Journal of Animal and Veterinary Advances
Year:
2010
Volume:
9
Issue:
13
Page No.
1796 - 1803
References
Bizsel, N., H.A. Benli, K.C. Bizsel and G. Metin, 2001. A synoptic study on the phosphate and phytoplankton relationship in the hypereutrophicated Izmir Bay (Aegean Sea). Turk. J. Eng. Environ. Sci., 25: 89-99.
Direct Link | Brown, M.R. and K.A. Miller, 1992. The ascorbic acid content of eleven species of microalgae used in mariculture. J. Applied Phycol., 4: 205-215.
CrossRef | Direct Link | Brown, R.M. and L.C. Farmer, 1994. Riboflavin content of six species of microalgae used in mariculture. J. Applied Phycol., 6: 61-65.
CrossRef | Direct Link | Cleveland, J.S. and M.J. Perry, 1987. Quantum yield, relative specific absorption and fluorescence in nitrogen-limited
Chaetoceros gracilis. Mar. Biol., 94: 489-497.
CrossRef | Direct Link | Eppley, R.W. and W.H. Thomas, 1969. Comparison of half-saturation constants for growth and nitrate uptake of marine phytoplankton. J. Phycol., 5: 375-379.
CrossRef | Direct Link | Eppley, R.W., 1977. The Growth and Culture of Diatoms. In: The Biology of Diatoms, Werner, D. (Ed.). University of California Press, San Diego, pp: 498.
Eppley, R.W., J.L. Coatswarth and L. Solorzano, 1969. Studies of nitrate reductase in marine phytoplankton. Limnol. Oceanogr., 14: 194-205.
Direct Link | Eppley, R.W., R.N. Rogers and J.J. McCarthy, 1969. Half-saturation constants for uptake of nitrate and ammonium by marine phytoplankton. Limnol. Oceanogr., 14: 912-920.
Direct Link | Fachini, A. and S.D. Vasconcelos, 2006. Effects of zeolites on cultures of marine micro-algae. Environ. Sci. Pollut. Res., 13: 414-417.
CrossRef | Direct Link | Guillard, R.R.L. and P. Kilham, 1977. The Ecology of Marine Planktonic Diatoms. In: The Biology of Diatoms, Werner, D. (Ed.). University of California Press, California, pp: 498.
Guillard, R.R.L., 1973. Division Rates. In: Handbook of Phycological Methods: Culture Methods and Growth Measurements, Stein, J.R. (Ed.). Cambridge University Press, London, pp: 289-311.
Guillard, R.R.L., 1975. Culture of Phytoplankton for Feeding Marine Invertebrates. In: Culture of Marine Invertebrate Animals, Smith, W.L. and M.H. Chanley (Eds.). Springer, USA., ISBN-13: 9781461587163, pp: 29-60.
Hendey, N.I., 1964. An introductory account of the smaller algae of British coastal waters. Part 5. Bacillariophyceae (Diatoms) London. N.M.S.O., pp: 317.
Hoshaw, R.V. and J.R. Rosowski, 1973. Methods for Microscopic Algae. In: Handbook of Phycological Methods-Culture Methods and Growth Measurements, Stein, J.R. (Ed.). Cambridge University Press, Cambridge, pp: 446.
Izgoren-Sunlu, F.S. and B. Buyukışık, 2006. Nutrient effects on the growth rates of marine diatom
Chaetoceros gracilis schutt. E.U. J. Fish. Aquat. Sci., 23: 1-5.
Direct Link | Kennish, M.J., 1986. Ecology of Estuaries Volume 2 Biological Aspect. CRC Press, Boca Raton, pp: 395.
Kontas, A., F. Kucuksezgin, O. Altay and E. Uluturhan, 2004. Monitoring of eutrophication and nutrient limitation in the Izmir Bay (Turkey) before and after wastewater treatment plant. Environ. Int., 29: 1057-1062.
CrossRef | Kucuksezgin, F., A. Kontas, O. Altay, E. Uluturhan and E. Darilmaz, 2006. Assessment of marine pollution in Izmir Bay: Nutrient, heavy metal and total hydrocarbon concentrations. Environ. Int., 32: 41-51.
Direct Link | Levasseur, M., P.A. Thompson and P.J. Harrison, 1993. Physiological acclimation of marine phytoplankton to different nitrogen sources. J. Phycol., 29: 587-595.
Lombardi, A.T. and P.J. Wangersky, 1991. Influence of phosphorus and silicon on lipid class production by the marine diatom
Chaetoceros gracilis grown in turbidostat cage cultures. Mar. Ecol. Prog. Ser., 77: 39-47.
Direct Link | Lombardi, A.T. and P.J. Wangersky, 1995. Particulate lipid class composition of three marine phytoplankters
Chaetoceros gracilis,
Isochrysis galbana (Tahiti) and
Dunaliella tertiolecta grown in batch culture. Hydrobiologia, 306: 1-6.
CrossRef | Direct Link | Lopez-Ruiz, J.L., G.R. Garcia, M. Soledad and F. Almeda, 1995. Marine microalgae culture:
Chaetoceros gracilis with zeolitic product ZESTEC-56 and commercial fertilizer as a nutrient. Aquacult. Eng., 14: 367-372.
CrossRef | Mann, D.G., 1999. The species concept in diatoms. Phycologia, 38: 437-495.
Monod, J., 1942. La Croissance des Cultures Bacteriennes. Herman, Paris, pp: 210.
Napolitano, G.E., R.G. Ackman and W.M.N. Ratnayake, 2007. Fatty acid composition of three cultured algal species (
Isochvysis galbana,
Chaetoceros gracilis and
Chaetoceros calcitrans) used as food for bivalve larvae. J. World Aquacult. Soc., 21: 122-130.
CrossRef | Direct Link | Nelson, D.M., P. Treguer, M.A. Brzezinski, A. Leynaert and B. Queguiner, 1995. Production and dissolution of biogenic silica in the ocean. Revised global estimates, comparison with regional data and relationship to biogenic sedimentation. Global Biogeochem. Cycles, 9: 359-372.
CrossRef | Direct Link | Okumura, A., R. Nagao, T. Suzuki, S. Yamagoe, M. Iwai, K. Nakazato and I. Enami, 2008. A novel protein in photosystem II of a diatom
Chaetoceros gracilis is one of the extrinsic proteins located on lumenal side and directly associates with PSII core components. Biochimica Biophysica Acta, 1777: 1545-1551.
ISI | Parrish, C.C. and P.J. Wangersky, 1990. Growth and lipid class composition of the marine diatom,
Chaetoceros gracilis, in laboratory and mass culture turbidostats. J. Plankton Res., 12: 1011-1021.
Direct Link | Parsons, R.T., M. Yoshiaki and G.M. Lalli, 1984. A Manual of Chemical and Biological Methods for Seawater Analysis. 1st Edn., Pergamon Press, Oxford, UK., ISBN: 9780080302874, Pages: 173.
Rines, J.E.B. and P.E. Hargraves, 1988. The Chaetoceros Ehrenberg (Bacillariophyceae) Flora of Narragansett Bay, Rhode Island, U.S.A. Bibliotheca Phycologica. Pergamon Press, Berlin, Stuttgart, pp: 188.
Saavedra, M.P.S. and D. Voltolina, 1994. The chemical composition of
Chaetoceros sp. (bacillariophceae) under different light conditions. Comp. Biochem. Physiol., 107: 39-44.
CrossRef | Saavedra, M.P.S. and D. Voltolina, 1994. The effect of different photon fluence rates of blue-green light on the biomass quality of a coastal diatom in pilot scale, semicontinuous cultures. Scientia Martina, 60: 267-272.
Direct Link | Saavedra, M.P.S. and D. Voltolina, 1995. The effect of different light quality on the food value of the diatom
Chaetoceros sp. for
Artemia franciscana. Kellogg Rivista Italiana Acquacoltura, 30: 135-138.
Smayda, T.J., 1997. Harmful blooms: Their ecophysiology and general relevance to phytoplankton blooms in the sea. Limnol. Oceanogr., 42: 1137-1153.
Direct Link | Smetacek, V., 1999. Diatoms and the ocean carbon cycle. Protist, 150: 25-32.
PubMed | TUBITAK, 2006. The effects of Izmir big channel waste-water treatment project to the lower throphic level of Izmir Bay (Aegean Sea Turkey). T�BİTAK-CAYDAG Project No. 102Y116, Scientific Project Final Report, pp: 266.
Thomas, W.H. and A.N. Dodson, 1972. On nitrogen deficiency in tropical pacific oceanic phytoplankton. II. Photosynthetic and cellular characteristics of a chemostat-grown diatom. Limnol. Oceanogr., 17: 515-523.
Direct Link | Thomas, W.H. and A.N. Dodson, 1975. On silisic acid limitation of diatoms in near-surface waters of the eastern tropical Pacific Ocean. Deep Sea Res. Oceanographic Abstr., 22: 671-677.
CrossRef | Treguer, P. and P. Pondaven, 2000. Silica control of carbon dioxide. Nature, 406: 358-359.
CrossRef | Direct Link | Treguer, P., D.M. Nelson, A.J. van Bennekom, D.J. de Master, A. Leynaert and B. Queguiner, 1995. The silica balance in the world Ocean: A re estimate. Science, 268: 375-379.
CrossRef | Direct Link | Wood, R.D., 1975. Hydrobotanical Methods. University Park Press, Baltimor, Pages: 173.