[1] H Kautsky, W Appel, H Amann. Chlorophyllfluoreszenz und Kohlensureassimilation [J]. Biochemische Zeitschrift, 1960,332: 277-292.
[2] U Schreiber, H Hormann, C Neubauer, et al.. Assessment of photosystem II photochemical quantum yield by chlorophyll fluorescence quenching analysis [J]. Functional Plant Biology, 1995, 22(2): 209-220.
[3] E Sakshaug, A Bricaud, Y Dandonneau, et al.. Parameters of photosynthesis: definitions, theory and interpretation of results [J]. J Plankton Res, 1997, 19(11): 1637-1670.
[4] L Nedbal, M Trtilek, D Kaftan. Flash fluorescence induction: a novel method to study regulation of photosystem II [J]. J Photochem Photobiol B: Biol,1999, 48(2): 154-157.
[5] Fu Xiang. Studies on Photosynthesis of Phytoplankton in China Sea: Modeling of Primary Production and in Vivo Chlorophyll Fluorescence Measurement [D]. Qingdao: Institute of Oceanology, Chinese Academy of Sciences, 2007. 105-109.
[6] U Schreiber, W Bilger, C Neubauer.Chlorophyll fluorescence as a non-intrusive indicator for rapid assessment of in vivo photosynthesis [J]. Ecological Studies, 1994, 100: 49-70.
[7] G Renger, U Schreiber, J Amesz, et al.. Practical applications of fluorometric methods to algae and higher plant research. Light Emission by Plants and Bacteria, 1986. 587-619.
[8] U Schreiber. Pulse-Amplitude-Modulation (PAM) Fluorometry and Saturation Pulse Method: an Overview [M].Papageorgiou G, Govindjee. Chlorophylla fluorescence: A signature of Photosynthesis. The Netherlands: Springer, 2004, 279-319.
[9] G H Krause, E Weis. Chlorophyll fluorescence as a tool in plant physiology [J]. Photosynth Res,1984, 5(2): 139-157.
[10] A Stirbet, 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 and Photobiology B: Biology, 2011, 104(1): 236-257.
[11] W P Quick, P Horton. Studies on the induction of chlorophyll fluorescence in barley protoplasts. I. Factors affecting the observation of oscillations in the yield of chlorophyll fluorescence and the rate of oxygen evolution [J]. Proceedings of the Royal Society of London. Series B. Biological Sciences, 1984, 220(1220): 361-370.
[12] Bernard Genty, Jean-Marie Briantais, Neil R Baker. The relationship between the quantum yield of photosynthetic electron transport and quenching of chlorophyll fluorescence [J]. Biochimica et Biophysica Acta(BBA)-General Subjets, 1989, 990(1): 87-92.
[13] Neil R Baker, Kevin Oxborough. Chlorophyll Fluorescence as a Probe of Photosynthetic Productivity [M]. Papageorgiou G, Govindjee. Chlorophyll & Fluorescence: A signature of Photosynthesis. The Netherlands: Springer, 2004. 65-82.
[14] U Schreiber, U Schliwa, W Bilger. Continuous recording of photochemical and non-photochemical chlorophyll fluorescence quenching with a new type of modulation fluorometer [J]. Photosynthesis Research, 1986, 10(1-2): 51-62.
[15] Ulrich Schreiber, Christof Klughammer, Jorg Kolbowski. Assessment of wavelength-dependent parameters of photosynthetic electron transport with a new type of multi-color PAM chlorophyll fluorometer [J]. Photosynth Res, 2012, 113(1-2): 127-144.
[16] A R Grossman, D Bhaya, K E Apt, et al.. Light-harvesting complexes in oxygenic photosynthesis: diversity,control, and evolution [J]. Annu Rev Genet, 1995, 29(1): 231-288.
[17] B R Green, D G Durnford. The chlorophyll-carotenoidproteins of oxygenic photosynthesis [J]. Annu Rev Plant Physiol Plant Biol, 1996, 47(11): 685-714.
[18] Pierre Bennoun, Yung-sing Li. New results on the mode of action of 3,-(3,4-dichlorophenyl)-1,1-dimethylurea in spinach chloroplasts [J]. Biochimica et Biophysica Acta (BBA)-Bioenergetics, 1973, 292(1): 162-168.
[19] D P Sartory, J U Grobbelaar. Extraction of chlorophyll a from freshwater phytoplankton for spectrophotometric analysis [J]. Hydrobiologia, 1984, 114(3): 177-187.