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郝新梅

水利与土木工程学院

个人资料

  • 部门: 水利与土木工程学院
  • 性别:
  • 民族: 汉族
  • 专业技术职务: 副教授
  • 行政职务:
  • 主要研究方向:
  • 毕业院校: 美国怀俄明大学
  • 学位: 博士
  • 联系电话: 13601004284
  • 电子邮箱: haox@cau.edu.cn
  • 办公地址:
  • 通讯地址:
  • 邮编: 100083
  • 传真:

专家类别

  • 学术学位导师类型: 博导兼硕导
  • 专业学位研究生导师类型:
  • 从事学科1: 水利工程
  • 从事学科2: 农业工程
  • 从事专业1: 水文学及水资源
  • 从事专业2: 农业水土工程
  • 研究方向1: 土壤生态环境;作物高效用水;土壤水盐运动;渠系配水
  • 研究方向2: 土壤水分运动和溶质运移
  • 从事专业学位领域名称: 水利工程

教育经历

  • 2000.01.01-2004.08.01,博士,美国怀俄明大学,土壤学
  • 1996.09.01-1999.07.01,硕士,西北农业大学,农业水土工程
  • 1992.09.01-1996.07.01,学士,大连理工大学,环境工程

个人简介

教学科研概况

在研项目:

十四五国家重大研发计划“新疆绿洲节水抑盐灌排协同产能提升关键技术研发与应用”课题一“绿洲多尺度土壤盐分监测预报与系统”,子课题负责人

国家自然科学基金重大项目 “西北旱区农业节水抑盐机理与灌排协同调控” 课题二“西北旱区作物水盐响应过程与根区动态阈值”,主要参加人


主讲课程:

本科: 《水利工程CAD》

研究生: 《水利工程专业英语》,《地统计学基本理论及应用》


论著


1.康绍忠等著.西北旱区绿洲农业水转化多过程耦合与高效用水调控--以甘肃河西走廊黑河流域为例科学出版社,2020


发表论文:


1. Zhang, F.Q., He, C., Fan, Y.Q., Hao, X.M.* and Kang, S.Z. (2022) Canal delivery and irrigation scheduling optimization based on crop water demand. Agricultural Water Management 260.

2. Qiu, Y., Fan, Y.Q., Chen, Y., Hao, X.M. *, Li, S.E. and Kang, S.Z. (2021) Response of dry matter and water use efficiency of alfalfa to water and salinity stress in arid and semiarid regions of Northwest China. Agricultural Water Management 254.

3. Fan, Y., Hao, X. *, Carswell, A., Misselbrook, T., Ding, R., Li, S. and Kang, S. (2021) Soil temperature and bacterial diversity regulate the impact of irrigation and fertilization practices on ecosystem respiration. Agronomy Journal.

4. Fan, Y., Hao, X. *, Carswell, A., Misselbrook, T., Ding, R., Li, S. and Kang, S. (2021) Inorganic nitrogen fertilizer and high N application rate promote N2O emission and suppress CH4 uptake in a rotational vegetable system. Soil & Tillage Research 206.

5. Fan, Y., Hao, X. *, Ding, R. and Kang, S. (2020) Soil water and nitrogen dynamics from interaction of irrigation and fertilization management practices in a greenhouse vegetable rotation. Soil Science Society of America Journal 84(3), 901-913.

6. Hao, X. *, Qiu, Y., Fan, Y., Li, T., Leng, D., Li, S. and Kang, S. (2020) Applicability of temporal stability analysis in predicting field mean of soil moisture in multiple soil depths and different seasons in an irrigated vineyard. Journal of Hydrology 588.

7. Li, T., Hao, X. *, Kang, S. and Leng, D. (2017) Spatial Variation of Winegrape Yield and Berry Composition and their Relationships to Spatiotemporal Distribution of Soil Water Content. American Journal of Enology and Viticulture 68(3), 369-377.

8. Li, T., Hao, X. * and Kang, S. (2017) Spatial variability of grape yield and its association with soil water depletion within a vineyard of arid northwest China. Agricultural Water Management 179, 158-166.

9. Li, T., Hao, X. * and Kang, S. (2016) Spatial Variability of Grapevine Bud Burst Percentage and Its Association with Soil Properties at Field Scale. Plos One 11(10).

10. Hao, X. *, Thelen, K. and Gao, J. (2016) Spatial Variability in Biomass Yield of Switchgrass, Native Prairie, and Corn at Field Scale. Agronomy Journal 108(2), 548-558.

11. Li, T., Hao, X. * and Kang, S. (2014) Spatiotemporal Variability of Soil Moisture as Affected by Soil Properties during Irrigation Cycles. Soil Science Society of America Journal 78(2), 598-608.

12. Hao, X. *, Thelen, K. and Gao, J. (2012) Prediction of the ethanol yield of dry-grind maize grain using near infrared spectroscopy. Biosystems Engineering 112(3), 161-170.

13. Hao, X. *, Thelen, K. and Gao, J. (2010) Effects of Soil and Topographic Properties on Spatial Variability of Corn Grain Ethanol Yield. Agronomy Journal 102(3), 998-1006.

14. Hao, X. * and Kravchenko, A.N. (2007) Management practice effects on surface soil total carbon: Differences along a textural gradient. Agronomy Journal 99(1), 18-26.

15. Hao, X.M. *, Zhang, R.D. and Kravchenko, A. (2005) Effects of root density distribution models on root water uptake and water flow under irrigation. Soil Science 170(3), 167-174.

16. Hao, X.M. *, Zhang, R.D. and Kravchenko, A. (2005) A mass-conservative switching method for simulating saturated-unsaturated flow. Journal of Hydrology 311(1-4), 254-265.

17. 田新苗,郝新梅*,马孝义. (2019). 微喷灌田间管网的优化研究. 灌溉排水学报, 38(4), 63-70.

18. 任彦秋,李涛,冷栋,郝新梅*. (2016) 干旱区葡萄园土壤含水率的时空变异性研究. 水力发电学报, 35(3), 47-55.

19. 杨丽丽,郝新梅*. (2015). 基于meta-分析的畦灌灌水质量的影响因素研究. 节水灌溉, 10:19-25.

20. 李涛,李晓琳,郝新梅*,康绍忠. (2014) 应用土壤质地预测干旱区葡萄园土壤饱和导水率空间分布. 农业工程学报, 30(9), 84-92.

21. Kang, J., Hao, X.M., Zhou, H.P. and Ding, R.S. (2021) An integrated strategy for improving water use efficiency by understanding physiological mechanisms of crops responding to water deficit: Present and prospect. Agricultural Water Management 255.

22. Guo, H., Li, S., Kang, S., Du, T., Tong, L., Hao, X. and Ding, R. (2020) Crop coefficient for spring maize under plastic mulch based on 12-year eddy covariance observation in the arid region of Northwest China. Journal of Hydrology 588.

23S., Kang, S., Du, T., Guo, P., Mao, X., Tong, L., Hao, X., Ding, R. and Niu, J. (2020) Effect of drip irrigation on wheat evapotranspiration, soil evaporation and transpiration in Northwest China. Agricultural Water Management 232.

24. Kang, S., Hao, X., Du, T., Tong, L., Su, X., Lu, H., Li, X., Huo, Z., Li, S. and Ding, R. (2017) Improving agricultural water productivity to ensure food security in China under changing environment: From research to practice. Agricultural Water Management 179, 5-17.

25. Fan, Y., Ding, R., Kang, S., Hao, X., Du, T., Tong, L. and Li, S. (2017) Plastic mulch decreases available energy and evapotranspiration and improves yield and water use efficiency in an irrigated maize cropland. Agricultural Water Management 179, 122-131.

26. Yang, H., Cao, H., Hao, X., Guo, L., Li, H. and Wu, X. (2017) Evaluation of tomato fruit quality response to water and nitrogen management under alternate partial root-zone irrigation. International Journal of Agricultural and Biological Engineering 10(5), 85-94.

27. Sun, H., Wang, S. and Hao, X. (2017) An Improved Analytic Hierarchy Process Method for the evaluation of agricultural water management in irrigation districts of north China. Agricultural Water Management 179, 324-337.

28. Li, S., Zhang, L., Kang, S., Tong, L., Du, T., Hao, X. and Zhao, P. (2015) Comparison of several surface resistance models for estimating crop evapotranspiration over the entire growing season in arid regions. Agricultural and Forest Meteorology 208, 1-15.

29. Liu, X., Wang, S., Huo, Z., Li, F. and Hao, X. (2015) Optimizing layout of pumping well in irrigation district for groundwater sustainable use in northwest China. Hydrological Processes 29(19), 4188-4198.

30. Chen, R., Kang, S., Hao, X., Li, F., Du, T., Qiu, R. and Chen, J. (2015) Variations in tomato yield and quality in relation to soil properties and evapotranspiration under greenhouse condition. Scientia Horticulturae 197, 318-328.

31. Ding, R., Kang, S., Du, T., Hao, X. and Tong, L. (2015) Modeling crop water use in an irrigated maize cropland using a biophysical process-based model. Journal of Hydrology 529, 276-286.

32. Ding, R., Kang, S., Zhang, Y., Hao, X., Tong, L. and Li, S. (2015) A dynamic surface conductance to predict crop water use from partial to full canopy cover. Agricultural Water Management 150, 1-8.

33. Ding, R., Tong, L., Li, F., Zhang, Y., Hao, X. and Kang, S. (2015) Variations of crop coefficient and its influencing factors in an arid advective cropland of northwest China. Hydrological Processes 29(2), 239-249.

34. Ding, R., Kang, S., Du, T., Hao, X. and Zhang, Y. (2014) Scaling Up Stomatal Conductance from Leaf to Canopy Using a Dual-Leaf Model for Estimating Crop Evapotranspiration. Plos One 9(4).

35. Liu, X., Wang, S., Wang, Y., Kang, S., Hao, X. and Li, F. (2014) Comprehensive comprehension evaluation of farmland infrastructure in the arid area of north-west China. Irrigation and Drainage 63(5), 561-572.

36. Gao, J., Thelen, K.D. and Hao, X. (2013) Life Cycle Analysis of Corn Harvest Strategies for Bioethanol Production. Agronomy Journal 105(3), 705-712.

37. Ding, R., Kang, S., Vargas, R., Zhang, Y. and Hao, X. (2013) Multiscale spectral analysis of temporal variability in evapotranspiration over irrigated cropland in an arid region. Agricultural Water Management 130, 79-89.

38. Ding, R., Kang, S., Zhang, Y., Hao, X., Tong, L. and Du, T. (2013) Partitioning evapotranspiration into soil evaporation and transpiration using a modified dual crop coefficient model in irrigated maize field with ground-mulching. Agricultural Water Management 127, 85-96.

39. Qiu, R., Kang, S., Du, T., Tong, L., Hao, X., Chen, R., Chen, J. and Li, F. (2013) Effect of convection on the Penman-Monteith model estimates of transpiration of hot pepper grown in solar greenhouse. Scientia Horticulturae 160, 163-171.

40. Liu, X., Wang, S. and Hao, X. (2013) Suitability assessment on spatial layout of pumping wells in Hongyashan irrigation district. Transactions of the Chinese Society of Agricultural Engineering 29(2), 101-109.

41. Gao, J., Qian, L., Thelen, K.D., Hao, X., Sousa, L.d.C., Lau, M.W., Balan, V. and Dale, B.E. (2011) Corn Harvest Strategies for Combined Starch and Cellulosic Bioprocessing to Ethanol. Agronomy Journal 103(3), 844-850.

42. Gao, J., Thelen, K.D., Min, D.-H., Smith, S., Hao, X. and Gehl, R. (2010) Effects of Manure and Fertilizer Applications on Canola Oil Content and Fatty Acid Composition. Agronomy Journal 102(2), 790-797.

43. Gao, J., Hao, X., Thelen, K.D. and Robertson, G.P. (2009) Agronomic Management System and Precipitation Effects on Soybean Oil and Fatty Acid Profiles. Crop Science 49(3), 1049-1057.

44. Kravchenko, A.N., Hao, X. and Robertson, G.P. (2009) Seven years of continuously planted Bt corn did not affect mineralizable and total soil C and total N in surface soil. Plant and Soil 318(1-2), 269-274.

45. Kravchenko, A.N. and Hao, X. (2008) Management practice effects on spatial variability characteristics of surface mineralizable C. Geoderma 144(1-2), 387-394.

46. 李江, 郝新梅,范琳琳,毛晓敏. 黑河中游绿洲地下水位空间变异性研究. 水力发电学报,2015, 34(11): 106-115


社会职务

活动动态

研究领域

盐渍土改良

土壤生态、环境

土壤水盐动态模拟

开授课程

本科生课程:近十年课程数据
  • 1、水利工程CAD实践,2024-2025,第二学期,星期一,东校区
  • 2、水利工程CAD,2023-2024,第二学期,星期四,东校区
  • 3、水利工程CAD,2022-2023,第二学期,星期四,东校区
  • 4、水利工程CAD,2021-2022,第二学期,星期四,东校区
  • 5、水利工程CAD,2020-2021,第二学期,星期四,东校区
  • 6、水利工程CAD,2019-2020,第二学期,星期四,东校区
  • 7、水利工程CAD,2018-2019,第二学期,星期四,东校区
  • 8、水利工程CAD,2017-2018,第二学期,星期二,东校区
  • 9、土壤与农作学,2012-2013,第一学期,星期三,东校区

研究生课程:近十年课程数据
  • 1、水利工程专业英语,2024-2025,第一学期,星期四
  • 2、水利工程专业英语,2024-2025,第一学期,星期二
  • 3、试验设计与数据处理,2024-2025,第一学期,星期四
  • 4、试验设计与数据处理,2024-2025,第一学期,星期三
  • 5、地理统计学的基本理论与应用,2023-2024,第二学期,星期三
  • 6、水利工程专业英语,2023-2024,第一学期,星期六
  • 7、水利工程专业英语,2023-2024,第一学期,星期二
  • 8、试验设计与数据处理,2023-2024,第一学期,星期六
  • 9、试验设计与数据处理,2023-2024,第一学期,星期四
  • 10、地理统计学的基本理论与应用,2022-2023,第二学期,星期五
  • 11、水利工程专业英语,2022-2023,第一学期,星期二
  • 12、地理统计学的基本理论与应用,2021-2022,第二学期,星期五
  • 13、水利工程专业英语,2021-2022,第一学期,星期二
  • 14、地理统计学的基本理论与应用,2020-2021,第二学期,星期五
  • 15、水利工程专业英语,2020-2021,第一学期,星期二
  • 16、地理统计学的基本理论与应用,2019-2020,第二学期,星期五
  • 17、水利工程专业英语,2019-2020,第一学期,星期二
  • 18、地理统计学的基本理论与应用,2018-2019,第二学期,星期三
  • 19、水利工程专业英语,2018-2019,第一学期,星期二
  • 20、地理统计学的基本理论与应用,2017-2018,第二学期
  • 21、水利工程专业英语,2017-2018,第一学期,星期二
  • 22、地理统计学的基本理论与应用,2016-2017,第二学期,星期二
  • 23、水利工程专业英语,2016-2017,第一学期,星期二
  • 24、地理统计学的基本理论与应用,2015-2016,第二学期,星期一
  • 25、水利工程专业英语,2015-2016,第一学期,星期二
  • 26、地理统计学的基本理论与应用,2014-2015,第二学期,星期三
  • 27、水利工程专业英语,2014-2015,第一学期,星期二
  • 28、水利工程专业英语,2013-2014,第一学期,星期二

科研项目

纵向项目
  • 1、2024.12.13-2028.12.31,国家自然科学基金项目,南疆灌区膜下滴灌对农田盐分积聚的影响与灌排协同调控模式研究
  • 2、2024.05.12-2024.12.31,国家部委其他科技项目,2024年-现代农业产业技术体系-国家大宗蔬菜产业技术体系-水分管理与节水技术岗
  • 3、2023.10.17-2023.12.31,教育部项目,2023年-现代农业产业技术体系-国家大宗蔬菜产业技术体系-水分管理与节水技术岗
  • 4、2023.10.10-2025.03.30,国家部委其他科技项目,水资源保障提升粮食安全能力战略研究
  • 5、2023.09.01-2023.12.31,国家自然科学基金项目,战略与管理研究类:农业水资源高效利用与智慧管控发展战略研究
  • 6、2022.11.08-2023.06.30,教育部项目,2022年-国家大宗蔬菜产业技术体系岗位专家-水分管理与节水技术
  • 7、2022.09.01-2022.09.10,其他研究项目,新疆农业发展制约因素分析与科技项目布局
  • 8、2022.01.18-2025.12.31,国家重点研发计划,绿洲多尺度土壤盐分监测预报与系统
  • 9、2022.01.18-2025.12.31,国家重点研发计划,绿洲水盐动态监测预报系统
  • 10、2017.11.21-2022.12.31,国家自然科学基金项目,作物水盐响应过程与根区动态阈值
  • 11、2017.11.09-2020.12.31,国家重点研发计划,灌区用水多过程耦合调控理论与方法
横向项目
  • 1、2024.09.05-2027.09.04,无依托项目,中国农业大学水利与土木工程学院与缙云县农业农村局共建中国农业大学教授工作站合作协议
  • 2、2024.09.05-2027.09.04,无依托项目,中国农业大学水利与土木工程学院与缙云县农业农村局共建中国农业大学教授工作站合作协议
  • 3、2023.09.28-2024.09.27,地市厅局(含县)项目,淳安县千岛湖典型流域农业氮磷转化过程及净水农业示范—以上梧溪流域为例二期课题服务采购项目
  • 4、2023.09.26-2024.07.01,事业单位委托科技项目,2023年淳安县农产品产地环境监测 里商乡鱼泉村监控点技术服务
  • 5、2022.04.15-2023.08.31,地市厅局(含县)项目,淳安县千岛湖典型流域农业氮磷转化过程及净水农业示范—以上梧溪流域为例课题服务采购项目
  • 6、2013.12.02-2014.03.31,土壤及作物样本测试化验

论文

科技成果

软件著作
  • 1、绿洲土壤盐渍化监测预报系统,2024,2024SR0197027,软件著作权登记
  • 2、渠系优化配水软件,2016,2016SRBJ0580,软件著作权登记
  • 3、西北渠井双灌区地表水地下水联合调控软件,2016,2016SRBJ0403,软件著作权登记
专利
  • 1、田间灌溉节水技术评价方法,2021,202110512535.7
  • 2、一种水体浮油收集装置,2018,201820598094.0
  • 3、一种基于粒子群算法的渠系优化配水方法,2016,201611080189.5

荣誉及奖励

  • 1、2021,中国农业大学教学成果奖

招生信息

研究团队招土壤学、农业水土工程、水利工程及相关专业的硕士、博士及博士后研究人员,欢迎联系。

电话:010 62738498

Email:haox@cau.edu.cn




往期招生
硕士研究生
  • 序号
  • 在籍人数
  • 年级
1
4
2024
2
3
2023
3
2
2022
4
2
2021
博士研究生
  • 序号
  • 在籍人数
  • 年级
1
1
2023
2
1
2021
报考意向

团队展示

专业技术职务: 副教授

行政职务:

主要研究方向:

学位: 博士

联系电话: 13601004284

电子邮箱: haox@cau.edu.cn

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