170-176.

70.刘海东, 刘娇, 赵英, 李生宇, 王永东, 雷加强, and 张建国. 2017. 梭梭和沙拐枣对风沙土壤水热盐动态的影响. 水土保持学报 31 no. 03: 169-175+181.

71.彭新华, 王云强, 贾小旭, 高伟达, 张中彬, 姚荣江, 赵英, 沈重阳, 陈丁江, 朱青, and 高磊. 2020. 新时代中国土壤物理学主要领域进展与展望. 土壤学报 57 no. 05: 1071-1087.

72.乔洁, 张春丹, 毕利东, 尧水红, and 赵英. 2017. 高效液相色谱法测定土壤中麦角固醇的含量. 江苏农业科学 45 no. 04: 153-155.

73.王娜, 范美蓉, 刘双全, 赵士诚, 赵英, 仇少君, 何萍, and 周卫. 2016. 东北三省典型春玉米土壤剖面氮库变化及平衡特征. 中国农业科学 49 no. 05: 885-895.

74.喜银巧, 赵英, 董正武, and 李生宇. 2018a. 土壤调理剂改良风沙土的试验研究. 干旱区研究 35 no. 05: 1075-1083.

75.喜银巧, 赵英, and 李生宇. 2018b. 三种土壤改良剂对风沙土抗剪强度的影响. 土壤学报 no. 06: 1-11.

76.姚楠, 赵英, 张建国, 何海龙, 司炳成, and 焦瑞. 2017. 不同放牧条件内蒙古草原土壤冻融期水热动态. 水土保持研究 24 no. 05: 132-138.

77.张延, 任小川, 赵英, 曹寒, and 冯浩. 2016. 未来气候变化对关中地区冬小麦耗水和产量的影响模拟. 干旱地区农业研究 34 no. 01: 220-228.

二、授权专利

1.赵英; 张建国. 一种盐碱性土壤改良处理装置,中国专利: ZL 201820226968.X, 2018-10-12.

2.许景辉; 何建强; 韩文庭; 赵英. 一种土壤多参数传感测量系统,中国专利:ZL 201210551409.3, 2015-01-28.

3.许景辉; 何建强; 韩文庭; 赵英. 一种土壤多参数数据传感器,中国专利:ZL 201220715184.6, 2013-07-31.

4.张建国; 赵英; 张阿凤; 蒋锐; 李志. 植物根系生长的观察装置,中国专利:ZL 201420279317.9, 2014-10-15.

5.张建国; 赵英; 张阿凤; 蒋锐. 土壤凝结水测定装置,中国专利:ZL 201420733393.2, 2015-04-29.

6.赵英; 胡秋丽; 李虹辰. 一种海滨带用海水淡化处理装置, 实用新型专利. ZL 201920989777.3, 2020-03-24 (鲁东大学)

7.赵英; 胡秋丽. 一种基于生态岛屿构建的滨海低洼盐碱地综合治理系统. 发明专利. ZL201910134027.22021-05-18(鲁东大学)

8.赵英,李雅婷. 一种用于水产养殖的生态环境修复装置.实用新型专利. ZL202020162124.0, 2020-10-16(鲁东大学)


承担科研项目:

国家自然科学基金面上项目,草原土壤冻融交替驱动N2O排放的物理机制及其模型模拟(41977009),2020/01-2023/1261万元,主持。

山东省自然科学基金杰出青年项目,土壤水文学(ZR201807061079),2019-2022100万。

山东省泰山学者工程青年专家项目,黄河三角洲盐碱地水肥盐运移过程与调控(201812096),2019-2023100万。

山东省教育厅青年创新团队项目,黄河三角洲滨海盐碱地水肥盐运移过程与调控(2019KJF017),2019-202220万。


重要奖项

赵英同志国内工作期间先后荣获“国家人才项目专家”(2014)、“陕西省青年科技新星”(2014)、“泰山学者青年专家”(2018)、“芝罘英才计划”(2018)、烟台市“双百计划”(2019)、“山东省杰青”(2019)、“山东省高等学校青创科技支持计划”(2019)等人才项目支持,并获得“山东省留学人员回国创业奖(2020)”和“陕西省教育厅高等学校科学技术奖一等奖(排名第四)”等荣誉。


承担工作

土壤健康与果蔬品质研究院院长、鲁东大学现代农业高质量发展东营研究中心主任