邱让建

同专业硕导

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  • 硕士生导师
  • 教师英文名称:Rangjian Qiu
  • 学历:博士研究生毕业
  • 电子邮箱:qiurangjian@whu.edu.cn
  • 办公地点:水电科技大楼427
  • 性别:男
  • 在职信息:在职
  • 毕业院校:中国农业大学
  • 所属院系: 水利水电学院
  • 学科: 水利水电工程

邱让建,男,汉族,安徽桐城人,武汉大学副教授,主要从事智慧灌溉理论与技术、变化环境下水资源高效利用、农业碳排放研究。在国内外期刊发表学术论文60余篇,其中以第一/通讯作者在《Agricultural and Forest Meteorology》、《The Plant Journal》、《Journal of Hydrology》、《Agricultural Water Management》、《Agricultural Systems》、《Renewable and Sustainable Energy Reviews》、《Energy Conversion and Management》、《水利学报》和《农业工程学报》等国内外知名期刊发表论文30余篇。指导的研究生获国家奖学金和三好研究生。

欢迎对智慧灌溉和变化环境下水资源高效利用等领域感兴趣的学生加入课题组,欢迎高年级本科生提前加入课题组进行科研训练。

主要学习经历

20089~2014 6月 中国农业大学      农业水土工程 工学博士

20129~201310月 加州大学河滨分校 土壤与水科学  联合培养

20049~2008 6 中国农业大学      农业水利工程  工学学士

主要工作经历

20146~20186月 南京信息工程大学   讲师

20181~20187月 杜克大学           访问学者

20187~20221月 南京信息工程大学   副教授

20222~至今        武汉大学           副教授

联系方式

   qiurangjian@whu.edu.cn; qiurangjian@tom.com

办公地点:水电科技大楼427

个人网站

ResearchGate: https://www.researchgate.net/profile/Rangjian_Qiu/stats

google scholar: https://scholar.google.com/citations?user=gqQpQ88AAAAJ&hl=zh-CN

社会兼职

Frontiers in Plant Science》客座编辑,《灌溉排水学报》编委,《Agricultural and Forest Meteorology》、《Agricultural Water Management》、《Journal of Hydrology》、《Journal of Geophysics Research: Biogeosciences》、《Scientia Horticulturae》、《Journal of Arid Land》、《Biochemical Society Transactions》、《农业工程学报》和《灌溉排水学报》等国内外重要期刊审稿人

主持项目

1. 国家外国专家项目,变化环境下的水资源高效利用,2022/01-2023/1230万元,在研,主持

2.  国家自然科学基金面上项目,干湿交替灌溉条件下水稻水分利用效率对臭氧浓度升高的响应,2022/01-2025/12,58万元,在研,主持

3. 国家自然科学基金青年项目,长江流域稻麦轮作农田水热传输机制与蒸散发模拟,2016/01-2018/12,20万元,已结题,主持

4. 江苏省自然科学基金青年项目,江苏地区轮作稻麦蒸散发特征及模拟,2015/07-2018/07,20万元,已结题,主持

5. 国家自然科学基金面上项目,高温高湿对设施番茄果实发育及品质的影响机理和评估模型的研究,2018/01-2021/12,68万元,结题,参加

6. 国家自然科学基金面上项目,农业小流域灌溉对稻田水热交换的影响极其调温驱动机理,2016/01-2019/12,74万元,结题,参加

代表性论著

33. Yang Zaiqiang, Jiang Yuhan, Qiu Rangjian*, Gong Xuewen, Agathokleous Evgenios, Hu Wei, Brent Clothier, 2023. Heat stress decreased transpiration but increased evapotranspiration in gerbera. Frontiers in Plant Science, 14: 1119076.  (2022 IF=6.627; TOP期刊

32. Qiu Rangjian, Luo Yufeng, Wu Jingwei, Zhang Baozhong*, Liu Zhihe, Agathokleous Evgenios, Yang Xiumei, Hu Wei, Clothier Brent, 2023. Short–term forecasting of daily evapotranspiration from rice using a modified Priestley–Taylor model and public weather forecasts, Agricultural Water Management, 277: 108123. (2022 IF=6.611; TOP期刊

31. Gong Xuewen, Li Xiaoming, Li Yu, Bo Guokui, Qiu Rangjian*, Huang Zongdong, Gao Shikai, Wang Shunsheng, 2023. An improved model to simulate soil water and heat: A case study for drip-irrigated tomato grown in a greenhouse, Agricultural Water Management, 277: 108121 (2022 IF=6.611; TOP期刊

30. Wang Zhenchang, Liu Jinjing, Wang Yaosheng, Agathokleous Evgenios, Yousef Alhaj Hamoud*, Qiu Rangjian*, Cheng Hong, Tian Minghao, Hiba Shaghaleh and Guo Xiangping, 2022. Relationships between stable isotope natural abundances (δ13C and δ15N) and water use efficiency in rice under alternate wetting and drying irrigation in soils with high clay contents. Frontiers in Plant Science, 13:1077152. (2022 IF=6.627; TOP期刊

29. Zhang Qi*, Yu Xin, Qiu Rangjian*, Liu Zhongxian, Yang Zaiqiang, 2022. Evolution, severity, and spatial extent of compound drought and heat events in north China based on copula model. Agricultural Water Management, 273: 107918 (2022 IF=6.611; TOP期刊

28. Gong Xuewen, Li Xiaoming, Qiu Rangjian*, Bo Guokui, Ping Yinglu, Xin Qingsong, Ge Jiankun*, 2022. Ventilation and irrigation management strategy for tomato cultivated in greenhouses. Agricultural Water Management, 273: 107908 (2022 IF=6.611; TOP期刊)

27. Qiu Rangjian, Li Longan, Wu Lifeng, Agathokleous Evgenios, Liu Chunwei, Zhang Baozhong*. Comparison of machine learning and dynamic models for predicting actual vapour pressure when psychrometric data are unavailable. Journal of Hydrology, 610: 127989. (2022 IF=6.708; TOP期刊)

26. Qiu Rangjian, Li Longan, Wu Lifeng, Agathokleous Evgenios, Liu Chunwei, Zhang Baozhong*, Luo Yufeng, Sun Shanlei, 2022. Modeling daily global solar radiation using only temperature data: Past, development, and future. Renewable and Sustainable Energy Reviews, 163: 112511.(2022 IF=16.799; TOP期刊)

25. Qiu Rangjian, Liu Chunwei, Cui Ningbo*, Gao Yang, Li Longan, Wu Zongjun, Jiang Shouzheng and Hu Meng, 2022. Generalized Extreme Gradient Boosting model for predicting daily global solar radiation for locations without historical data. Energy Conversion and Management, 258: 115488. (2022 IF=11.533; TOP期刊)

24. Zhang Qi*, Zhang Xinyu, Yang Zaiqiang, Huang Qinqin, Qiu Rangjian*, 2022. Characteristics of plastic greenhouse high-temperature and high-humidity events and their impacts on facility tomatoes growth. Frontiers in Earth Science, 10: 848924.

23. Qiu Rangjian, Li Longan, Liu Chunwei, Wang Zhenchang, Zhang Baozhong*, Liu Zhandong, 2022. Evapotranspiration estimation using a modified crop coefficient model in a rotated rice-winter wheat system. Agricultural Water Management, 264: 107501. (2022 IF=6.611; TOP期刊)

22. Gong Xuewen, Qiu Rangjian*, Zhang Baozhong, Wang Shunsheng, Ge Jiankun, Gao Shikai, Yang Zaiqiang, 2021. Energy budget for tomato plants grown in a greenhouse in northern China. Agricultural Water Management, 255: 107039. (2022 IF=6.611; TOP期刊)

21. Qiu Rangjian*, Katul G. Gabriel, Wang Jingtao, Xu Junzeng, Kang Shaozhong, Liu Chunwei, Zhang Baozhong, Li Longan and Cajucom P.E., 2021. Differential response of rice evapotranspiration to varying patterns of warming. Agricultural and Forest Meteorology, 298-299: 108293. (2022 IF=6.424; TOP期刊)

20. Qiu Rangjian*, Li Longan, Kang Shaozhong, Liu Chunwei, Wang Zhencang, Cajucom P.E., Zhang Baozhong and Agathokleous E., 2021. An improved method to estimate actual vapor pressure without relative humidity data. Agricultural and Forest Meteorology: 298-299: 108306. (2022 IF=6.424; TOP期刊)

19. Gong Xuewen, Qiu Rangjian*, Ge Jiankun, Bo, G.K., Ping, Y.L., Xin, Q.S. and Wang S.S., 2021. Evapotranspiration partitioning of greenhouse grown tomato using a modified Priestley–Taylor model. Agricultural Water Management, 247: 106709. (2022 IF=6.611; TOP期刊)

18. Qiu Rangjian* and Katul G. Gabriel, 2020. Maximizing leaf carbon gain in varying saline conditions: An optimization model with dynamic mesophyll conductance. The Plant Journal, 101(3): 543-554. (2022 IF=7.091; TOP期刊)

17. Hamani, Abdoul Kader Mounkaila, Wang Guangshuai, Soothar, Mukesh Kumar, Shen Xiaojun, Gao Yang*, Qiu Rangjian* and Mehmood Faishal, 2020. Responses of leaf gas exchange attributes, photosynthetic pigments and antioxidant enzymes in NaCl-stressed cotton (Gossypium hirsutum L.) seedlings to exogenous glycine betaine and salicylic acid. BMC Plant Biology, 20: 434. (2022 IF=4.215)

16. Gong Xuewen, Qiu Rangjian*, Sun Jinsheng, Ge Jiankun, Li Yanbin and Wang Shunsheng, 2020. Evapotranspiration and crop coefficient of tomato grown in a solar greenhouse under full and deficit irrigation. Agricultural Water Management, 235: 106154. (2022 IF=6.611; TOP期刊)

15. Qiu Rangjian, Liu Chunwei, Cui Ningbo*, Wu Youjie, Wang Zhenchang and Li Gen, 2019. Evapotranspiration estimation using a modified Priestley-Taylor model in a rice-wheat rotation system. Agricultural Water Management, 224: 105755. (2022 IF=6.611; TOP期刊)

14. Qiu Rangjian, Liu Chunwei, Li Fusheng, Wang Zhenchang, Yang Zaiqiang, Cui Ningbo*, 2019. An investigation on possible effect of leaching fractions physiological responses of hot pepper plants to irrigation water salinity. BMC Plant Biology, 19:297 (2022 IF=4.215)

13. Qiu Rangjian*, Yang Zaiqiang, Jing Yuanshu, Liu Chunwei, Wang Zhenchang, 2018. Effects of irrigation water salinity on the growth, gas exchange parameters, and ion concentration of hot pepper plants modified by leaching fractions. HortScience,53(7):1050-1055

12. Qiu Rangjian*, Liu Chunwei, Wang Zhenchang, Yang Zaiqiang, Jing Yuanshu, 2017. Effects of irrigation water salinity on evapotranspiration modified by leaching fractions in hot pepper plants. Scientific Reports, 7:7231.

11. Qiu Rangjian*, Jing Yuanshu, Liu Chunwei, Yang Zaiqiang, Wang Zhenchang, 2017. Response of hot pepper yield, fruit quality and fruit ion content to irrigation water salinity and leaching fractions. HortScience, 52(7):979-985.

10. Qiu Rangjian, Du Taisheng*, Kang Shaozhong, 2017. Root length density distribution and soil water simulation for tomato plants under furrow irrigation, Journal of Arid Land, 9(5):637-650.

9. Qiu Rangjian, Du Taisheng*, Kang Shaozhong, Chen Renqiang, Laosheng Wu, 2015. Assessing the SIMDualKc model for estimating evapotranspiration of hot pepper grown in a solar greenhouse in Northwest China. Agricultural Systems, 138:1-9 (2022 IF=6.765; TOP期刊)

8. Qiu Rangjian, Du Taisheng*, Kang Shaozhong, Chen Renqiang, Laosheng Wu, 2015. Influence of water and nitrogen stress on stem sap flow of tomato grown in solar greenhouse. Journal of the American Society for Horticultural Science, 140:111-119.

7. Qiu Rangjian, Song Jinjuan, Du Taisheng*, Kang Shaozhong, Tong Ling, Chen Renqiang, Wu Laosheng, 2013. Response of evapotranspiration and yield to planting density of solar greenhouse grown tomato in northwest China. Agricultural Water Management, 130: 44-51. (2022 IF=6.611; TOP期刊)

6. Qiu Rangjian, Kang Shaozhong*, Du Taisheng, Tong Ling, Hao Xinmei, Chen Renqiang, Chen Jinliang and Li Fusheng, 2013. Effect of convection on the Penman–Monteith model estimates of transpiration of hot pepper grown in solar greenhouse. Scientia Horticulturae, 160: 163-171. (2022 IF=4.342; TOP期刊)

5. Qiu Rangjian, Kang Shaozhong*, Li Fusheng, Du Taisheng, Tong Ling, Wang Feng, Chen Renqiang, Liu Junqi and Li Sien, 2011. Energy partitioning and evapotranspiration of hot pepper grown in greenhouse with furrow and drip irrigation methods. Scientia Horticulturae, 129(4): 790-797. (2022 IF=4.342; TOP期刊)

4. 李隆安, 邱让建*, 刘春伟. 基于气温估算参考作物蒸散量方法的对比与改进[J]. 农业工程学报, 2021, 37(24)123-130.

3. 邱让建, 杨再强, 景元书, 刘春伟, 王振昌. 轮作稻麦田水热通量及影响因素分析[J].农业工程学报,2018,34: 82-88.

2. 邱让建, 刘春伟, 徐金勤, 陈俊, 程珊珊, 柳旭, 陈泓舟, 王振昌. 灌溉水含盐量对辣椒产量品质及水分利用效率的影响[J]. 农业工程学报, 2016, 32(10)75-80

1. 邱让建, 杜太生, 陈任强. 应用双作物系数模型估算温室番茄耗水量.水利学报, 2015, 46(6): 678-686


合著论文

1. Qin Shujing, Li Sien*, Cheng Lei*, Zhang Lu, Qiu Rangjian, Liu Pan and Xi Haiyang, 2023. Partitioning evapotranspiration in partially mulched interplanted croplands by improving the Shuttleworth-Wallace model. Agricultural Water Management, 276: 108040.

2. Wang Jintao, Dong Xinliang, Qiu Rangjian, Lou Boyuan, Tian Liu, Chen Pei, Zhang Xuejia, Liu Xiaojing and Sun Hongyong*, 2023. Optimization of sowing date and irrigation schedule of maize in different cropping systems by APSIM for realizing grain mechanical harvesting in the North China Plain. Agricultural Water Management, 276: 108068.

3. He Ziling, Lu Xiuyuan, Cui Ningbo*, Jiang Shouzheng, Zheng Shunsheng, Chen Fei, Qiu Rangjian, Liu Chunwei, Fan Junliang, Wang Yaosheng, Jin Xiuliang, 2023. Effect of soil water content threshold on kiwifruit quality at different growth stages with drip irrigation in the humid area of Southern China. Scientia Horticulturae, 307: 111477.

4. Wang, Z.C.*, Liu, J.J., Hamoud, Y.A.*, Wang, Y.S., Qiu, R.J., Agathokleous, E., Hong, C. and Shaghaleh, H., 2022. Natural 15N abundance as an indicator of nitrogen utilization efficiency in rice under alternate wetting and drying irrigation in soils with high clay contents. Science of the Total Environment, 838: 156528.

5. Xie, Y., Wang, Z.C.*, Cheng, X.X., Qiu, R.J., Hamoud, Y.A., Hong, C.,... Guo, X.P., 2022. Dissecting the combined effects of cultivar, fertilization, and irrigation on rhizosphere bacterial communities and nitrogen productivity in rice. Science of the Total Environment, 835: 155534.

6. Han Xin, Zhou Qingyun, Zhang Baozhong*, Che Zheng, Wei Zheng, Qiu Rangjian, Chen He, Li Yinong and Du Taisheng, 2022. Real-time methods for short and medium-term evapotranspiration forecasting using dynamic crop coefficient and historical threshold. Journal of Hydrology, 606: 127414.

7. Chen Fei, Cui Ningbo*, Jiang Shouzheng, Li Hongping, Wang Yaosheng, Gong Daozhi, Hu Xiaotao, Zhao Lu, Liu Chunwei and Qiu Rangjian, 2022. Effects of water deficit at different growth stages under drip irrigation on fruit quality of citrus in the humid areas of South China. Agricultural Water Management, 262: 107407.

8. Li Shuang, Liu Junming, Liu Hao, Qiu Rangjian, Gao Yang* and Duan Aiwang*, 2021. Role of hydraulic signal and ABA in decrease of leaf stomatal and mesophyll conductance in soil drought-stressed tomato. Frontiers in Plant Science, 12: 711.

9. Jiang Xiaodong, Hua Mengfei, Yang Xiaoya, Hu Ning, Qiu Rangjian and Yang Shenbin*, 2020. Impacts of mist spray on rice field micrometeorology and rice yield under heat stress condition. Scientific Reports, 10:1579

10. Alhaj Hamoud Yousef, Wang Zhenchang, Guo Xiangping, Shaghaleh Hiba, Sheteiwy Mohamed, Chen Sheng, Qiu Rangjian and Elbashier Mohammed, 2019. Effect of irrigation regimes and soil texture on the potassium utilization efficiency of rice. Agronomy, 9:100

11. Jing Zhihao, Jing Yuanshu*, Zhang Fanming, Qiu Rangjian and Wido Hanggoro, 2019. Application of the Simple Biosphere Model 2 (SiB2) with irrigation module to a typical low-hilly red soil farmland and the sensitivity analysis of modeled energy fluxes in Southern China. Water, 11:1128.

12. Chen Sheng, Wang Zhenchang*, Zhang Zhangyu, Guo Xiangping, Wu Mengyang, Rasool Ghulam, Qiu Rangjian and Wang Xiaojuan, 2017. Effects of uneven vertical distribution of soil salinityon blossom-end rot of tomato fruit. HortScience, 52(7):958-964.

13. Yang Hui, Du Taisheng*, Qiu Rangjian, Chen Jinliang, Wang Feng, Li Yang, Wang Chenxia, Gao Lihong and Kang Shaozhong, 2016. Improved water use efficiency and fruit quality of greenhouse crops under regulated deficit irrigation in northwest China. Agricultural Water Management, 179: 193-204.

14. Chen Sheng, Zhang Zhangyu, Wang Zhenchang*, Guo Xiangping, Liu Minhao, Hamoud Yousef Alhaj, Zheng Jiechen and Qiu Rangjian, 2016. Effects of uneven vertical distribution of soil salinity under a buried straw layer on the growth, fruit yield, and fruit quality of tomato plants. Scientia Horticulturae, 203: 131-142.

15. Chen Renqiang, Kang Shaozhong*, Hao Xinmei, Li Fusheng, Du Taisheng, Qiu Rangjian and Chen Jinliang, 2015. Variations in tomato yield and quality inrelation to soil properties and evapotranspiration under greenhouse condition.Scientia Horticulturae, 197: 318-328.

16. Chen Jinliang, Kang Shaozhong, Du Taisheng, Guo Ping, Qiu Rangjian, Chen Renqiang and Gu Feng, 2014. Modeling relations of tomato yield and fruit quality with water deficit at different growth stages under greenhouse condition. Agricultural Water Management, 146: 131-148.

17. Jiang Xuelian, Kang Shaozhong*, Tong Lin, Li Fusheng, Li Donghao, Ding Risheng and Qiu Rangjian, 2014. Crop coefficient and evapotranspiration of grain maize modified by planting density in an arid region of northwest China. Agricultural Water Management, 142: 135-143.

18. Chen Jinliang, Kang Shaozhong*, Du Taisheng, Qiu Rangjian, Chen Renqiang, Guo Ping, 2013. Quantitative response of greenhouse tomato yield and quality to water deficit at different growth stages. Agricultural Water Management, 129: 152-162.

19. Wang Feng, Kang Shaozhong*, Du Taisheng, Li Fusheng and Qiu Rangjian, 2011. Determination of comprehensive quality index for tomato and its response to different irrigation treatments. Agricultural Water Management, 98 (8): 1228-1238.

指导学生获奖情况

(1) 2016年和2020年指导大学生创新创业训练计划各1项

(2) 2020年指导学生获得第七届“共享杯”大学生科技资源共享服务创新大赛优秀奖1项

(3) 2021年指导学生获首届中国气象现代化科技创新创业大赛三等奖,并被评为优秀指导教师

(4) 研究生李隆安获研究生国家奖学金、三好研究生、研究生论坛一等奖




2022-2····至今


水利水电学院 | 武汉大学 | 副教授

2018-1····2018-7


| 杜克大学 | 访问学者

2018-8····2022-1


应用气象学院 | 南京信息工程大学 | 副教授

2014-6····2018-7


应用气象学院 | 南京信息工程大学 | 讲师

  • [1].变化环境下的水资源高效利用
    [2]智慧灌溉
    [3]农业碳排放
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