48 Environment and Aquaculture Development Series 3. Network of Aquaculture Centres in Asia-Pacific. Bangkok, Thailand. Fernandez C, Boudouresque CF. 2000. Nutrition of the sea urchin Paracentrotus lividus Echinodermata: Echinoidea fed different artificial food. Mar Ecol Prog Ser 204:131-141. Folch J, Lees M, Sloane-Stanley GH. 1957. A simple method for the isolation and purification of total lipids from animal tissues. J Biol Chem 226:497 –509. Fujita RM. 1985. The role of nitrogen status in regulating transient ammonium uptake and nitrogen storage by macroalgae. J Exp Mar Biol Ecol 99:283 –301. George SB, Cellario C, Fenaux L. 1990. Population differences in egg quality Arbacia lixula . Proximate composition of eggs and larval development. J Exp Mar Biol Ecol 141:107-118. Giese AC, Greenfield L, Huang H, Farmanfarmaian A, Boolootian R, Lasker R. 1959. Organic productivity in the reproductive cycle of the purple sea urchin. Biol Bull 116:49-58. Griffiths M, Perrott P. 1976. Seasonal changes in the carotenoids of the sea urchin Strongylocentrotus droebachiensis . Comp Biochem Physiol 55B: 435 –441. Guillou M, Lumingas LJL, Michel C. 2000. The effect of feeding or starvation on resource allocation to body components during the reproductive cycle of the sea urchin Sphaerechinus granularis Lamarck. J Exp Mar Biol Ecol 245:183 –196. Hagen NT, Siikavuopio SI. 2010. Recent advances in sea urchin aquaculture in Norway. Bull Aquacul Assoc Can 1081:18-22. Hammer H, Hammer B, Watts S, Lawrence A, Lawrence J. 2006a. The effect of dietary protein and carbohydrate concentration on the biochemical composition and gametogenic condition of the sea urchin Lytechinus variegatus . J Exp Mar Biol Ecol 334:109-121. Hammer H, Watts S, Lawrence A, Lawrence J, Desmond R. 2006b. The effect of dietary protein on consumption, survival, growth and production of the sea urchin Lytechinus variegates. Aquaculture 254:483-495. Hewitson TD, Wigg B, Becker GJ. 2010. Tissue preparation for histochemistry: fixation, embedding and antigen retrievel for light microscopy. Di dalam: Hewitson TD, Daroy IA, editor. Method in Moleculer Biology: Histology Protocols. New York: Humana Press, Springer Sci. hlm 3-8. de la Higuera M. 2001. Effect of nutritional factors and feed characteristics on feed intake. Di dalam: Houlihan D, Boujard T, Jobling M, editor. Food Intake in Fish . Oxford: Blackwell Sci. hlm 250-268. James P, Siikavuopio S. [2012]. A guide to the sea urchin reproductive cycle and staging sea urchin gonad samples. Nofima. hlm 1-14. Jha B, Reddy CRK, Thakur MC, Rao MU. c2009. Seaweeds of India: the diversity and distribution of seaweeds of the Gujarat Coast. Di dalam: Borowitzka MA, editor. Development in Applied Phycology. Volume 3. London, New York: Springer Sci. hlm 8-18. Jobling M, Gomes E, Dias J. 2001. Feed types, manufacture and ingredients. Di dalam: Houlihan D, Boujard T, Jobling M, editor. Food Intake in Fish. Oxford: Blackwell Sci. hlm 25-48. 49 Keesing JK, Hall KC. 1998. Review of harvests and status of world sea urchin fisheries points to opportunities for aquaculture. J Shellfish Res 17:1597- 1604. Kelly MS, Chamberlain J. 2010. Recent advances in sea urchin aquaculture and enhancement in Scotland and Ireland. Bull Aquacul Assoc Can 1081:23-29. Kennedy EJ, Robinson SMC. 2007. Effect of dietary minerals and pigment on somatic growth of juvenile green sea urchins, Strongylocentrotus droebachiensis . J World Aquacul Soc 381:36-48. Klinger TS, Lawrence JM. 1984. Phagostimulation of Lytechinus varigatus Lamarck Echinodermata: Echinoidea. Mar Behav Physiol 11:49-67. Lawrence JM, Agatsuma Y. 2007. Ecology of Tripneustes. Di dalam: Lawrence JM, editor. Edible Sea Urchin: Biology and Ecology. Ed ke 2. Oxford: Elsevier. hlm 499-514. Lawrence JM, Lawrence AL, Watts SA. 2007. Feeding, digestion, and digestibility. Di dalam: Lawrence JM, editor. Edible Sea Urchin: Biology and Ecology. Ed ke 2. Oxford: Elsevier. hlm 135-151. Lawrence JM, Olave S, Otaiza R, Lawrence AL, Bustos E. 1997. Enhancement of gonad production in the sea urchin Loxechinus albus in Chile fed extruded feeds. J World Aquacul Soc 28:91-96. Lawrence JM. 2007. Edible sea urchins: use and life-history strategies. Di dalam: Lawrence JM, editor. Edible Sea Urchin: Biology and Ecology. Ed ke 2. Oxford: Elsevier. hlm 1-9. Lindstedt KJ. 1971. Chemical control of feeding behavior. Comp Biochem Physiol 39A:553-581. Liu H, Zhu JX, Kelly MS. 2010. Recent advances in sea urchin aquaculture and enhancement in China. Bull Aquacul Assoc Can 1081:30-37. Liyana-Pathirana C, Sahidi F, Whittick A. 2002. The effect of an artificial diet on the biochemical composition of the gonads of the sea urchin Strongylocentrotus droebachiensis. Food Chem 79:461-472. Lowe EF, Lawrence JM. 1976. Absorption efficiencies of Lytechinus variegatus Lamarck Echinodermata: Echinoidea for selected marine plants. J Exp Mar Biol Ecol 21:223-234. Marsh AG, Watts SA. 2007. Biochemical and energy requirements of gonad development. Di dalam: Lawrence JM, editor. Edible Sea Urchin: Biology and Ecology . Ed ke 2. Oxford: Elsevier. hlm 35-69. McBride SC, Pinnix WD, Lawrence JM, Lawrence AL, Mulligan TM. 1997. The effect of temperature on production of gonads by the sea urchin Strongylocentrotus franciscanus fed natural and prepared diets. J World Aquacult Soc 28:357-365. McClintock JB, Klinger TS, Lawrence JM. 1982. Feeding preferences of echinoids for plant and animal food models. Bull Mar Sci 32:365-369. Miller RJ, Mann KH. 1973. Ecological energetics of the seaweed zone in a marine bay on the Atlantic coast of Canada. III. Energy transformations by sea urchins. Mar Biol 18:99-114. [NRC] National Research Council. 1977. Nutrient requirements of warmwater fishes. National Academy of Sciences. Washinton DC. hlm 78. Noiraksar T, Ajisaka T. 2008. Taxonomy and distribution of Sargassum Phaeophyceae in the Gulf of Thailand. J Appl Phycol 20:963-977.