Photosynthesis Parameters Measurement Technology Based on Fast Phase and Relaxation Fluorescence Induced by Optical Pulses

QIN Zhi-song; YIN Gao-fang; ZHAO Nan-jing; SHI Chao-yi; GAN Ting-ting; XIAO Xue; DUAN Jing-bo; ZHANG Xiao-ling; CHEN-Shuang; LIU Jian-guo; LIU Wen-qing

doi:10.3788/gzxb20174609.0930003

[1] HAN Fu-ping, HAN Zhi-guo, FU Xiang. Algae photosynthesis: mechanism and model［M］. Beijing: Science Press, 2003.

[2] MAUZERALL D. Light-induced fluorescence changes in Chlorella, and the primary photoreactions for the production of oxygen［J］. Proceedings of the National Academy of Sciences, 1972, 69(6): 1358-1362.

[3] SCHREIBER U, SCHLIWA U, BILGER W. Continuous recording of photochemical and non-photochemical chlorophyll fluorescence quenching with a new type of modulation fluorometer［J］. Photosynthesis Research, 1986, 10(1): 51-62.

[4] KOLBER Z S，FALKOWSKI P G. Fast Repetition Rate (FRR) fluorometer and method for measuring fluorescence and photosynthetic parameters［J］. Nuclear Medicine Communications, 1995, 33(12): 1232-1242.

[5] KOLBER Z S, PRASIL O, FALKOWSKI P G. Measurements of variable chlorophyll fluorescence using fast repetition rate techniques: defining methodology and experimental protocols［J］. Biochimica Et Biophysica Acta, 1998, 1367(1-3): 88-106.

[6] VREDENBERG W. Kinetic analyses and mathematical modeling of primary photochemical and photoelectron chemical processes in plant photosystems.［J］. Biosystems, 2011, 103(2): 138-151.

[7] STIRBET A, RIZNICHENKO G Y, RUBIN A B, et al. Modeling chlorophyll a fluorescence transient: relation to photosynthesis.［J］. Biochemistry Biokhimiia, 2014, 79(4): 291-323.

[8] TONGRA T, MEHTA P, MATHUR S, et al. Computational analysis of fluorescence induction curves in intact spinach leaves treated at different pH［J］. Bio Systems, 2011, 103(2): 158-163.

[9] AN L. The polyphasic chlorophyll a fluorescence rise measured under high intensity of exciting light［J］. Functional Plant Biology, 2006, 33(1): 9-30.

[10] STIRBET A, GOVINDJEE. On the relation between the Kautsky effect (chlorophyll a, fluorescence induction) and Photosystem II: Basics and applications of the OJIP fluorescence transient［J］. Journal of Photochemistry & Photobiology B Biology, 2011, 104(1-2): 236-290.

[11] VREDENBERG W, DURCHAN M, PRIL O. The analysis of PS II photochemical activity using single and multi-turnover excitations［J］. Journal of Photochemistry & Photobiology B Biology, 2012, 107(1): 45-54.

[12] SHI Chao-yi, ZHANG Yu-jun, YIN Gao-fang, et al. Measurement of algae PSII photosynthetic parameters using high-frequency excitation flashes［J］. Chinese Optics Letters, 2014, 12(8): 1-4.

[13] FENANDEZ-JARAMILLO A A, ROMERO-TRONCOSO R D J, DUARTE-GALVAN C, et al. FPGA-based chlorophyll fluorescence measurement system with arbitrary light stimulation waveform using direct digital synthesis［J］. Measurement, 2015, 75(2015): 12-22.

[14] SUGGETT D J, PRIL O, BOROWITZKA M A. Chlorophyll a fluorescence in aquatic sciences: methods and applications［M］. New York: Springer Netherlands, 2010.

[15] BUTZER P L. A survey of the whittaker-shannon sampling theorem and some of its extensions［J］. Journal of Mathematical Research with Applications, 1983, 6(1): 1-36.

[16] ZHENG Jin-li, YING Qi-hang, YANG Wei-li. Signals and systems (second edition) ［M］. Beijing: Higher Education Press, 2000.

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