Composition, size and relative density of diatoms in the stomach of 4 to 75 day-old juvenile abalone Haliotis diversicolor (Reeve)
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Aug 31, 2016
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Abstract
The diatom biofilm that naturally grow on polyvinyl chloride plates serve as food of postlarva and juvenile abalone Haliotis diversicolor Reeve, called “tokobushi” in Japanese. Composition, size and relative density of diatoms in the stomach of 4, 7, 10, 13, 17, 21, 27, 35, 50 and 75 day-old tokobushi were evaluated to characterize their diatom intake. Stomach in glycol methacrylate resin was sectioned and examined under the light microscope, then analyzed using an image processing software. The diatoms present in the stomach of tokobushi were Thalassiosira, Melosira, Triceratium, Odontella, Asterionella, Licmophora, Thalassionema, Cocconeis, Navicula and Nitzschia. Only four varieties of diatoms were observed in 4 to 10 day-old tokobushi which coincided with initial feeding. The number and size of diatoms increased in 13 to 75 day-old juvenile, which were exhibited in its exponential growth pattern. The stomach of 4 to 13 day-old tokobushi contained small-sized diatoms (<67 µm) while both small and large-sized diatoms (>123 µm) were observed in 17 to 75 day-old juveniles. Higher relative densities (8.7 – 15.8 diatom/1000 µm2) of diatoms were documented in 4 to 10 day-old tokobushi while 17 to 75 day-old exhibited lower relative densities (1.2 – 4.2 diatom/1000 µm2). Generally, as young tokobushi increases in size, the diatom intake increases in composition and size but density decreases with increasing size of diatom ingested.
How to Cite
Creencia LA, Noro T, Fukumoto M. 2016. Composition, size and relative density of diatoms in the stomach of 4 to 75 day-old juvenile abalone Haliotis diversicolor (Reeve). The Palawan Scientist. 8(1):1–12. https://doi.org/10.69721/TPS.J.2016.8.1.01.
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Keywords
abalone, biofilm, diatom, glycol methacrylate, plates, stomach
References
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Alcantara L and Noro T. 2006. Growth of the abalone Haliotis diversicolorReeve fed with macroalgae in floating net cage and plastic tank. Aquaculture Research, 37: 708-717.Baggethun. 2006. Image processing and analysis inJava www.uhnresearch.ca, Accessed on 3 March 2006.
Bryan PJ and Qian P. 1998. Induction of larval attachment and metamorphosis in the abalone Haliotis diversicolor(Reeve). Journal of Experimental Marine Biology and Ecology, 223: 39-51.
Capinpin EC Jr. 2007. Feeding, growth and survival of post-larval abalone Haliotis asininaon different benthic diatoms. Science Diliman, 19: 49-59
Carbajal-Miranda MJ, Sanchez-Saavedra MD and Simental JA. 2005. Effect of monospecific and mixed benthic diatom cultures on the growth of red abalone postlarvae Haliotis rufescens(Swainson 1822). Journal of Shellfish Research, 24: 401-405.
Chen H-C. 1989. Farming the small abalone, Haliotis diversicolor supertexta, in Taiwan. In: Hahn KO (ed.). Handbook of culture of abalone and other marine gastropods. Florida, CRC Press, pp. 265-283.
Day R, Gilmour P and Huchette S. 2004. Effects of density and food supply on postlarval abalone behavior, growth and mortality. Journal of Shellfish Research, 23: 1009-1018
Daume S and Ryan S. 2004. Nursery culture of the abalone Haliotis laevigata: Larval settlement and juvenile production using cultured algae or formulated feed. Journal of Shellfish Research, 23: 1019-1026.
Daume S, Huchette S, Ryan S and Day RW. 2004. Nursery culture of Haliotis rubra: the effect of cultured algae and larval density on settlement and juvenile production. Aquaculture, 236: 221-239.
Geiger D. 1999. A total evidence cladistic analysis of the Haliotidae (Gastropoda: Vetigastropoda). PhD Dissertation, University of Southern California.
Gordon N, Neori A, Shpigel M, Lee J and Harpaz S. 2006. Effect of diatom diets on growth and survival of the abalone Haliotis discus hannaipostlarvae. Aquaculture, 252: 225-233.
Gorrostieta-Hurtado E and Searcy-Bernal R. 2004. Combined effects of light condition (constant illumination or darkness) and diatom density on postlarval survival and growth of the abalone Haliotis rufescens. Journal of Shellfish Research, 23: 1001-1008.
Hoagland KD, Rosowski JR, Gretz MR and Roemer SC. 1993. Diatom extracellular polymer substances: Function, fine structure, chemistry, and physiology. Journal of Phycology, 29: 537-566.
Kawamura T and Takami H. 1995. Analysis of feeding and growth rate of newly metamorphosed abalone Haliotis discus hannaifed on four species of benthic diatom. Fisheries Science, 61: 357-358.
Kawamura T, Roberts RD and Nicholson CM. 1998a. Factors affecting the food value of diatom strains for post-larval abalone Haliotis iris. Aquaculture, 160: 81-88.
Kawamura T, Roberts RD, Takami H. 1998b. A review of the feeding and growth of post-larval abalone. Journal of Shellfish Research, 17: 615-625.
Kawamura T, Takami H and Yamashita Y. 2004. Effect of grazing by a herbivorous gastropod Homalopoma amussitatum, a competitor for food with post-larval abalone, on a community of benthic diatoms. Journal of Shellfish Research, 23: 989-993.
KiyomotoS and Yamasaki M. 1999. Size dependent changes in habitat, distribution and food habit of juvenile disc abalone Haliotis discus discus on the coast of Nagasaki Prefecture, southwest. Japan Bulletin of Tohoku National Fisheries Research Institute, 62: 71-81.
Martinez-Ponce DR and Searcy-Bernal R. 1998. Grazing rates of red abalone (Haliotis rufescens) postlarvae feeding on the benthic diatom Navicula incerta. Journal of Shellfish Research, 17: 627-630.
Matthews I and Cook PA. 1995. Diatom diet of abalone post-larvae (Haliotis midae) and the effect of pre-grazing the diatom overstorey. Marine and Freshwater Research, 46: 545-548.
NajmudeenTM and Victor ACC. 2004. Seed production and juvenile rearing of the tropical abalone Haliotis variaLinnaeus 1758. Aquaculture, 234: 277-292.
Norman-Boudreau K, Burns D, Cooke CA and Austin A. 1986. A simple technique for detection of feeding in newly methamorphosed abalone. Aquaculture, 51: 313-317.
Onitsuka T, Kawamura T, Ohashi S, Horii T and Watanabe Y. 2004. Morphological changes in the radula of the abalone Haliotis diversicolor aquatilisfrom post-larva to adult. Journal of Shellfish Research, 23: 1079-1085.
Peck LS, Culley MB and Helm MM. 1987. A laboratory energy budget for the ormer Haliotis tuberculataL. Journal of Experimental Marine Biology and Ecology, 106: 103-123.
Roberts RD, Kawamura T and Takami H. 1999. Morphological changes in the radula of abalone (Haliotis iris) during post-larval development. Journal of Shellfish Research, 18: 637-644.
Round FE, Crawford RM and Mann DG. 1990. The diatoms: biology and morphology of the genera. Cambridge University Press, Cambridge, USA.
Searcy-Bernal R, Velez-Espino LA and Anguiano-Beltran C. 2001. Effect of biofilm density on grazing and growth rates of Haliotis fulgenspostlarvae. Journal of Shellfish Research, 20: 587-592.
Shilling FM, Hoegh-Guldberg O and Manahan DT. 1996. Sources of energy for increased metabolic demand during metamorphosis of the abalone Haliotis rufescens(Mollusca). Biological Bulletin, 191: 402-412.
Simental JA, Sanchez-Saavedra MDP and Flores-Acevedo N. 2004. Growth and survival of juvenile red abalone (Haliotis rufescens) fed with macroalgae enriched with a benthic diatom film. Journal Shellfish Research, 23: 995-999.
Stott AE, Takeuchi T and Koike Y. 2004. An alternative culture system for the hatchery production of abalone without using live food. Aquaculture, 236: 341-360.
Takami H, Kawamura T and Yamashita Y. 1998. Development of polysaccharide degradation activity in post-larval abalone Haliotis discus hannai. Journal of Shellfish Research, 17: 723-727.
Takami H, Muraoka D, Kawamura T, Yamashita Y. 2003. When is the abalone Haliotis discus hannaiInno 1953 first able to use brown macroalga? Journal of Shellfish Research, 22 (3): 795-802.
Takami H. 2005. Feeding ecology of an abalone, Haliotis discus hannai, in their early life stages. In: Aquaculture and pathobiology of crustacean and other species, Proceedings of the third-second UNJR symposium on aquaculture, 86-100.
Uki N, Kikuch S. 1979. Food value of six benthic micro-algae on growth of juvenile abalone, Haliotis discus hannai. Bulletin of Tohoku Regional Fisheries Research Laboratory, 40: 47-52 (in Japanese with English abstract).
Alcantara L and Noro T. 2006. Growth of the abalone Haliotis diversicolorReeve fed with macroalgae in floating net cage and plastic tank. Aquaculture Research, 37: 708-717.Baggethun. 2006. Image processing and analysis inJava www.uhnresearch.ca, Accessed on 3 March 2006.
Bryan PJ and Qian P. 1998. Induction of larval attachment and metamorphosis in the abalone Haliotis diversicolor(Reeve). Journal of Experimental Marine Biology and Ecology, 223: 39-51.
Capinpin EC Jr. 2007. Feeding, growth and survival of post-larval abalone Haliotis asininaon different benthic diatoms. Science Diliman, 19: 49-59
Carbajal-Miranda MJ, Sanchez-Saavedra MD and Simental JA. 2005. Effect of monospecific and mixed benthic diatom cultures on the growth of red abalone postlarvae Haliotis rufescens(Swainson 1822). Journal of Shellfish Research, 24: 401-405.
Chen H-C. 1989. Farming the small abalone, Haliotis diversicolor supertexta, in Taiwan. In: Hahn KO (ed.). Handbook of culture of abalone and other marine gastropods. Florida, CRC Press, pp. 265-283.
Day R, Gilmour P and Huchette S. 2004. Effects of density and food supply on postlarval abalone behavior, growth and mortality. Journal of Shellfish Research, 23: 1009-1018
Daume S and Ryan S. 2004. Nursery culture of the abalone Haliotis laevigata: Larval settlement and juvenile production using cultured algae or formulated feed. Journal of Shellfish Research, 23: 1019-1026.
Daume S, Huchette S, Ryan S and Day RW. 2004. Nursery culture of Haliotis rubra: the effect of cultured algae and larval density on settlement and juvenile production. Aquaculture, 236: 221-239.
Geiger D. 1999. A total evidence cladistic analysis of the Haliotidae (Gastropoda: Vetigastropoda). PhD Dissertation, University of Southern California.
Gordon N, Neori A, Shpigel M, Lee J and Harpaz S. 2006. Effect of diatom diets on growth and survival of the abalone Haliotis discus hannaipostlarvae. Aquaculture, 252: 225-233.
Gorrostieta-Hurtado E and Searcy-Bernal R. 2004. Combined effects of light condition (constant illumination or darkness) and diatom density on postlarval survival and growth of the abalone Haliotis rufescens. Journal of Shellfish Research, 23: 1001-1008.
Hoagland KD, Rosowski JR, Gretz MR and Roemer SC. 1993. Diatom extracellular polymer substances: Function, fine structure, chemistry, and physiology. Journal of Phycology, 29: 537-566.
Kawamura T and Takami H. 1995. Analysis of feeding and growth rate of newly metamorphosed abalone Haliotis discus hannaifed on four species of benthic diatom. Fisheries Science, 61: 357-358.
Kawamura T, Roberts RD and Nicholson CM. 1998a. Factors affecting the food value of diatom strains for post-larval abalone Haliotis iris. Aquaculture, 160: 81-88.
Kawamura T, Roberts RD, Takami H. 1998b. A review of the feeding and growth of post-larval abalone. Journal of Shellfish Research, 17: 615-625.
Kawamura T, Takami H and Yamashita Y. 2004. Effect of grazing by a herbivorous gastropod Homalopoma amussitatum, a competitor for food with post-larval abalone, on a community of benthic diatoms. Journal of Shellfish Research, 23: 989-993.
KiyomotoS and Yamasaki M. 1999. Size dependent changes in habitat, distribution and food habit of juvenile disc abalone Haliotis discus discus on the coast of Nagasaki Prefecture, southwest. Japan Bulletin of Tohoku National Fisheries Research Institute, 62: 71-81.
Martinez-Ponce DR and Searcy-Bernal R. 1998. Grazing rates of red abalone (Haliotis rufescens) postlarvae feeding on the benthic diatom Navicula incerta. Journal of Shellfish Research, 17: 627-630.
Matthews I and Cook PA. 1995. Diatom diet of abalone post-larvae (Haliotis midae) and the effect of pre-grazing the diatom overstorey. Marine and Freshwater Research, 46: 545-548.
NajmudeenTM and Victor ACC. 2004. Seed production and juvenile rearing of the tropical abalone Haliotis variaLinnaeus 1758. Aquaculture, 234: 277-292.
Norman-Boudreau K, Burns D, Cooke CA and Austin A. 1986. A simple technique for detection of feeding in newly methamorphosed abalone. Aquaculture, 51: 313-317.
Onitsuka T, Kawamura T, Ohashi S, Horii T and Watanabe Y. 2004. Morphological changes in the radula of the abalone Haliotis diversicolor aquatilisfrom post-larva to adult. Journal of Shellfish Research, 23: 1079-1085.
Peck LS, Culley MB and Helm MM. 1987. A laboratory energy budget for the ormer Haliotis tuberculataL. Journal of Experimental Marine Biology and Ecology, 106: 103-123.
Roberts RD, Kawamura T and Takami H. 1999. Morphological changes in the radula of abalone (Haliotis iris) during post-larval development. Journal of Shellfish Research, 18: 637-644.
Round FE, Crawford RM and Mann DG. 1990. The diatoms: biology and morphology of the genera. Cambridge University Press, Cambridge, USA.
Searcy-Bernal R, Velez-Espino LA and Anguiano-Beltran C. 2001. Effect of biofilm density on grazing and growth rates of Haliotis fulgenspostlarvae. Journal of Shellfish Research, 20: 587-592.
Shilling FM, Hoegh-Guldberg O and Manahan DT. 1996. Sources of energy for increased metabolic demand during metamorphosis of the abalone Haliotis rufescens(Mollusca). Biological Bulletin, 191: 402-412.
Simental JA, Sanchez-Saavedra MDP and Flores-Acevedo N. 2004. Growth and survival of juvenile red abalone (Haliotis rufescens) fed with macroalgae enriched with a benthic diatom film. Journal Shellfish Research, 23: 995-999.
Stott AE, Takeuchi T and Koike Y. 2004. An alternative culture system for the hatchery production of abalone without using live food. Aquaculture, 236: 341-360.
Takami H, Kawamura T and Yamashita Y. 1998. Development of polysaccharide degradation activity in post-larval abalone Haliotis discus hannai. Journal of Shellfish Research, 17: 723-727.
Takami H, Muraoka D, Kawamura T, Yamashita Y. 2003. When is the abalone Haliotis discus hannaiInno 1953 first able to use brown macroalga? Journal of Shellfish Research, 22 (3): 795-802.
Takami H. 2005. Feeding ecology of an abalone, Haliotis discus hannai, in their early life stages. In: Aquaculture and pathobiology of crustacean and other species, Proceedings of the third-second UNJR symposium on aquaculture, 86-100.
Uki N, Kikuch S. 1979. Food value of six benthic micro-algae on growth of juvenile abalone, Haliotis discus hannai. Bulletin of Tohoku Regional Fisheries Research Laboratory, 40: 47-52 (in Japanese with English abstract).
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