Photosynthetic responses of Arctic sea-ice microalgae to short-term temperature acclimation

Springer Science and Business Media LLC - Tập 9 - Trang 437-442 - 1989
Christine Michel1, Louis Legendre1, Jean-Claude Therriault2, Serge Demers2
1Départment de Biologie, Université Laval, Canada
2Institut Maurice-Lamontagne, Ministère des Pêches et Océans, Mont-Joli, Canada

Tóm tắt

In April-May 1986, sea-ice microalgae (southcastern Hudson Bay, Canadian Arctic) were acclimated to temperatures ranging from-1.5° to 10°C for short periods (3 h), after which photosynthesis and carboxylating enzyme activities were measured. P max b increased after acclimation to 10°C while photosynthetic parameters α, β and Ik as well as activities of PePC and PePCk did not show any significant change after temperature acclimation. Contrary to P max b , the activity of RuBPC was lower for algae acclimated to 3°-10°C, the observed response increasing with temperature. There was also a seasonal trend in the response of RuBPC, the ability to compensate for rapid temperature changes being higher in May. These results show that ice algae were photosynthetically adaptable in the range of temperatures tested. For RuBPC, adaptability developed seasonally when the environmental temperature started to fluctuate in May. Photosynthetic acclimatization to temperature may be of high ecological significance in extending the growth season of ice-algae.

Tài liệu tham khảo

Bannister TT (1974) Production equations in terms of chlorophyll concentration, quantum yield, and upper limit to production. Limnol Oceanogr 19:1–12 Berry J, Björkman O (1980) Photosynthetic response and adaptation to temperature on higher plants. Annu Rev Plant Physiol 31:491–543 Berry J, Raison JK (1981) Responses of macrophytes to temperature. In: Lange PL, Nobek PS, Osmond CB, Ziegles H (eds) Physiological plant ecology, vol I. Responses to the physical environment. The encyclopedia of plant physiology, vol 12A, new ser. Springer, Berlin, pp 277–338 Bunt JS (1964) Primary productivity under sea-ice in Antarctic waters. Antarct Res Ser 1:13–31 Conover WJ (1980) Practical non-parametric statistics. Wiley, Toronto, 493 pp Conrad M (1983) Adaptability: The significance of variability from molecule to ecosystem. Plenum Press, New York, 383 pp El-Sayed S, Taguchi S (1981) Primary production and standing crop of phytoplankton along the ice-edge in the Weddel Sea. Deep-Sea Res 28A:1017–1032 Jacques G (1983) Some ecophysiological aspects of the Antarctic phytoplankton. Polar Biol 2:27–33 Jeffrey SW, Humphrey GF (1975) New spectrophotometric equations for determining chlorophylls a, b, c1 and c2 in higher plants, algae and natural phytoplankton. Biochem Physiol Pflanz 167:191–194 Legendre L, Ingram RG, Poulin M (1981) Physical control of phytoplankton production under sea-ice (Manitounuk Sound, Hudson Bay). Can J Fish Aquat Sci 38:1385–1392 Legendre L, Demers S, Yentsch CM, Yentsch CS (1983) The C14 method: patterns of dark CO2 fixation and DCMU correction to replace the dark bottle. Limnol Oceanogr 28:996–1003 Lewis MR, Smith JC (1983) A small volume, short-incubation-time-method for measurement of photosynthesis as a function of indicident irradiance. Mar Ecol Prog Ser 13:99–102 Li WKW (1980) Temperature adaptation in phytoplankton: cellular and photosynthetic characteristics. In: Falkowski PG (ed) Primary production in the sea. Plenum Press, New York, pp 259–279 Li WKW (1985) Photosynthetic response to temperature of marine phytoplankton along a latitudinal gradient (16°N to 74°N). Deep-Sea Res 32:1381–1391 Li WKW, Smith JC, Platt T (1984) Temperature response of photosynthetic capacity and carboxylase activity in Arctic marine phytoplankton. Mar Ecol Prog Ser 17:237–243 Lund JWG, Kipling C, Le Gren ED (1958) The inverted microscope method of estimating algal numbers and the statistical basis of estimations by counting. Hydrobiology 11:143–170 Maykut GA, Grenfell TC (1975) The spectral distribution of light beneath first year sea-ice in the Arctic ocean. Limnol Oceanogr 20:554–563 Meguro H, Kuniyuki I, Fukushima H (1967) Ice flora (bottom type): a mechanism of primary production in the polar seas and the growth of diatoms in sea ice. Arctic 20:114–133 Michel C, Legendre L, Demers S, Therriault J-C (1988) Photoadaptation of sea-ice microalgae in the springtime: photosynthesis and carboxylating enzymes. Mar Ecol Prog Ser 50:177–185 Neori A, Holm-Hansen O (1982) Effect of temperature on rate of photosynthesis in Antarctic phytoplankton. Polar Biol 1:33–38 Öquist G (1983) Effects of low temperature on photosynthesis. Plant Cell Environ 6:281–300 Palmisano AC, SooHoo JB, Sullivan CW (1987) Effects of four environmental variables on photosynthesis-irradiance relationships in Antarctic sea-ice microalgae. Mar Biol 94:299–306 Platt T, Gallegos CL, Harrison WG (1980) Photoinhibition of photosynthesis in natural assemblages of marine phytoplankton. J Mar Res 38:687–701 Priscu JC, Goldman CR (1984) The effect of temperature on photosynthetic and respiratory electron transport system activity in the shallow and deep-living phytoplankton of a subalpine lake. Freshwater Biol 14:143–155 Prosser CL (1973) Comparative animal physiology. I. Environmental physiology, 3rd edn. Saunders, Philadelphia 966 pp Rochet M, Legendre L, Demers S (1985) Acclimation of sea-ice microalgae to freezing temperature. Mar Ecol Prog Ser 24:187–191 Smith JC, Platt T (1985) Temperature responses of ribulose biphosphate carboxylase and photosynthetic capacity in arctic and tropical phytoplankton. Mar Ecol Prog Ser 25:31–37 Smith JC, Platt T, Harrison WG (1983) Photoadaptation of carboxylating enzymes and photosynthesis during a spring bloom. Prog Oceanogr 12:425–459 Steemann Nielsen E, Hansen VK (1959) Light adaptation in marine phytoplankton populations and its interrelation with temperature. Physiol Plant 12:353–372 Talling JF (1957) Photosynthetic characterization of some freshwater plankton diatoms in relation to underwater radiation. New Phytol 56:29–50 Tilzer MM, Elbrachter M, Giekes W, Beese B (1986) Light-temperature interactions in the control of photosynthesis in Antarctic phytoplankton. Polar Biol 5:105–111 Van Baalen C, O'Donnell R (1983) Isolation and growth of psychrophilic diatoms from the ice-edge in the Bearing Sea. J Gen Microbiol 129:1019–1023