植物生理生态学研究中的控制实验和测定仪器新进展
收稿日期: 2006-10-30
录用日期: 2007-03-27
网络出版日期: 2007-09-30
基金资助
国家自然科学基金(30590382/CO11108);国家自然科学基金(40310Q2);国家重点基础研究发展规划项目(2006CB403206);新疆生产建设兵团(石河子大学)绿洲生态农业重点实验室
A REVIEW OF PROGRESS IN STUDIES OF PLANT ECOPHYSIOLOGY: CONTROLLED EXPERIMENTS AND INSTRUMENTATION
Received date: 2006-10-30
Accepted date: 2007-03-27
Online published: 2007-09-30
张守仁, 樊大勇, Reto J. Strasser . 植物生理生态学研究中的控制实验和测定仪器新进展[J]. 植物生态学报, 2007 , 31(5) : 982 -987 . DOI: 10.17521/cjpe.2007.0125
Development of modern plant ecophysiology is synchronous with progress in instrumentation, with higher quality instruments becoming more portable, capable and automatic. The progress of instrumentation and its important effects on the development of ecophysiology of photosynthesis are described, and problems with controlled experiments and pseudo-replication in experimental design are discussed.
| [1] | Ainsworth EA, Long SP (2005). What have we learned from 15 years of free-air CO2 enrichment (FACE)? A meta-analytic review of the responses of photosynthesis, canopy properties and plant production to rising CO2. New Phytologist, 165,351-372. |
| [2] | Alder NN, Pockman WT, Sperry JS, Nuismer S (1997). Use of centrifugal force in the study of xylem cavitation. Journal of Experimental Botany, 48,665-674. |
| [3] | Allen Jr LH (1992). Free-air CO2 enrichment experiments: an historical overview. Critical Reviews in Plant Sciences, 11,121-134. |
| [4] | Billings WD, Godfrey PJ, Chabot BF, Bourque DP (1971). Metabolic acclimation to temperature in Arctic and alpine ecotypes of Oxyria digyna. Arctic and Alpine Research, 3,277-290. |
| [5] | Bj?rkman O, Pearcy RW, Harrison AT, Mooney HA (1972). Photosynthetic adaptation to high temperatures: a field study in Death Valley, California. Science, 175,786-789. |
| [6] | Chazdon RL, Pearcy RW (1986). Photosynthetic responses to light variation in rain forest species. I. Induction under constant and fluctuating light conditions. Oecologia, 69,517-523. |
| [7] | Epron D, Godard D, Cornic G, Genty B (1995). Limitation of net CO2 assimilation rate by internal resistances to CO2 transfer in the leaves of two tree species (Facus sylavatica L. and Castanea sativa Mill.). Plant, Cell and Environment, 18,43-51. |
| [8] | Fan DY, Gao RF (2005). Where is the site of the “oxygen burst” located during light induction in dark-adapted leaves? A dtudy using photoacoustic techniques. Journal of Integrative Plant Biology, 47,567-578. |
| [9] | Farquhar GD, Von Caemmerer S, Berry JA (1980). A biochemical model of photosynthetic CO2 assimilation in leaves of C3 species. Planta, 149,78-90. |
| [10] | Genty B, Briantais JM, Baker NR (1989). The relationship between the quantum yield of photosynthetic electron transport and quenching of chlorophyll fluorescence. Biochimistry et Biophysica Acta, 900,87-92. |
| [11] | Govindjee (1995). Sixty-three years since Kautsky: chlorophyll a fluorescence. Australia Journal of Plant Physiology, 22,131-160. |
| [12] | Hurlbert SH (1984). Pseudoreplication and the design of ecological field experiments. Ecological Monographs, 54,187-211. |
| [13] | Jiang GM (蒋高明), Han XG (韩兴国), Lin GH (林光辉) (1997). Response of plant growth to elevated CO2: a review on the chief methods and basic conclusions based on experiments in the external countries in past decade. Acta Phytoecologica Sinica (植物生态学报), 21,489-502. (in Chinese with English abstract) |
| [14] | Kappen L, Lange OL, Schulze E-D, Evenari M, Buschbom U (1979). Ecophysiological investigations on lichens of the Negev Desert. VI. Annual course of the photosynthetic production of Ramalina maciformis (Del.) Bory. Flora, 168,85-108. |
| [15] | Kimball BA (1992). Costs comparisons among Free-Air CO2 Enrichment, Open-Top Chamber, and Sunlit Controlled-Environment Chamber methods of CO2 exposure. Critical Review in Plant Science, 11,265-270. |
| [16] | Laisk A, Oja V, Rasulov H, Romma H, Eichelmann I, Kasparova H, Pettai E, Padu E, Vapaavuori E (2002). A computer-operated routine of gas exchange and optical measurements to diagnose photosynthetic apparatus in leaves. Plant, Cell and Environment, 25,923-943. |
| [17] | Laisk A, Oja V (1998). Dynamics of Leaf Photosynthesis—Rapid-Response Measurements and Their Interpretations, CSIRO Publishing House, Cambria. |
| [18] | Laisk A, Oja V (1974). Leaf photosynthesis under short pulses of CO2: the carboxylation reaction in vivo. Soviet Plant Physiology, 21,1123-1131. |
| [19] | Larcher W (2003). Physiological Plant Ecology 4th edn. Springer-Verlag, Berlin. |
| [20] | Long SP, Ainsworth EA, Rogers A, Ort DR (2004). Rising atmospheric carbon dioxide: plants FACE the future. Annual Review of Plant Biology, 55,591-628. |
| [21] | Malkin S (1987). Fast photoacoustic transients from dark-adapted intact leaves: oxygen evolution and uptake pulses during photosynthetic induction—a phenolmenology record. Planta, 171,65-72. |
| [22] | Maximov NA (1929). The Plant in Relation to Water. Allen and Unwin, London. |
| [23] | Monteith JL (1965). Light distribution and photosynthesis in field crops. Journal of Experimental Biology, 29,17-37. |
| [24] | Mousseau M, Saugier B (1992). The direct effect of increased CO2 on gas exchange and growth of forest tree species. Journal of Experimental Biology, 43,1121-1130. |
| [25] | Nobel PS (1977). Water relations and photosynthesis of a barrel cactus, Ferocactus acanthodes, in the Colorado Desert. Oecologia, 27,117-133. |
| [26] | Pearcy RW, Krall JP, Sassenrath-Cole GF (1996). Photosynthesis in fluctuating light environment. In: Baker NRed. Photosynthesis and the Environment. Kluwer, Holland,321-346. |
| [27] | Schreiber U, Schliwa U, Bilger W (1986). Continuous recording of photochemical and not-photochemical chlorophyll fluorescence quenching with a new type of modulation fluoremeter. Photosynthesis Research, 10,51-62. |
| [28] | Schulze ED, Hall AE (1982). Stomatal responses, water loss and CO2 assimilation rates of plants in contrasting environments. In: Lange OL, Nobel PS, Osmond CB, Ziegler Heds. Encyclopedia of Plant Physiology, Vol 12B. Springer, Berlin,181-230. |
| [29] | Strasser RJ, Srivastava A, Govindjee (1995). Polyphasic chlorophyll a fluorescence transient in plants and cyanobacteria. Photochemistry and Photobiology, 61,32-42. |
| [30] | Strasser RJ, Srivastava A, Tsimilli-Michael M (2004). Analysis of the chlorophyll a fluorescence transient. In: Papageorgiou G, Govindjee eds. Series: Advances in Photosynthesis and Respiration Vol. 19. Chlorophyll Fluorescence: A Signature of Photosynthesis. Chapter 12.Springer, P. O. Box17, 3300AA Dordrecht, The Netherlanel,321-362. |
| [31] | Takahashi K, Mineuchi K, Nakamura T, Koizumi M, Kano H (1994). A system for imaging transverse distribution of scattered light and chlorophyll fluorescence in intact rice leaves. Plant, Cell and Environment, 17,105-110. |
| [32] | Valladares F, Allen MT, Pearcy RW (1997). Photosynthetic responses to dynamic light under field conditions in six tropical rainforest shrubs occurring along a light gradient. Oecologia, 111,505-514. |
| [33] | Vogelmann TC, Bj?rn LO (1984). Measurement of light gradients and spectral regime in plant tissue with a fibre optic probe. Physiologia Plantarum, 60,361-368. |
| [34] | Walker DA (1987). The Use of the Oxygen Electrode and Fluorescence Probes in Simple Measurements of Photosynthesis. Oxygraphics Limited, Sheffield, UK. |
| [35] | Zhang SR (张守仁) (1999). Discussion on chlorophyll fluorescence kinetics parameters and its significance. Chinese Bulletin of Botany (植物学通报), 16,444-448. (in Chinese with English abstract) |
/
| 〈 |
|
〉 |
