[1] Perezmartin A, Michelazzo C, Torresruiz JM, et al. Regulation of photosynthesis and stomatal and mesophyll conductance under water stress and recovery in olive trees: Correlation with gene expression of carbonic anhydrase and aquaporins. Journal of Experimental Botany, 2014, 65: 3143-3156 [2] Xiong D, Liu X, Liu L, et al. Rapid responses of mesophyll conductance to changes of CO2 concentration, temperature and irradiance are affected by N supplements in rice. Plant, Cell and Environment, 2015, 38: 2541-2550 [3] Xu D-Q (许大全). Photosynthesis. Beijing: Science Press, 2013 (in Chinese) [4] Wu G-L (吴甘霖), Duan R-Y (段仁燕), Wang Z-G (王志高), et al. Effects of drought stress and rehydration on chlorophyll fluorescence characteristics in Fragaria ananassa Duch. Acta Ecologica Sinica (生态学报), 2010, 30(14): 3941-3946 (in Chinese) [5] Song Y-Z (宋玉芝), Cai W (蔡 炜), Qin B-Q (秦伯强). Photosynthetic fluorescence characteristics of floating-leaved and submersed macrophytes commonly found in Taihu Lake. Chinese Journal of Applied Ecology (应用生态学报), 2009, 20(3): 569-573 (in Chinese) [6] Long SP, Bernacchi CJ. Gas exchange measurements, what can they tell us about the underlying limitations to photosynthesis? Procedures and sources of error. Journal of Experimental Botany, 2003, 54: 2393-2401 [7] Lal A, Ku MSB, Edwards GE. Analysis of inhibition of photosynthesis due to water stress in the C3 species Hordeum vulgare and Vicia faba: Electron transport, CO2 fixation and carboxylation capacity. Photosynthesis Research, 1996, 49: 57-69 [8] Valentini R, Epron D, Angelis P, et al. In situ estimation of net CO2 assimilation, photosynthetic electron flow and photorespiration in Turkey oak (Q. cerris L.) lea-ves: Diurnal cycles under different levels of water supply. Plant, Cell and Environment, 1995, 18: 631-640 [9] Harley PC, Loreto F, Marco GD, et al. Theoretical considerations when estimating the mesophyll conductance to CO2 flux by analysis of the response of photosynthesis to CO2. Plant Physiology, 1992, 98: 1429-1436 [10] Loreto F, Harley PC, Marco GD, et al. Estimation of mesophyll conductance to CO2 flux by three different methods. Plant Physiology, 1992, 98: 1437-1443 [11] Ögren E, Baker NR. Evaluation of a technique for the measurement of chlorophyll fluorescence from leaves exposed to continuous white light. Plant, Cell and Environment, 1985, 8: 539-547 [12] Schreiber U, Schliwa U, Bilger W. Continuous recording of photochemical and non-photochemical chlorophyll fluorescence quenching with a new type of modulation fluorometer. Photosynthesis Research, 1986, 10: 51-62 [13] Schreiber U. Pulse-Amplitude-Modulation (PAM) Fluorometry and Saturation Pulse Method: An Overview. Dordrecht: Springer, 2004 [14] Markgraf T, Berry J. Measurement of Photochemical and Non-photochemical Quenching: Correction for Turnover of PS2 during Steady-state Photosynthesis.Dordrecht: Kluwer Academic Publishers, 1990 [15] Loriaux SD, Avenson TJ, Welles JM, et al. Closing in on maximum yield of chlorophyll fluorescence using a single multiphase flash of sub-saturating intensity. Plant, Cell and Environment, 2013, 36: 1755-1770 [16] Earl HJ, Ennahli S. Estimating photosynthetic electron transport via chlorophyll fluorometry without photosystem Ⅱ light saturation. Photosynthesis Research, 2004, 82: 177-186 [17] Yang X-H (杨兴洪), Zou Q (邹 琦), Zhao S-J (赵世杰). Photosynthetic characteristics and chlorophyll fluorescence in leaves of cotton plants grown in full light and 40% sunlight. Acta Phytoecologica Sinica (植物生态学报), 2005, 29(1): 8-15 (in Chinese) [18] Sun G-C (孙谷畴), Zhao P (赵 平). Responses of mesophyllic conductance in leaves of 4 dominant subtropical forest tree species to moderate high temperature. Chinese Journal of Applied Ecology (应用生态学报), 2007, 18(6): 1187-1193 (in Chinese) [19] Cano FJ, López R, Warren CR. Implications of the mesophyll conductance to CO2 for photosynthesis and water-use efficiency during long-term water stress and recovery in two contrasting Eucalyptus species. Plant, Cell and Environment, 2014, 37: 2470-2490 [20] Théroux-Rancourt G, thier G, Pepin S. Threshold response of mesophyll CO2 conductance to leaf hydraulics in highly transpiring hybrid poplar clones exposed to soil drying. Journal of Experimental Botany, 2014, 65: 741-753 [21] Genty B, Briantais JM, Baker NR. The relationship between the quantum yield of photosynthetic electron transport and quenching of chlorophyll fluorescence. Biochi-mica et Biophysica Acta, 1989, 990: 87-92 [22] Major KM, Dunton KH. Variations in light-harvesting characteristics of the seagrass, Thalassia testudinum: Evidence for photoacclimation. Journal of Experimental Marine Biology and Ecology, 2002, 275: 173-189 [23] von Caemmerer S. Biochemical Models of Leaf Photosynthesis. Collingwood: CSIRO Publishing, 2000 [24] Walker BJ, SkabelundDC, Busch FA, et al. An improved approach for measuring the impact of multiple CO2 conductances on the apparent photorespiratory CO2 compensation point through slope-intercept regression. Plant, Cell and Environment, 2016, 39: 1198-1203 [25] Gu L, Sun Y. Artefactual responses of mesophyll conductance to CO2 and irradiance estimated with the variable J and online isotope discrimination methods. Plant, Cell and Environment, 2014, 37: 1231-1249 |