[1]Enhanced lipid accumulation of photoautotrophic microalgae by high-dose CO2 mimics a heterotrophic characterization. Sun, Zhilan,Dou, Xiao,He, Bing,Wang, Yuancong,Chen, Yi-Feng,Sun, Zhilan,Wu, Jun.

[2]FLOODING-INDUCED MEMBRANE DAMAGE, LIPID OXIDATION AND ACTIVATED OXYGEN GENERATION IN CORN LEAVES. Yan, B,Dai, QJ,Liu, XZ,Huang, SB,Wang, ZX.

[3]Physiological, structural, and proteomic analysis of chloroplasts during natural senescence of Ginkgo leaves. Wei, Xiao-Dong,Shi, Da-Wei,Chen, Guo-Xiang,Wei, Xiao-Dong,Shi, Da-Wei.

[4]Molybdenum Affects Photosynthesis and Ionic Homeostasis of Chinese Cabbage under Salinity Stress. Hu, Chengxiao,Sun, Xuecheng,Zhao, Xiaohu,Tan, Qiling,Zhang, Ying,Zhang, Mu,Li, Na.

[5]Selenium uptake, dynamic changes in selenium content and its influence on photosynthesis and chlorophyll fluorescence in rice (Oryza sativa L.). Tang, Shuanhu,Huang, Xu,Zhang, Fabao,Pang, Yuwan,Huang, Qiaoyi,Yi, Qiong,Zhang, Mu,Tang, Shuanhu,Huang, Xu,Zhang, Fabao,Pang, Yuwan,Huang, Qiaoyi,Yi, Qiong,Zhang, Mu,Tang, Shuanhu,Huang, Xu,Zhang, Fabao,Pang, Yuwan,Huang, Qiaoyi,Yi, Qiong.

[6]Photosynthesis performance, antioxidant enzymes, and ultrastructural analyses of rice seedlings under chromium stress. Ma, Jing,Lv, Chunfang,Xu, Minli,Chen, Guoxiang,Gao, Zhiping,Lv, Chuangen.

[7]Differential responses of different phenotypes of Microcystis (Cyanophyceae) to UV-B radiation. Qin, Hongjie,Li, Shuangshuang,Li, Dunhai,Qin, Hongjie,Li, Shuangshuang.

[8]Photosynthetic characterization of three dominant plant species in the saline-alkaline soil of the Yellow River Delta, China. Zhang, L.,Yan, K.,Shao, H.,Zhang, L.,Yan, K.,Shao, H.,Shao, H..

[9]Changes in Photosynthetic Characteristics and Antioxidative Protection in Male and Female Ginkgo during Natural Senescence. Shi, Dawei,Wei, Xiaodong,Chen, Guoxiang,Xu, Yanli,Shi, Dawei,Wei, Xiaodong.

[10]Physiological and metabolic enzymes activity changes in transgenic rice plants with increased phosphoenolpyruvate carboxylase activity during the flowering stage. Xia, Li,Cao, Wang,Xia, Li.

[11]The effects of enhanced UV-B radiation on photosynthetic and biochemical activities in super-high-yield hybrid rice Liangyoupeijiu at the reproductive stage. Yu, G. H.,Li, W.,Yuan, Z. Y.,Cui, H. Y.,Gao, Z. P.,Chen, G. X.,Lv, C. G.,Han, B.,Gong, Y. Z..

[12]Structural, physiological and biochemical responses of Pyrus calleryana offspring to salt stress. Li, X.,Lin, J.,Chang, Y.,Zhang, Z.,Li, X.,Wang, Z.,Wang, Q.,Chang, Y.,Dong, W..

[13]Over-expression of ApKUP3 enhances potassium nutrition and drought tolerance in transgenic rice. Song, Z. -Z.,Song, Z. -Z.,Yang, S. -Y.,Su, Y. -H.,Yang, S. -Y.,Zuo, J.,Zuo, J..

[14]Drought stress had a predominant effect over heat stress on three tomato cultivars subjected to combined stress. Zhou, Rong,Zhao, Liping,Wang, Yinlei,Yu, Wengui,Zhao, Tongmin,Zhou, Rong,Zhao, Liping,Wang, Yinlei,Yu, Wengui,Zhao, Tongmin,Zhou, Rong,Yu, Xiaqing,Wu, Zhen,Ottosen, Carl-Otto,Rosenqvist, Eva. 2017

[15]SUB-CELLULAR DISTRIBUTION OF NUTRIENT ELEMENTS AND PHOTOSYNTHESIS PERFORMANCE IN ORYZA SATIVA L. SEEDLINGS UNDER SALT STRESS. Ma, Jing,Lv, Chunfang,Hao, Peifei,Yuan, Ze,Wang, Yuwen,Shen, Weijun,Xu, Chao,Chen, Guoxiang,Gao, Zhiping,Lv, Chuangen. 2017

[16]Genotypically Identifying Wheat Mesophyll Conductance Regulation under Progressive Drought Stress. Olsovska, Katarina,Brestic, Marian,Shao, Hong Bo,Olsovska, Katarina,Kovar, Marek,Brestic, Marian,Zivcak, Marek,Slamka, Pavol,Shao, Hong Bo. 2016

[17]Comparative Profile of Rubisco-interacting Proteins From Arabidopsis: Photosynthesis Under Cold Conditions. Lin Wei-Hong,An Bai-Yi,Sun Li-Wen,Liu Xiao-Yu,Sun Li-Wen,Tan Hua. 2011

[18]RNA-seq analysis reveals a key role of brassinolide-regulated pathways in NaCl-stressed cotton. Shu, H. M.,Guo, S. Q.,Gong, Y. Y.,Jiang, L.,Zhu, J. W.,Ni, W. C.. 2017

[19]Potassium contributes to zinc stress tolerance in peach (Prunus persica) seedlings by enhancing photosynthesis and the antioxidant defense system. Song, Z. Z.,Guo, S. L.,Yang, Y.,Ma, R. J.,Yu, M. L.,Song, Z. Z.,Guo, S. L.,Yang, Y.,Ma, R. J.,Yu, M. L.,Duan, C. L.,Feng, Y. F.. 2015

[20]Measurements of chlorophyll fluorescence in different leaf positions may detect nitrogen deficiency in wheat. Zivcak, Marek,Olsaovska, Katarina,Slamka, Pavol,Galambosova, Jana,Rataj, Vladimir,Brestic, Marian,Shao, Hong-Bo,Shao, Hong-Bo,Kalaji, Hazem M.. 2014