周蓉

主要研究方向為非生物脅迫下植物的生理生化及分子調控機制。通過耐逆野生番茄材料的篩選，從多角度聯合分析闡明瞭植物耐逆（尤其是複合脅迫下）機制。同時，結合脅迫記憶、外源激素調控、CO2加富等手段，提出了有效增強植物應對逆境的新見解。 ^[1] 

完成丹麥奧胡斯大學的教師培訓，承擔多門課程的教學，如《Plant physiology》、《Crop nutrition and physiology》、《Global change》和《Agrobiology》等；參與南京農業大學多門研究生課程的教學。 ^[1] 

在J Exp Bot、Environ Exp Bot等雜誌發表SCI論文60篇（26篇為第一作者，大於 60% top10 Journal，大於 80%含國際合作）; 擔任大於 25個SCI雜誌的審稿人或專題編輯，受邀撰寫Elsevier書稿; 申請4項國家發明專利，1項已授權; 參與國際COST action和EPPN科研組織。 ^[1] 

丹麥奧胡斯大學長期戰略合作者，與德國IPK、哥本哈根大學、捷克PSI研發中心、中國科學院、中國農業科學院等國內外多家高校院所建立了良好的合作關係; 與多家企業建立長期合作，如丹麥Pindstrup、Ny vraa和Queen等。 ^[1] 

[11] 江蘇省農業科學院院基金，番茄雜種優勢羣劃分及性狀相關性。結題，參加。 ^[1] 

Frontiers in Plant Science副主編，Frontiers in Genetics副主編，Scientific Reports編委會成員，Agronomy和Plants主題編輯，Plants評審委員會成員。擔任以下約30個SCI雜誌的審稿人：Journal of Plant Growth Regulation; Scientific Reports; Plant and Soil; Plant Physiology and Biochemistry; Plants; Agronomy; Genomics; Scientia Agricola; Forests; Sensors; PeerJ; Plos One; International Journal of Molecular Sciences; European Journal of Horticultural Science; Archives of Agronomy and Soil Science; Frontiers in Plant Science; Frontiers in Genetics; BMC Genomics; BMC Supplement; Environmental Pollutants and Bioavailability; Horticulturae; Current Issues in Molecular Biology; Frontiers in Sustainable Food Systems; Journal of Integrative Agriculture; Antioxidants; Journal of Integrative Agriculture; BiologiaPlantarum ^[1] 

Rong Zhou, Physiological and genetic study inspired insights into tomato responding to multiple abiotic stress, 主講嘉賓, The 31stInternational Horticultural Congress, Angers, France, Aug. 2022

RongZhou,Physiologicalandgeneticresponseoftomatoplantstocombinedabioticstresses,主講嘉賓,The2ndCiFOODConference2022,31thJan-1stFeb,online,2022

Rong Zhou, Thayna Mendanha, Karen Koefoed Petersen, Søren Ugilt Larsen, Aidan Mark Smith, Carl-Otto Ottosen Developing plant bioassays to evaluate the performance of sustainable growing medium, 口頭彙報, International Society for Horticultural Science, II International Symposium on Growing Media, Soilless Cultivation, and Compost Utilization in Horticulture, Belgium, Aug. 2021

Søren Ugilt Larsen andRong Zhou, Bioeconomic opportunities in grass protein, biogas and biomass, 口頭彙報, online seminar, 2020.10 ^[1] 

周蓉，‘番茄是如何響應複合非生物脅迫的?’，個人講座，淮安市農科院，2020.01

Resilient Northern Crops，Workshop，Agro Food Park，Denmark，2019.12

周蓉，‘番茄耐逆性的關鍵調控機理’，個人講座，江蘇省農科院，2019.07

Rong Zhou, et al. ‘The physiological and biochemical responses of tomatoes to drought, heat and combined stress’. 口頭彙報，the 30thInternational Horticultural Congress，Turkey，2018.08

周蓉，高温乾旱脅迫下番茄生理特性和非編碼RNAs的響應。中國園藝學會，甘肅張掖，中國，2018.08 ^[1] 

Rong Zhou, et al. ‘Screening of tomatoes under high temperature’. 口頭彙報, the 2ndInternational Academic Conference for Graduate Students, China, 2015.12

Rong Zhou, et al. ‘validation of tomato genotypes under heat stress and heat-responsive miRNAs identification’. 口頭彙報, COST meeting FA1306, Ipk Gatersleben, Germany, 2015.06

Rong Zhou, et al. ‘Genetic diversity of species in tomato clade revealed by morphological and molecular markers’ and ‘Molecular diversity among tomato cultivars (Solanum lycopersicumL.)’. Poster presentation, the 29thInternational Horticultural Congress, Australia, 2014.08 ^[1] 

In total 60 international peer-reviewed publications with 26 as the first/corresponding author (* indicates corresponding author; # indicates equal contribution)

The first author of one book chapter

Total IF/IF5 of 26 publications as the first/corresponding author: 95/110

Total IF/IF5 of 60 publications: 200/230 ^[1] 

[1] Nikolaj Bjerring Jensen, Carl-Otto Ottosen, Rong Zhou*.(2023).Exogenous melatonin alters stomatal regulation in tomato seedlings subjected to combined heat and drought stress through mechanisms distinct from ABA signalling. Plants (4.658),12: 1156 ^[12] 

[2] Yunhe Bai, Min Liu, Rong Zhou, Fangling Jiang, Ping Li, Mengqian Li, MengZhang, Hanyu Wei, Zhen Wu*. (2023). Construction of ceRNA networks at different stages of somatic embryogenesis in garlic. Int. J. Mol. Sci. (6.208), 24:5311. ^[13] 

[3] Rong Zhou, Lifei Niu, Jian Yin, Fangling Jiang, Yinlei Wang, Tongmin Zhao, Zhen Wu*,Weimin Zhu*.(2023).Differences in physiological responses of two tomato genotypes to combined waterlogging and cadmium stresses. Antioxidants (7.675), 12: 1205. ^[14] 

[4] Rong Zhou*, Xiaqing Yu, Xiaoming Song, Eva Rosenqvist, Hongjian Wan, Carl-Otto Ottosen.(2022). Salinity, waterlogging and elevated [CO₂] inducedinteractive and complicated responses in cultivated and wild tomato. Journal of Experimental Botany (7.860), erac080. ^[2] 

[5] Rong Zhou^*, Fangling Jiang, Xiaqing Yu, LamisAbdelhakim, Xiangnan Li, Eva Rosenqvist, Carl-Otto Ottosen, Zhen Wu^*.(2022). Dominant and priming role of waterlogging in tomato at e[CO₂] by multivariate analysis. Int. J. Mol. Sci. (6.208), 23: 12121. ^[3] 

[6] Rong Zhou, Fangling Jiang, Lifei Niu, Xiaoming Song, LuYu, Yuwen Yang, Zhen Wu^*.(2022). Increase crop resilience to heat stress using omic Strategies.Frontiers in Plant Science (6.611), 13: 891861. ^[4] 

[7] Rong Zhou^*, et al. (2020). The alleviation ofphotosynthetic damage in tomato under drought and cold stress by high CO₂and melatonin. Frontiers in plant science (5.923), 21, 5587. ^[5] 

[8] Rong Zhou^*, et al. (2020). Genotype-dependentresponses of chickpea to high temperature and moderately increased light. Plant Physiology and Biochemistry (4.270),154: 353-359. ^[6] 

[9] Rong Zhou^*, et al. (2020). Interactive effects ofelevated CO₂ concentration and combined heat and drought stress ontomato photosynthesis. BMC Plant Biology (4.215), 20: 1-12. ^[7] 

[10] Rong Zhou^*, et al. (2019). Physiological analysis andtranscriptome sequencing reveal the effects of combined cold and drought ontomato leaf. BMC Plant Biology (4.215), 19: 377. ^[8] 

[11] Rong Zhou, et al. (2019). Physiological response of tomatoes atdrought, heat and their combination followed by recovery, Physiol Plant (4.5),165: 144-154. ^[9] 

[12] Rong Zhou, et al. (2016). Identification ofmiRNAs and their targets in tomato at moderately and acutely elevatedtemperatures by high-throughput sequencing and degradome analysis. Sci Rep (4.379), 6: 33777-33789. ^[10] 

[13] Rong Zhou, et al. (2015). Screening and validation of tomatogenotypes under heat stress using F_v/F_m to reveal thephysiological mechanism of heat tolerance. Environ Exp Bot (5.545), 118: 1-11. ^[11]