1.基本信息
李建明,男,二級教授,博士,博士生導(dǎo)師。國家大宗蔬菜產(chǎn)業(yè)技術(shù)體系崗位專家,陜西省蔬菜產(chǎn)業(yè)技術(shù)體系首席科學(xué)家,農(nóng)業(yè)部西北地區(qū)設(shè)施農(nóng)業(yè)工程重點實驗室常務(wù)副主任,全國蔬菜質(zhì)量技術(shù)標準中心專家委員會委員,全國設(shè)施園藝科技創(chuàng)新聯(lián)盟副秘書長,全國農(nóng)業(yè)機械化創(chuàng)新聯(lián)盟專家委會委員,中國都市農(nóng)業(yè)與休閑農(nóng)業(yè)委員會委員,中國園藝學(xué)會設(shè)施農(nóng)業(yè)學(xué)會理事,陜西省園藝學(xué)會常務(wù)理事,楊凌設(shè)施農(nóng)業(yè)協(xié)會理事長。曾被評為陜西省青年突擊手等榮譽稱號、楊凌優(yōu)秀青年。
2.研究方向
主要從事設(shè)施蔬菜生理生態(tài)、設(shè)施農(nóng)業(yè)環(huán)境工程、蔬菜有機栽培、現(xiàn)代設(shè)施農(nóng)業(yè)園區(qū)規(guī)劃等方面的研究工作。在新型溫室大棚設(shè)計與新能源利用、溫室蔬菜的灌溉制度、設(shè)施蔬菜水肥需求機理及溫室作物生長模型方面進行了大量的研究工作。從生理學(xué)和環(huán)境工程角度研究提出了溫室番茄、辣椒、黃瓜不同生長時期的灌溉指標與智能管理系統(tǒng)。在蔬菜水分生理研究的基礎(chǔ)上,進行了溫室甜瓜光溫水驅(qū)動的生長發(fā)育模擬模型的研究,VDP與蔬菜作物水分消耗機制研究,探明了溫室溫光水綜合影響的相關(guān)作用。在蔬菜有機栽培方面主要進行有機營養(yǎng)液及其有機無土栽培技術(shù)研究。先后完成楊凌現(xiàn)代農(nóng)業(yè)園區(qū)、中哈現(xiàn)代農(nóng)業(yè)園區(qū)、榆林國家級農(nóng)業(yè)園區(qū)、咸陽國家級農(nóng)業(yè)科技園區(qū)、江蘇揚州國家級農(nóng)業(yè)科技園區(qū)核心區(qū)、寧夏固原國家級農(nóng)業(yè)科技園區(qū)實施規(guī)劃、河南新鄭市現(xiàn)代農(nóng)業(yè)園區(qū)、青海省現(xiàn)代農(nóng)業(yè)園區(qū)、寧夏中衛(wèi)沙漠農(nóng)業(yè)園區(qū)等規(guī)劃任務(wù)。
3.開設(shè)課程
承擔本科生設(shè)施農(nóng)業(yè)環(huán)境工程學(xué)、設(shè)施園藝學(xué)、園藝設(shè)施學(xué)、設(shè)施蔬菜學(xué)、工廠化農(nóng)業(yè)、蔬菜栽培學(xué)、無土栽培學(xué)等課程教學(xué),為博、碩士研究生講授設(shè)施園藝學(xué)進展、高級設(shè)施農(nóng)業(yè)環(huán)境工程學(xué)、溫室作物生長模型、專業(yè)外語等課程。
4.主要學(xué)術(shù)成果(省級以上)
主持完成國家自然基金、國家科技支撐計劃、國家948項目、星火計劃,陜西省統(tǒng)籌計劃等各類項目,參加完成了國家“十五”,“十一五”,“十二五”,“十三五”設(shè)施農(nóng)業(yè)相關(guān)重大課題,國家863計劃項目等。目前獲批專利25項,發(fā)表論文200余篇,獲陜西省科學(xué)技術(shù)進步一等獎2項(排名分別為第一,第二),農(nóng)牧漁業(yè)豐收計劃獎一等獎1項(排名第一),陜西省科技推廣一等獎1項(排名第一),二等獎2項(排名第二),國家教學(xué)成果二等獎1項(排名第二)。陜西省教學(xué)成果獎二等獎3項(排名第一,第二)。主編出版專著2部,主編出版國家教材6部。參編國家教材10余部。
在科技推廣方面先后擔任西安、咸陽、延安、寶雞、渭南、漢中、寧夏,甘肅,青海、山西等市縣的科技顧問,深入甘肅、青海、西藏、寧夏、山西、河南及陜西等縣市進行科技指導(dǎo)服務(wù),受到有關(guān)部門的表揚。
5.主要學(xué)術(shù)論著
[1] Li Jianming, Wu Pute, Behboudian M. Hossein. (2008). Respones of muskmelon to cattle or sheep manure composed mixed with sandy soil. Journal of Organic Systems. 3: 40-50.
[2] Li Jianming, Wang Xiaoyan, Zou Zhirong. (2009). The effect of upper-limit of soil water content on tomato and cucumber. Journal of applied horticulture. 11: 112-113.
[3] Mills Tessa M., Li Jianming, Behboudian M. Hossein. (2009). Physiological responses of gold kiwifruit ( Actinidia chinensis ) to reduced irrigation. Journal of the American Society for Horticultural Science. 134: 677-683.
[4] Li Jianming, Wang Zhonghong. (2010). Study on sandy-soil organics prescription for muskmelon. Compost Science and Utilization. 18: 266-272.
[5] Li Jianming, Cheng Shuangchen. (2012). Combined effects of hypoxia and excess Mn2+ on oxidative stress and antioxidant enzymes in tomato seedlings. Russian Journal of Plant Physiology. 59: 670-678.
[6] Hu Xiaohui, Xu Zhiran, Xu Weinan, Li Jianming, Zhao Ning, Zhou Yue. (2015). Application of gamma-aminobutyric acid demonstrates a protective role of polyamine and GABA metabolism in muskmelon seedlings under Ca(NO3)(2) stress. Plant Physiology and Biochemistry. 92: 1-10.
[7] Li Jianming, Hu Lipan, Zhang Li, Pan Xiongbo, Hu Xiaohui. (2015). Exogenous spermidine is enhancing tomato tolerance to salinity-alkalinity stress by regulating chloroplast antioxidant system and chlorophyll metabolism. BMC Plant Biology. 15: 303.
[8] Zhang Dalong, Zhang Zhongdian, Li Jianming*, Chang Yibo, Du Qingjie, Pan Tonghua. (2015). Regulation of vapor pressure deficit by greenhouse micro-fog systems improved growth and productivity of tomato via enhancing photosynthesis during summer season. Plos One. 10: e0133919.
[9] Liu Guoying, Du Qingjie, Li Jianming*. (2017). Interactive effects of nitrate-ammonium ratios and temperatures on growth, photosynthesis, and nitrogen metabolism of tomato seedlings. Scientia Horticulturae. 214: 41-50.
[10] Zhang Dalong, Du Qingjie, Zhang Zhi, Jiao Xiaocong, Song Xiaoming, Li Jianming*. (2017). Vapour pressure deficit control in relation to water transport and water productivity in greenhouse tomato production during summer. Scientific Reports. 7: 43461.
[11] Du Qingjie, Xing Guoming, Jiao Xiaocong, Song Xiaoming, Li Jianming*. (2018). Stomatal responses to long-term high vapor pressure deficits mediated most limitation of photosynthesis in tomatoes. Acta Physiologiae Plantarum. 40: 149.
[12] Du Qingjie, Zhang Dalong, Jiao Xiaocong, Song Xiaoming, Li Jianming*. (2018). Effects of atmospheric and soil water status on photosynthesis and growth in tomato. Plant Soil and Environment. 64: 13-19.
[13] Liu Guoying, Du Qingjie, Jiao Xiaocong, Li Jianming*. (2018). Irrigation at the level of evapotranspiration aids growth recovery and photosynthesis rate in tomato grown under chilling stress. Acta Physiologiae Plantarum. 40: 2.
[14] Liu Tao, Hu Xiaohui, Zhang Jiao, Zhang Junheng, Du Qingjie, Li Jianming*. (2018). H2O2 mediates ALA-induced glutathione and ascorbate accumulation in the perception and resistance to oxidative stress in Solanum lycopersicum at low temperatures. BMC Plant Biology. 18: 34.
[15] Zhang Dalong, Jiao Xiaocong, Du Qingjie, Song Xiaoming, Li Jianming*. (2018). Reducing the excessive evaporative demand improved photosynthesis capacity at low costs of irrigation via regulating water driving force and moderating plant water stress of two tomato cultivars. Agricultural Water Management. 199: 22-33.
[16] Du Qingjie, Liu Tao, Jiao Xiaocong, Song Xiaoming, Zhang Jiayu, Li Jianming*. (2019). Leaf anatomical adaptations have central roles in photosynthetic acclimation to humidity. Journal of Experimental Botany. 70: 4949-4961.
[17] Jiao Xiaocong, Song Xiaoming, Zhang Dalong, Du Qingjie, Li Jianming*. (2019). Coordination between vapor pressure deficit and CO2 on the regulation of photosynthesis and productivity in greenhouse tomato production. Scientific Reports. 9: 8700.
[18] Du Qingjie, Jiao Xiaocong, Song Xiaoming, Zhang Jiayu, Bai Ping, Ding Juping, Li Jianming*. (2020). The response of water dynamics to long-term high vapor pressure deficit is mediated by anatomical adaptations in plants. Frontiers in Plant Science. 11: 758.
[19] Ahmad Husain, Li Jianming*. (2021). Impact of water deficit on the development and senescence of tomato roots grown under various soil textures of Shaanxi, China. BMC Plant Biology. 21: 241.
[20] Ma Lele, Zhang Junwei, Ren Ruidan, Fan Binghua, Hou Leiping, Li Jianming*. (2021). Effects of different organic nutrient solution formulations and supplementation on tomato fruit quality and aromatic volatiles. Archives of Agronomy and Soil Science. 67: 563-575.
[21] Ren Ruidan, Liu Tao, Ma Lele, Fan Binghua, Du Qingjie, Li Jianming*. (2021). Irrigation based on daily weighted evapotranspiration affects yield and quality of oriental melon. Scientia Horticulturae. 275: 109714.
[22] Song Xiaoming, Bai Ping, Ding Juping, Li Jianming*. (2021). Effect of vapor pressure deficit on growth and water status in muskmelon and cucumber. Plant Science. 303: 110755.
[23] Zhang Jiayu, Ding Juping, Ibrahim Musawar, Jiao Xiaocong, Song Xiaoming, Bai Ping, Li Jianming*. (2021). Effects of the interaction between vapor-pressure deficit and potassium on the photosynthesis system of tomato seedlings under low temperature. Scientia Horticulturae. 283: 110089.
[24] Zhang Jiayu, Jiao Xiaocong, Du Qingjie, Song Xiaoming, Ding Juping, Li Jianming*. (2021). Effects of vapor pressure deficit and potassium supply on root morphology, potassium uptake, and biomass allocation of tomato seedlings. Journal of Plant Growth Regulation. 40: 509-518.
[25] Ding Juping, Jiao Xiaocong, Bai Ping, Hu Yixin, Zhang Jiayu, Li Jianming*. (2022). Effect of vapor pressure deficit on the photosynthesis, growth, and nutrient absorption of tomato seedlings. Scientia Horticulturae. 293: 110736.
[26] Gao Qi, Liao Qiuhong, Li Qingming, Yang Qichang, Wang Fang, Li Jianming*. (2022). Effects of LED red and blue light component on growth and photosynthetic characteristics of coriander in plant factory. Horticulturae. 8: 1165.
[27] Hu Yixin, Miao Lili, Song Lei, Li Chenhao, Xiao Jinxin, Wang Hao, Cao Yanfei, Sun Guotao, Li Jianming*. (2022). Active solar collector located on roof ridge assisted Chinese solar greenhouse for thermal environment enhancement. Energy Sources Part a-Recovery Utilization and Environmental Effects. 44: 8959-8979.
[28] Jiao Xiaocong, Yu Xuemei, Ding Juping, Du Qingjie, Zhang Jiayu, Song Xiaoming, Bai Ping, Li Jianming*. (2022). Effects of rising VPD on the nutrient uptake, water status and photosynthetic system of tomato plants at different nitrogen applications under low temperature. Scientia Horticulturae. 304: 111335.
[29] Jiao Xiaocong, Yu Xuemei, Yuan Yajing, Li Jianming*. (2022). Effects of vapor pressure deficit combined with different N levels on tomato seedling anatomy, photosynthetic performance, and N uptake. Plant Science. 324: 111448.
[30] Li Tianzhu, Zhou Jie, Liu Ruyi, Yuan Zenan, Li Jianming*. (2022). Effects of photo-selective nets and air humidity coupling on tomato resistance to Botrytis cinerea. Scientia Horticulturae. 305: 111356.
[31] Li Wenxin, Lu Xi, Li Jianming*. (2022). The effect of organic nutrient solution on flavor in ripe cherry tomato fruit-Transcriptome and metabolomic analyses. Environmental and Experimental Botany. 194: 104721.
[32] Song Xiaoming, Miao Lili, Jiao Xiaocong, Ibrahim Musawar, Li Jianming*. (2022). Regulating vapor pressure deficit and soil moisture improves tomato and cucumber plant growth and water productivity in the greenhouse. Horticulturae. 8: 147.
[33] Wang Xiuzhang, Liu Xiao, Wang Ziqi, Sun Guotao, Li Jianming*. (2022). Greenhouse gas reduction and nitrogen conservation during manure composting by combining biochar with wood vinegar. Journal of Environmental Management. 324: 116349.
[34] Yu Xuemei, Zhao Mingfei, Wang Xiaoyan, Jiao Xiaocong, Song Xiaoming, Li Jianming*. (2022). Reducing vapor pressure deficit improves calcium absorption by optimizing plant structure, stomatal morphology, and aquaporins in tomatoes. Environmental and Experimental Botany. 195: 104786.
[35] Li Tianzhu, Liu Ruyi, Liu Zhaoyu, Chang Jiayue, Li Jianming*. (2023). Effects of intermittent temperature and humidity regulation on tomato gray mold. Plant Disease.
[36] Li Tianzhu, Zhou Jie, Li Jianming*. (2023). Combined effects of temperature and humidity on the interaction between tomato and Botrytis cinerea revealed by integration of histological characteristics and transcriptome sequencing. Horticulture Research. 10: uhac257.
[37] Li Tianzhu, Zhou Jie, Yuan Zenan, Liu RuYi, Li Jianming*. (2023). Intermittent changes in temperature and humidity repress gray mold in tomato. Plant Disease. 107: 306-314.
[38] Ma Lele, He Jiaxing, Li Jianming*. (2023). Temporal and spatial diurnal dynamics of the hysteresis of weighed transpiration and water transport in tomatoes. Environmental and Experimental Botany. 208: 105238.
[39] Yu Xuemei, Zhang Junwei, Zhang Yuhui, Ma Lele, Jiao Xiaocong, Zhao Mingfei, Li Jianming*. (2023). Identification of optimal irrigation and fertilizer rates to balance yield, water and fertilizer productivity, and fruit quality in greenhouse tomatoes using TOPSIS. Scientia Horticulturae. 311: 111829.
[40]李建明,于雪梅,王雪威,張俊威,焦曉聰,黃茜.基于產(chǎn)量品質(zhì)和水肥利用效率西瓜滴灌水肥制度優(yōu)化[J].農(nóng)業(yè)工程學(xué)報,2020,36(09):75-83.
[41]范兵華,馬樂樂,任瑞丹,王歸鵬,丁明,李建明*.有機肥浸提液灌溉頻次和灌水量對甜瓜果實芳香物質(zhì)及纖維素含量的影響[J].植物營養(yǎng)與肥料學(xué)報,2020,26(04):773-782.
[42]李建明,任瑞丹,范兵華,馬樂樂,王歸鵬.灌溉量對溫室全有機營養(yǎng)液栽培甜瓜根際環(huán)境和莖流的影響[J].農(nóng)業(yè)工程學(xué)報,2020,36(07):217-224.
[43]范兵華,馬樂樂,任瑞丹,何佳星,哈米提·阿不都米吉提,李建明*.有機營養(yǎng)液灌溉頻次和灌水量對設(shè)施甜瓜產(chǎn)量、品質(zhì)及肥水利用效率的影響[J].應(yīng)用生態(tài)學(xué)報, 2019, 30(04): 1261-1268.
[44]張鈞恒,馬樂樂,李建明*.全有機營養(yǎng)肥水耦合對番茄品質(zhì)、產(chǎn)量及水分利用效率的影響[J].中國農(nóng)業(yè)科學(xué),2018,51(14):2788-2798.
[45]蔡東升,李建明*,李惠,胡曉輝,張鈞恒.營養(yǎng)液供應(yīng)量對番茄產(chǎn)量、品質(zhì)和揮發(fā)性物質(zhì)的影響[J].應(yīng)用生態(tài)學(xué)報,2018,29(03):921-930.
[46]李建明,樊翔宇,閆芳芳,李惠,蔡東升.基于蒸騰模型決策的灌溉量對甜瓜產(chǎn)量及品質(zhì)的影響[J].農(nóng)業(yè)工程學(xué)報,2017,33(21):156-162.
[47]李建明,王 平,李 江.灌溉量對亞低溫下溫室番茄生理生化與品質(zhì)的影響,農(nóng)業(yè)工程學(xué)報. (Ei收錄) 2010,22(2):203-208.(通訊作者)
[48]李建明,鄒志榮,劉迎春,王忠紅.溫度與水分驅(qū)動的甜瓜幼苗生長形態(tài)模擬模型研究.農(nóng)業(yè)工程學(xué)報. (Ei收錄) 2006,22(11):203-208. (通訊作者)
[49] 李建明,鄒志榮. 溫度、光輻射及水分對溫室甜瓜幼苗干物質(zhì)積累與分配的影響及其模擬模型。應(yīng)用生態(tài)學(xué)報,2007. 18(12):2715-2721.(通訊作者)
[50] 李建明,溫室番茄甜瓜水肥技術(shù)研究 中國科學(xué)技術(shù)出版社,2015年8月,專著。
6.聯(lián)系方式
通訊地址:陜西楊凌邰城路3號 西北農(nóng)林科技大學(xué)園藝學(xué)院
郵編:712100
聯(lián)系電話:029-87082452(辦)
Email: lijianming66 @163.com
A brief introduction to Li Jianming
1.Basic information
Li Jianming, born in September, 1966 in Luochuan County, Shaanxi Province, is a professor and academic advisor for post-graduates in vegetable science. He graduated from Northwest University of Agriculture in 1991 and began to work in the same university in the same year. He incepted his Master’s and doctor’s degree of agronomy in 1999 and 2006 separately, and since 2008 has been doing a post-doctoral programme in Institute of Water and Soil Conservation, Chinese Academy of Sciences & Ministry of Water Resources. He had had a further study and training in Israel during Oct. to Nov., 2004, and visited Massey University, New Zealand as a visiting scholar from Sep. 2006 to Sep. 2007. He had visited universities and research institutes in such countries as Holland, Germany, France, Greece, the USA, Canada, Australia, Japan, Egypt, Burundi, Kenya and Thailand to have cooperative research with scientists there.
He had been the vice dean of the research and teaching section of vegetable science and vice dean of protected agriculture department in College of Horticulture in this university. He is now dean of Department of Protected Agricultural Science and Engineering, expert of National Vegetable Industry Technology System, the chief scientist of Shaanxi Provincial Vegetable Industry Technology System, vice dean of Northwest China Protected Agriculture Engineering Key Laboratory of Ministry of Agriculture, vice dean of Shaanxi Protected Agriculture Research Centre, council member of the protected horticulture branch of Chinese Society of Horticultural Science, executive director of Society of Horticulture Science of Shaanxi Province, and director-general of Yangling Protected Agriculture Society. He had been awarded such honorable titles as “Excellent Youth of Yangling District” and “Young Pace-setter of Shaanxi Province”.
2.Research orientation
Prof. Li Jianming mainly engages himself in the research of physiology and ecology of protected vegetables, protected environment engineering, organic vegetable cultivation, layout of modern protected agriculture parks. Specifically his major research interests are in new-type greenhouse design, watering mechanism for greenhouse vegetables, water-fertilizer demand mechanism and growth models of greenhouse crops. In recent years, he has also done a great deal of research on the relations of soil water and the physiological indexes of vegetable growth, and worked out the watering indexes for greenhouse tomato, pepper and cucumber growth in different growing periods from the angles of physiology and environmental engineering. He also did research, on the basis of vegetable water physiology studies, on the simulation and modeling of greenhouse musk melon growth driven by temperature, light and water, on the relations between VDP and vegetable water consumption, and made clear the co-relation of greenhouse temperature-light-water synthesis influences. He is also probing the problem of organic nutrient solutions and soilless culture with them for vegetables. He finished such layout as modern agriculture park in Yangling, modern agriculture zone in Kazakhstan, National agriculture parks in Yulin and Xianyang of Shaanxi Province, modern agriculture parks in Yangzhou of Jiangsu Province, in Xinzheng of Henan Province, in Qinghai Province, desert agricultural park in Zhongwei, Ningxia Autonomous Region, etc.
3. Courses Li has been teaching
Prof. Li offers such courses to undergraduates as protected agricultural environmental engineering, protected horticulture, horticultural facilities, protected vegetable cultivation, industrialized agriculture, vegetable cultivation, and soilless cultivation, as well as development of protected horticulture, advanced protected agricultural environmental engineering, greenhouse crop growth modeling, specialized English for the doctoral and master students.
4.Major academic achievements (above the provincial level)
Prof. Li has been directing and participating in 40 various key projects supported by The National Natural Science Foundation of China, National Key Technology Support Program, National 948 Program, National 863 Program, National Spark Program, Shaanxi Provincial Integrated Project. 12 patents of his have been approved.
He has published over 80 research papers, 1 academic book, and 2 national-leveled textbooks. He has been awarded 1 first prize of Shaanxi Provincial Sci-Tech Extension Award, 1 first and 1 second prizes of Shaanxi Provincial Sci-Tech Progress Award, 1 second prize of National Teaching Achievement Award, 2 second prizes of Shaanxi Provincial Teaching Achievement Award.
As for sci-tech extension, he has been, respectively, the sci-tech consultant for such counties and cities as Yangling, Xianyang, Yan’an, Baoji in Shaanxi Province, Zhongwei in Ningxia Autonomous Region, Jingchuan in Gansu Province, and Huangnan in Qinghai Province. He had been to more than 40 counties and cities in Gansu, Qinghai, Tibet, Ningxia, Shanxi, Henan and Shaanxi, to instruct local agricultural technicians and farmers, which had been rewarded by governments and departments concerned at different levels.
5.Selected Publications
[1] Li Jianming, Wu Pute, Behboudian M. Hossein. (2008). Respones of muskmelon to cattle or sheep manure composed mixed with sandy soil. Journal of Organic Systems. 3: 40-50.
[2] Li Jianming, Wang Xiaoyan, Zou Zhirong. (2009). The effect of upper-limit of soil water content on tomato and cucumber. Journal of applied horticulture. 11: 112-113.
[3] Mills Tessa M., Li Jianming, Behboudian M. Hossein. (2009). Physiological responses of gold kiwifruit ( Actinidia chinensis ) to reduced irrigation. Journal of the American Society for Horticultural Science. 134: 677-683.
[4] Li Jianming, Wang Zhonghong. (2010). Study on sandy-soil organics prescription for muskmelon. Compost Science and Utilization. 18: 266-272.
[5] Li Jianming, Cheng Shuangchen. (2012). Combined effects of hypoxia and excess Mn2+ on oxidative stress and antioxidant enzymes in tomato seedlings. Russian Journal of Plant Physiology. 59: 670-678.
[6] Hu Xiaohui, Xu Zhiran, Xu Weinan, Li Jianming, Zhao Ning, Zhou Yue. (2015). Application of gamma-aminobutyric acid demonstrates a protective role of polyamine and GABA metabolism in muskmelon seedlings under Ca(NO3)(2) stress. Plant Physiology and Biochemistry. 92: 1-10.
[7] Li Jianming, Hu Lipan, Zhang Li, Pan Xiongbo, Hu Xiaohui. (2015). Exogenous spermidine is enhancing tomato tolerance to salinity-alkalinity stress by regulating chloroplast antioxidant system and chlorophyll metabolism. BMC Plant Biology. 15: 303.
[8] Zhang Dalong, Zhang Zhongdian, Li Jianming*, Chang Yibo, Du Qingjie, Pan Tonghua. (2015). Regulation of vapor pressure deficit by greenhouse micro-fog systems improved growth and productivity of tomato via enhancing photosynthesis during summer season. Plos One. 10: e0133919.
[9] Liu Guoying, Du Qingjie, Li Jianming*. (2017). Interactive effects of nitrate-ammonium ratios and temperatures on growth, photosynthesis, and nitrogen metabolism of tomato seedlings. Scientia Horticulturae. 214: 41-50.
[10] Zhang Dalong, Du Qingjie, Zhang Zhi, Jiao Xiaocong, Song Xiaoming, Li Jianming*. (2017). Vapour pressure deficit control in relation to water transport and water productivity in greenhouse tomato production during summer. Scientific Reports. 7: 43461.
[11] Du Qingjie, Xing Guoming, Jiao Xiaocong, Song Xiaoming, Li Jianming*. (2018). Stomatal responses to long-term high vapor pressure deficits mediated most limitation of photosynthesis in tomatoes. Acta Physiologiae Plantarum. 40: 149.
[12] Du Qingjie, Zhang Dalong, Jiao Xiaocong, Song Xiaoming, Li Jianming*. (2018). Effects of atmospheric and soil water status on photosynthesis and growth in tomato. Plant Soil and Environment. 64: 13-19.
[13] Liu Guoying, Du Qingjie, Jiao Xiaocong, Li Jianming*. (2018). Irrigation at the level of evapotranspiration aids growth recovery and photosynthesis rate in tomato grown under chilling stress. Acta Physiologiae Plantarum. 40: 2.
[14] Liu Tao, Hu Xiaohui, Zhang Jiao, Zhang Junheng, Du Qingjie, Li Jianming*. (2018). H2O2 mediates ALA-induced glutathione and ascorbate accumulation in the perception and resistance to oxidative stress in Solanum lycopersicum at low temperatures. BMC Plant Biology. 18: 34.
[15] Zhang Dalong, Jiao Xiaocong, Du Qingjie, Song Xiaoming, Li Jianming*. (2018). Reducing the excessive evaporative demand improved photosynthesis capacity at low costs of irrigation via regulating water driving force and moderating plant water stress of two tomato cultivars. Agricultural Water Management. 199: 22-33.
[16] Du Qingjie, Liu Tao, Jiao Xiaocong, Song Xiaoming, Zhang Jiayu, Li Jianming*. (2019). Leaf anatomical adaptations have central roles in photosynthetic acclimation to humidity. Journal of Experimental Botany. 70: 4949-4961.
[17] Jiao Xiaocong, Song Xiaoming, Zhang Dalong, Du Qingjie, Li Jianming*. (2019). Coordination between vapor pressure deficit and CO2 on the regulation of photosynthesis and productivity in greenhouse tomato production. Scientific Reports. 9: 8700.
[18] Du Qingjie, Jiao Xiaocong, Song Xiaoming, Zhang Jiayu, Bai Ping, Ding Juping, Li Jianming*. (2020). The response of water dynamics to long-term high vapor pressure deficit is mediated by anatomical adaptations in plants. Frontiers in Plant Science. 11: 758.
[19] Ahmad Husain, Li Jianming*. (2021). Impact of water deficit on the development and senescence of tomato roots grown under various soil textures of Shaanxi, China. BMC Plant Biology. 21: 241.
[20] Ma Lele, Zhang Junwei, Ren Ruidan, Fan Binghua, Hou Leiping, Li Jianming*. (2021). Effects of different organic nutrient solution formulations and supplementation on tomato fruit quality and aromatic volatiles. Archives of Agronomy and Soil Science. 67: 563-575.
[21] Ren Ruidan, Liu Tao, Ma Lele, Fan Binghua, Du Qingjie, Li Jianming*. (2021). Irrigation based on daily weighted evapotranspiration affects yield and quality of oriental melon. Scientia Horticulturae. 275: 109714.
[22] Song Xiaoming, Bai Ping, Ding Juping, Li Jianming*. (2021). Effect of vapor pressure deficit on growth and water status in muskmelon and cucumber. Plant Science. 303: 110755.
[23] Zhang Jiayu, Ding Juping, Ibrahim Musawar, Jiao Xiaocong, Song Xiaoming, Bai Ping, Li Jianming*. (2021). Effects of the interaction between vapor-pressure deficit and potassium on the photosynthesis system of tomato seedlings under low temperature. Scientia Horticulturae. 283: 110089.
[24] Zhang Jiayu, Jiao Xiaocong, Du Qingjie, Song Xiaoming, Ding Juping, Li Jianming*. (2021). Effects of vapor pressure deficit and potassium supply on root morphology, potassium uptake, and biomass allocation of tomato seedlings. Journal of Plant Growth Regulation. 40: 509-518.
[25] Ding Juping, Jiao Xiaocong, Bai Ping, Hu Yixin, Zhang Jiayu, Li Jianming*. (2022). Effect of vapor pressure deficit on the photosynthesis, growth, and nutrient absorption of tomato seedlings. Scientia Horticulturae. 293: 110736.
[26] Gao Qi, Liao Qiuhong, Li Qingming, Yang Qichang, Wang Fang, Li Jianming*. (2022). Effects of LED red and blue light component on growth and photosynthetic characteristics of coriander in plant factory. Horticulturae. 8: 1165.
[27] Hu Yixin, Miao Lili, Song Lei, Li Chenhao, Xiao Jinxin, Wang Hao, Cao Yanfei, Sun Guotao, Li Jianming*. (2022). Active solar collector located on roof ridge assisted Chinese solar greenhouse for thermal environment enhancement. Energy Sources Part a-Recovery Utilization and Environmental Effects. 44: 8959-8979.
[28] Jiao Xiaocong, Yu Xuemei, Ding Juping, Du Qingjie, Zhang Jiayu, Song Xiaoming, Bai Ping, Li Jianming*. (2022). Effects of rising VPD on the nutrient uptake, water status and photosynthetic system of tomato plants at different nitrogen applications under low temperature. Scientia Horticulturae. 304: 111335.
[29] Jiao Xiaocong, Yu Xuemei, Yuan Yajing, Li Jianming*. (2022). Effects of vapor pressure deficit combined with different N levels on tomato seedling anatomy, photosynthetic performance, and N uptake. Plant Science. 324: 111448.
[30] Li Tianzhu, Zhou Jie, Liu Ruyi, Yuan Zenan, Li Jianming*. (2022). Effects of photo-selective nets and air humidity coupling on tomato resistance to Botrytis cinerea. Scientia Horticulturae. 305: 111356.
[31] Li Wenxin, Lu Xi, Li Jianming*. (2022). The effect of organic nutrient solution on flavor in ripe cherry tomato fruit-Transcriptome and metabolomic analyses. Environmental and Experimental Botany. 194: 104721.
[32] Song Xiaoming, Miao Lili, Jiao Xiaocong, Ibrahim Musawar, Li Jianming*. (2022). Regulating vapor pressure deficit and soil moisture improves tomato and cucumber plant growth and water productivity in the greenhouse. Horticulturae. 8: 147.
[33] Wang Xiuzhang, Liu Xiao, Wang Ziqi, Sun Guotao, Li Jianming*. (2022). Greenhouse gas reduction and nitrogen conservation during manure composting by combining biochar with wood vinegar. Journal of Environmental Management. 324: 116349.
[34] Yu Xuemei, Zhao Mingfei, Wang Xiaoyan, Jiao Xiaocong, Song Xiaoming, Li Jianming*. (2022). Reducing vapor pressure deficit improves calcium absorption by optimizing plant structure, stomatal morphology, and aquaporins in tomatoes. Environmental and Experimental Botany. 195: 104786.
[35] Li Tianzhu, Liu Ruyi, Liu Zhaoyu, Chang Jiayue, Li Jianming*. (2023). Effects of intermittent temperature and humidity regulation on tomato gray mold. Plant Disease.
[36] Li Tianzhu, Zhou Jie, Li Jianming*. (2023). Combined effects of temperature and humidity on the interaction between tomato and Botrytis cinerea revealed by integration of histological characteristics and transcriptome sequencing. Horticulture Research. 10: uhac257.
[37] Li Tianzhu, Zhou Jie, Yuan Zenan, Liu RuYi, Li Jianming*. (2023). Intermittent changes in temperature and humidity repress gray mold in tomato. Plant Disease. 107: 306-314.
[38] Ma Lele, He Jiaxing, Li Jianming*. (2023). Temporal and spatial diurnal dynamics of the hysteresis of weighed transpiration and water transport in tomatoes. Environmental and Experimental Botany. 208: 105238.
[39] Yu Xuemei, Zhang Junwei, Zhang Yuhui, Ma Lele, Jiao Xiaocong, Zhao Mingfei, Li Jianming*. (2023). Identification of optimal irrigation and fertilizer rates to balance yield, water and fertilizer productivity, and fruit quality in greenhouse tomatoes using TOPSIS. Scientia Horticulturae. 311: 111829.
6. Contacts:
Address: College of Horticulture, Northwest A&F University,3 Taicheng, Road, Yangling,Shaanxi Province, China. 712100
Telephone:029-87082452(Office)
Email: lijianming66 @163.com
