Yanhong ZHOU

homepage  Yanhong ZHOU  Achievement
Publication     * corresponding author
     
1.     Jiang YP, Cheng F, Zhou YH*, Xia XJ, Shi K, Yu JQ. (2012) Interactive effects of CO2 enrichment and brassinosteroid on CO2 assimilation and photosynthetic electron transport in Cucumis sativus.  Environmental and Experimental Botany 75:98– 106.
2.     Zhang KM, Wang XM, Cui JX, Ogweno JO, Shi K, Zhou YH*, Yu JQ. 2011. Characteristics of gas exchange and chlorophyll fluorescence in red and green leaves of Begonia semperflorens. Biologia Plantarum 55, 361-364
3.     Xia XJ, Zhou YH, Ding J, Shi K, Asami T, Chen ZX, Yu JQ. 2011. Induction of systemic stress tolerance by brassinosteroid in Cucumis sativus. New Phytologist doi: 10.1111/j.1469-8137.2011.03745.x
4.     Cui JX, Zhou YH(co-first author), Ding JG, Xia XJ, Shi K, Chen SC, Asami T, Chen ZX, Yu JQ. 2011. Role of nitric oxide in hydrogen peroxide-dependent induction of abiotic stress tolerance by brassinosteroids in cucumber. Plant Cell and Environment 34, 347-358
5.     Zhou YH*, Zhang YL, Wang XM, Cui XM, Xia XJ, Shi K, Yu JQ. 2011. Effects of nitrogen form on growth, CO2 assimilation, chlorophyll fluorescence, and photosynthetic electron allocation in cucumber and rice plants. Journal of Zhejiang Universtiy-SCIENCE B 12, 126-134
6.     Ogweno JO, Hu WH, Song SX, Shi K, Mao WH, Zhou YH*, Yu JQ. 2010. Photoinhibition-induced reduction in photosynthesis is alleviated by abscisic acid, cytokinin and brassinosteroid in detached tomato leaves. Plant Growth Regulation 60,175-182
7.     Zhou YH, Wu JX, Zhu LJ, Shi K, Yu JQ. 2009. Effects of phosphorus and chilling under low irradiance on photosynthesis and growth of tomato plants. Biologia Plantarum 53, 378-382.
8.     Zhou YH, Zhang YY, Zhao X, Shi K, Yu JQ. 2009. Impact of light variation on development of photoprotection, antioxidants, and nutritional value in Lactuca sativa L. Journal of Agricultural and Food Chemistry 57, 5494-5500
9.     Xia XJ, Wang YJ, Zhou YH(co-first author), Shi K, Yu JQ*. 2009. Reactive oxygen species are involved in brassinosteroid- induced stress tolerance in cucumber. Plant Physiology 150, 801-814
10.   Zhou YH, Zhou J, Ding XT, Shi K, Yu JQ. 2009. Grafting of Cucumis sativus onto Cucurbita ficifolia leads to improved plant growth, increased light utilization and reduced accumulation of reactive oxygen species in chilled plants. Journal of Plant Research 122,435-447
11.   Zhang YP, Qiao YX, Zhang YL, Zhou YH*, Yu JQ. 2008. Effects of root temperature on leaf gas exchange and xylem sap abscisic acid concentrations in six Cucurbitaceae species. Photosynthetica 46, 356-362
12.   Wang YJ, Xia XJ, Zhou YH*, Yu JQ. 2008. Compensatory acclimated mechanisms of photoprotectionin a Xa mutant of Lycopersicon esculentum Mill. Photosynthetica. 46, 28-34
13.   Zhou YH, Huang LF, Zhang YL, Yu JQ*. 2007. Chill-induced decrease in capacity of RuBP carboxylation and associated H2O2 accumulation in cucumber leaves are alleviated by grafting onto figleaf gourd. Annals of Botany 100, 839-848
14.   Zhou YH, Lam HM, Zhang JH. 2007. Inhibition of photosynthesis and energy dissipation induced by water and high light stresses in rice. Journal of Experimental Botany 1207-1217
15.   Zhou YH, Yu JQ, Mao WH, Huang LF, Song XS, Salvador N. 2006. Genotypic variation of Rubisco expression, photosynthetic electron flow and antioxidant metabolism in the chloroplasts of chill exposed cucumber plants. Plant and Cell Physiology 47,192-199
16.   Zhou YH, Mao WH, Huang LF, Hu WH, Yu JQ. 2006. Role of thermal dissipation in the photoprotection in cucumber plants after exposure to a chill stress. Photosynthetica 44, 262-267
17.   Zhou YH, Yu JQ. 2005. ALLELOCHEMICALS AND PHOTOSYNTHESIS. In: Allelopathy: A Physiological Process with Ecological Implications. Manuel J. Reigosa, Nuria Pedrol and Luis Gonzalez (Eds.). Springer-Verlag. 127-139
18.   Zhou YH, Yu JQ, Huang LF, et al. 2004. The relationship between CO2 assimilation, photosynthetic electron transport and water-water cycle in chill-exposed cucumber leaves under low light and subsequent recovery. Plant Cell and Environment 27, 1503-1514
19.   Zhou YH, Huang LF, Du YS, Yu JQ. 2004. Greenhouse and field cucumber genotypes use different mechanisms to protect against dark chilling. Functional Plant Biology 31, 1215-1223.
20.   Zhou YH, Peng YH, Lei JL, Yu JQ. 2004. Effects of potato virus Y-NTN infection on gas exchange and photosystem 2 function in leaves of Solanum tuberosum L. Photosynthetica 42, 417-423
21.   Yu JQ, Zhou YH, Huang LF, Allen D. 2002. Chill-induced inhibition of photosynthesis: Genotypic variation within Cucumis sativus. Plant and Cell Physiology 43, 1182-1188
22.   Yu JQ, Zhou YH, Ye SF, et al. 2002. 24-epibrassinolide and abscisic acid protect cucumber seedlings from chilling injury. Journal of Horticultural Science and Biotechnology 77, 470-473
23.   Hu WH, Zhou YH, Du YS, Xia XJ, Yu JQ. 2006. Differential response of photosynthesis between greenhouse- and field-ecotye to long-term chilling under low light. Journal of Plant Physiology 163, 1238-1246
24.   Ye SF, Zhou YH, Sun Y, Zou LY, Yu JQ. 2006. Cinnamic acid causes oxidative stress in cucumber roots, and promotes incidence of Fusarium wilt. Environmental and Experimental Botany 56, 255-262.