Abstract
The temperature range for the best competitive position by growth of Thalassiosira nordenskioeldii Cleve has been determined by comparing generation times. It ranges from-1.5° to 6°C. At these temperatures, especially at lower light intensities, it was one of the fastest growing species, whereas above 6°C many other species grew faster. High light intensities at increasing temperatures became damaging. A flowering of the cold oligo-eurytherm diatom T. nordenskioeldii occurs not only in the upper layers, but can also occur at greater depth simultaneously, because decreasing daylengths at 6°C had the least influence on its growth. Continuous light at 6°C had a positive influence on its growth. The start of the T. nordenskioeldii spring flowering under the Arctic Sea Ice is discussed in connection with the occurrence of enclosed marine diatoms in Polar Sea Ice. The influence of the winter temperature on the spring flowering of the North Sea, the southern border for flowerings of T. nordenskioeldii, is discussed. For Chaetoceros diadema (Ehrenberg) Gran the best competitive position by growth is reached at-1.5° to about 6°C. It has the best opportunity of reaching high cell numbers at the lowest temperatures of the range. The occurrence of the cold oligo-eurytherm diatom Ch. diadema in plankton samples at temperatures above 10°C need not be incorret, for the species did grow in cultures at 12° and 16°C. The wrong interpretation of the experimentally determined optimum temperature of e.g. T. nordenskioeldii caused a discrepancy between experimental results and field data that does not exist. The question is discussed whether ecologically it is relevant to talk about a temperature optimum. On account of the results of T. nordenskioeldii the question of the adaptation of diatom cultures for the start of the real experiments is discussed.
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Literature Cited
Ackley, S. F., K. R. Buck and S. Taguchi: Standing crop of algae in the sea ice of the Weddell Sea region. Deep-Sea Res. 26, 269–281 (1979)
Baars, J. W. M.: Autecological investigations on marine diatoms. I: Experimental results in biogeographical studies. Hydrobiol. Bull. 13(2/3), 123–137 (1979)
Baars, J. W. M.: Autecological investigations on marine diatoms. 2: Generation times of 50 species. Hydrobiol. Bull. 15(3), 137–151 (1981)
BAH (Biologische Anstalt Helgoland): Jahresberichte. Hamburg (1970–1977)
Braarud, T.: A quantitative method for the experimental study of plankton diatoms. J. Cons., Cons. int. Explor. Mer 12, 321–332 (1937)
Braarud, T.: Cultivation of marine organisms as a means of understanding environmental influences on populations. In: Oceanography. Ed. by M. Sears, Washington, D. C.: Am. Ass. adv. Sci., 67, 271–298 (1961)
Braarud, T.: Species distribution in marine phytoplankton. J. Oceanogr. Soc. Japan, 20th Anniversary. 20, 628–649 (1962)
Braarud, T., K. R. Gaarder and O. Nordli: Seasonal changes in the phytoplankton at various points off the Norwegian Coast. Fisk. Skrifl., Ser. Havunders. 12 (3), 1–77 (1958)
Bunt, J. S. and C. C. Lee: Seasonal primary production in antarctic sea ice at McMurdo Sound in 1967. J. mar. Res. 28, 304–320 (1970)
Bursa, A.: The annual oceanographic cycle at Igloolik in the Canadian Arctic. 2. The phytoplankton. “Calanus” Series, No. 17. J. Fish. Res. Bd Can. 18(4), 563–615 (1961)
Cleve-Euler, A.: Die Diatomeen von Schweden und Finnland. Kgl. Svenska Vetenskapsakad. Handl. Fjärde Ser., Bd. 2, 1–161 (1951)
Conover, S. A. M.: Oceanography of Long Island Sound, 1952–1954. 4. Phytoplankton. Bull. Bingham Oceanogr. Coll. 15, 62–112 (1956)
Davidson, V. M.: Fluctuations in the abundance of planktonic diatoms in the Passamaquoddy Region, new Brunswick from 1924 to 1931. Contrib. Can. Biol. Fish. N.S. 8, 359–407 (1934)
Drebes, G.: Marines Phytoplankton. Eine Auswahl der Helgoländer Planktonalgen (Diatomeen, Peridineen), 186 pp. Stuttgart: George Thieme Verlag 1974
Drebes, G. and M. Elbrächter: A checklist of planktonic diatoms and dinoflagellates from Helgoland and List (Sylt), German Bight. Bot. Mar. 19, 75–83 (1976)
Durbin, E. G.: Studies on the autecology of the marine diatom Thalassiosira nordenskioeldii Cleve. 1. The influence of daylength, light intensity and temperature on the growth. J. Phycol. 10, 220–225 (1974)
Elbrächter, M.: On population dynamics in multi-species cultures of diatoms and dinoflagellates. Helgol. wiss. Meeresunters. 30, 192–200 (1977)
Gieskes, W. W. C. and G. W. Kraay: The phytoplankton spring bloom in Dutch coastal waters of the North Sea. Neth. J. Sea Res. 9(2), 166–196 (1975)
Gran, H. H. and T. Braarud: A quantitative study of the phytoplankton in the Bay of Fundy and the Gulf of Maine (including observations on hydrography, chemistry and turbidity). J. Biol. Bd Can. 1(5), 279–467 (1935)
Grøntved, J. and G. Seidenfaden: The phytoplankton of the waters west of Greenland. Medd. om Grønland 82(5), 1–380 (1938)
Guillard, R. R. L. and P. Kilham: The ecology of marine planktonic diatoms. In: The biology of diatoms. Botanical monographs. Volume 13, pp 372–469. Ed. by D. Werner. Balackwell Sci. Publ. 1977
Hargraves, P. E.: Studies on marine plankton diatoms. 1. Chaetoceros diadema (Ehr.) Gran: life cycle, structural morphology, and regional distribution. Phycologia 11(3/4), 247–257 (1972)
Hasle, G. R.: The biogeography of some marine planktonic diatoms. Deep-Sea Res. 23, 319–338 (1976)
Hasle, G. R. and T. J. Smayda: The annual phytoplankton cycle at Drøbak, Oslofjord. Nytt. Mag. f. Bot. 8, 53–75 (1960)
Hoshiai, T.: Ecological observations of the colored layer of the sea ice at Syowa station. Antarctic Record 34, 60–72 (1969)
Jahnke, J.: Laborversuche zum Einfluß des Tageslichtganges auf die Wachstumsrate von Biddulphia sinensis Greville und Coscinodiscus granii Gough. Diplomarbiet, Abt. Syst. Geobot., RWTH Aachen, 129 pp. 1977
Jitts, H. R., C. D. McAllister, K. Stephens and J. D. H. Strickland: The cell division rates of some marine phytoplankters as a functions of light and temperature. J. Fish. Res. Bd Can. 21, 139–157 (1964)
Kat. M.: Four years phytoplankton investigations in the Dutch coastal area 1973–1976. International council for the exploration of the sea. Plankton Committee C. M. 1977/L:2 (1977)
Makarova, I. V.: K biogeografii roda Thalassiosira Cl. Botanicheskii zhurnal Akademii nauk S.S.S.R. 56(10), 1459–1476 (1971)
Maykut, G. A. and T. C. Grenfell: The spectral distribution of light beneath first-year sea ice in the Arctic Ocean. Limnol. Oceanogr. 20(1) 554–563 (1975)
Paasche, E.: Growth of the plankton diatom Thalassiosira nordenskioeldii Cleve at low silicate concentrations. J. exp. mar. Biol. Ecol. 18, 173–183 (1975)
Schöne, H. K.: Die Vermehrungsrate mariner Planktondiatomeen als Parameter in der Ökosystemanalyse. Habilitationsschrift der Math.-Naturwiss. Fak. RWTH Aachen, 323 pp. 1977
Schreiber, E.: Die Reinkultur von marinem Phytoplankton und deren Bedeutung für die Erforschung der Produktionsfähigkeit des Meerwassers. Wiss. Meeresunters. N.F., Abt. Helgoland, 16, 1–34 (1927)
Smayda, T. J.: Experimental observations on the influence of temperature, light, and salinity on cell division of the marine diatom, Detonula confervacea (Cleve) Gran. J. Phycol. 5, 150–157 (1969)
Stosch, H. A. von und G. Drebes: Entwicklungsgeschichtliche Untersuchungen an zentrischen Diatomeen. 4. Die Planktondiatomee Stephanopyxis turris, ihre Behandlung und Entwicklungsgeschichte. Helgol. wiss. Meeresunters. 11, 209–257 (1964)
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Baars, J.W.M. Autecological investigation on marine diatoms 3. Thalassiosira nordenskioeldii and Chaetoceros diadema . Mar. Biol. 68, 343–350 (1982). https://doi.org/10.1007/BF00409599
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DOI: https://doi.org/10.1007/BF00409599