Abstract
Plants of Gracilaria sp.(chorda type), which grow along the coast of Uranouchi Inlet in Tosa Bay, southern Japan, showed the highest biomass in the summer (26 °C to 31 °C) and spring season (15.1 °C to 24.9 °C). Maximum biomass was 6952 g m−2 in July, but gradually decreased in the autumn (30.5 °C in September to 20 °C in November) and winter (19.5 °C in December to 14.9 °C in February). Variation in yields and gel strength of the agars, were shown to depend on the time in the season. After alkali treatment (5% NaOH, 2 h) at three different temperatures (70, 80, and 90 °C), the agars showed gel strengths essentially that of commercial grade agars, with the best gel obtained at 80 °C. Maximum gel strength (1455 g cm−2 of 1.5% agar gel) occurred in winter when the biomass and agar yield were low. Minimum gel strength was in spring. Gel strength was inversely correlated with agar yield, but was positively correlated with apparent viscosity. Maximum viscosity was 40 cP. in December. Gelling temperatures, pH of 1.5% agar gel, and moisture content in agars showed little variation.
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References
Asare, S. O., 1980. Seasonal changes in sulphate and 3,6-anhydrogalactose content of phycocolloids from two red algae. Bot. mar. 23: 595–598.
Bird, K. T., M. D. Hanisak & J. Ryther, 1981. Chemical quality and production of agars extracted from Gracilaria tikvahiae grown in different nitrogen enrichment conditions. Bot. mar. 24: 441–444.
Bird, K. T., 1988. Agar production and quality from Gracilaria sp. strain G-16: Effects of environmental factors. Bot. mar. 31: 33–39.
Bird, K. T. & J. H. Ryther, 1990. Cultivation of Gracilaria verrucosa (Gracilariales, Rhodophyta) strain G-16 for agar. Proc. int. Seaweed Symp. 13: 347–351.
Christiaen, D., T. Stadler, M. Ondarza & M. C. Verdus, 1987. Structures and functions of the polysaccharides from the cell wall of Gracilaria verrucosa (Rhodophyceae, Gigartinales). Proc. int. Seaweed Symp. 12: 139–146.
Christeller, J. T. & W. A. Laing, 1989. The effect of environment on the agar yield and gel characteristics of Gracilaria sordida Nelson (Rhodophyta). Bot. mar. 32: 447–455.
Cote, G. L., & M. D. Hanisak, 1986. Production and properties of native agars from Gracilaria tikvahiae and other red algae. Bot. Mar. 29: 359–366.
Craigie, J. S. & Z. C. Wen, 1984. Effects of temperature and tissue age on gel strength and composition of agar from Gracilaria tikvahiae (Rhodophyceae). Can. J. Bot. 62: 1665–1670.
Daugherty, B. K. & K. T. Bird, 1988. Salinity and temperature effects on agar production from Gracilaria verrucosa strain G-16. Aquaculture 75: 105–113.
Ekman, P. & M. Pedersén, 1990. The influence of photon irradiance, day length, dark treatment, temperature, and growth rate on the agar composition of Gracilaria sordida W. Nelson and Gracilaria verrucosa (Hudson) Papenfuss (Gigartinales, Rhodophyta). Bot. mar 33: 483–495.
Hayashi, K. & A. Okazaki, 1970. Handbook on agar. Korinshoin, Tokyo. 534 p. (in Japanese).
Hoyle, M. D., 1978. Agar studies in two Gracilaria species (G. bursapastoris (Gmelin)Silva and G. coronopifolia J. Ag.) from Hawaii. II. Seasonal aspects. Bot. mar. 21: 347–352.
Japan Fisheries Agency, 1991. Statistical yearbook of Fisheries and marine aquaculture. Statistics and Information Department, Ministry of Agriculture, Forestry and Fisheries, Tokyo (in Japanese).
Kim, D. H., 1970. Economically important seaweeds in Chile-I. Gracilaria. Bot. mar. 13: 140–162.
Lahaye, M. & W. Yaphe, 1988. Effects of seasons on the chemical structure and gel strength of Gracilaria pseudoverrucosa agar (Gracilariaceae, Rhodophyta). Carbohydr. polymers 8: 285–301.
Mal, T. K. & K. Subbaramaiah, 1989. Yield and physical properties of agar in the reproductive phases of Gracilaria edulis (GMEL.)SILVA. Phykos 28: 260–266.
Meteorological Agency, 1970. Kaiyo kansoku shishin. The Oceanographical Society of Japan, Tokyo, 432 pp. (Manual of Oceanographic methods, in Japanese).
Nelson, S. G., S.-S. Yang, C.-Y. Wang & Y.-M. Chaing, 1983. Yield and quality of agar from species of Gracilaria (Rhodophyta) collected from Taiwan and Micronesia. Bot. mar. 26: 361–366.
Oza, R. M., 1978. Studied on Indian Gracilaria. IV. Seasonal variation in agar and gel strength of Gracilaria corticata J. Ag. occurring on the coast of Verval. Bot. mar. 21: 165–167.
Patwary, M. U. & J. P. van der Meer, 1983. Genetics of Gracilaria tikvahiae (Rhodophyceae) IX: Some properties of agars extracted from morphological mutants. Bot. mar. 26: 295–299.
Pickering, T. D., M. E. Gordon & L. J. Tong, 1990. Seasonal growth, density, reproductive phenology and agar quality of Gracilaria sordida (Gracilariales, Rhodophyta) at Mokomoko Inlet, New Zealand. Proc. int. Seaweed Symp. 13: 253–262.
Whyte, J. N. C., J. R. Englar, R. G. Saunders & J. C. Lindsay, 1981. Seasonal variations in the biomass, quantity and quality of agar, from the reproductive and vegetative stages of Gracilaria (verrucosa type). Bot. mar 24: 493–501.
Yamamoto, H., 1978. Systematic and anatomical study of the genus Gracilaria in Japan. Mem. Fac. Fish., Hokkaido Univ. 25: 119–120.
Yang, S.-S., C.-Y. Wang & H.-H. Wang, 1981. Seasonal variation of agar-agar produced in Taiwan area. Proc. int. Seaweed Symp. 10: 737–742.
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Chirapart, A., Ohno, M. Seasonal variation in the physical properties of agar and biomass of Gracilaria sp. (chorda type) from Tosa Bay, southern Japan. Hydrobiologia 260, 541–547 (1993). https://doi.org/10.1007/BF00049068
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DOI: https://doi.org/10.1007/BF00049068