Effect of dietary protein to energy ratios on growth, digestive enzyme activity and body composition of captive juvenile spiny lobsters, Panulirus ornatus (Fabricius, 1798)

AOAC (2005). AOAC Official Method 990.03 Protein (Crude) in Animal Feed, Combustion Method. 18th Edition, Association of Analytical Communities, Gaithersburg. Search in Google Scholar

AOAC (2006). Official Methods of Analysis. Lipids, Fats and Oils Analysis Total Fat by Acid Hydrolysis Pet Food – Item 24.17th Edition, Association of Analytical Communities, Gaithersburg. Search in Google Scholar

Braga Í.F.M., Chagas A.C., Monserrat J.M., Tesser M.B., Wasielesky W., Fóes G.K., Rosas V.T. (2023). Different lipid levels in the Pacific white shrimp (Litopenaeus vannamei) nursery in systems grown in super-intensive biofloc systems. Aquacult. Rep., 33: 1–9. Search in Google Scholar

Capuzzo J.M., Lancaster B.A. (1979). The effects of dietary carbohydrate levels on protein utilization in the American lobster (Homarus americanus). Proc. World. Maricul. Soc., 10: 689–700. Search in Google Scholar

Chuntapa B., Piyatiratitivorakul S., Nitithamyong C., Viyakarn V., Menasveta P. (1999). Optimal lipid:carbohydrate and protein:energy ratios in semi-purified diets for juvenile black tiger shrimp Penaeus monodon Fabricius. Aquacult. Res., 30: 825–830. Search in Google Scholar

Cui Y., Ma Q., Limbu S.M., Du Z., Zhang N., Li E., Chen L. (2017). Effects of dietary protein to energy ratios on growth, body composition and digestive enzyme activities in Chinese mitten-handed crab, Eriocheir sinensis. Aquacult. Res., 48: 2243–2252. Search in Google Scholar

Cuzon G., Guillaume J. (1997). Energy and protein: energy ratio. In: Crustacean nutrition, D’Abramo L.R., Conklin D.E., Akiyama D.M. (eds). World Aquaculture Society, Cornell University, New York, USA, pp. 51–70. Search in Google Scholar

D’Abramo L.R., Bordner C.E., Conklin D.E., Baum N.A. (1984). Sterol requirement of juvenile lobsters, Homarus sp. Aquaculture, 42: 13–25. Search in Google Scholar

FAO (2023). Fishery and Aquaculture Statistics. Global capture production 1950–2021 (FishStatJ). www.fao.org/fishery/en/statistics/software/fishstatj Search in Google Scholar

Francis D.S., Salmon M.L., Kenway M.J., Hall M.R. (2014). Palinurid lobster aquaculture: nutritional progress and considerations for successful larval rearing. Rev. Aquac., 6: 180–203. Search in Google Scholar

Guzman, Gaxiola, Rosa, Torre B. (2001). The effect of dietary protein and total energy content on digestive enzyme activities, growth and survival of Litopenaeus setiferus (Linnaeus 1767) postlarvae. Aquacult. Nutr., 7: 113–122. Search in Google Scholar

Hamidoghli A., Yun H., Shahkar E., Won S., Hong J., Bai S.C. (2018). Optimum dietary protein-to-energy ratio for juvenile whiteleg shrimp, Litopenaeus vannamei, reared in a biofloc system. Aquacult. Res., 49: 1875–1886. Search in Google Scholar

Haryanti S., Sari Budi M., Sudewi, Widiastuti D., Giri N.A.G., Sugama K. (2017). Immunity responses of Juvenile Lobster, Panulirus homarus fed moist diets with probiotic. J. Ris. Akuakultur, 12: 85–97. Search in Google Scholar

Holthuis L.B. (1991). FAO species catalogue, vol. 13: Marine Lobsters of the World. An Annotated and Illustrated Catalogue of Species of Interest to Fisheries Known to Date. FAO fisheries synopsis, 125: 1–292. Search in Google Scholar

Irvin S.J., Shanks W.E. (2015). Tropical spiny lobster feed development: 2009–2013. Proc. International Lobster Aquaculture Symposium, 22–25.04.2014, Lombok, Indonesia, Jones, C.M. (ed). Australian Centre for International Agricultural Research, Canberra, Australia, pp. 40–54. Search in Google Scholar

Irvin S.J., Williams K.C. (2009 a). Comparison of the growth and survival of Panulirus ornatus seed lobsters held in individual or communal cages. In: Spiny lobster aquaculture in the Asia-Pacific region, Williams K.C. (ed.). Canberra, Australia, Australian Centre for International Agricultural Research, pp. 89–95. Search in Google Scholar

Irvin S.J., Williams K.C. (2009 b). Panulirus ornatus lobster feed development: from trash fish to formulated feeds. In: Spiny lobster aquaculture in the Asia-Pacific region, Williams K.C. (ed.). Canberra, Australia, Australian Centre for International Agricultural Research, pp. 147–156. Search in Google Scholar

Johnston D.J., Calvert K.A., Crear B.J., Carter C.G. (2003). Dietary carbohydrate/lipid ratios and nutritional condition in juvenile southern rock lobster, Jasus edwardsii. Aquaculture, 220: 667–682. Search in Google Scholar

Johnston M.D., Johnston D.J., Jones C. (2008). Evaluation of partial replacement of live and fresh feeds with a formulated diet and the influence of weaning Panulirus ornatus phyllosomata onto a formulated diet during early ontogeny. Aquacult. Int., 16: 33–47. Search in Google Scholar

Jones C.M. (2015). Tropical rock lobster aquaculture development in Vietnam, Indonesia and Australia. J. Marine Biol. Assoc. India, 52: 304–315. Search in Google Scholar

Jones C.M., Anh T.L., Priyambodo B. (2019). Lobster aquaculture development in Vietnam and Indonesia. In: Lobster: Biology, Fisheries and Aquaculture, Radhakrishnan E.V., Phillips B., Achamveetil G. (eds). Springer, pp. 541–570. Search in Google Scholar

Kropielnicka-Kruk K., Trotter A.J., Fitzgibbon Q.P., Smith G.G., Carter C.G. (2019). The effect of conspecific interaction on survival, growth and feeding behaviour of early juvenile tropical spiny lobster Panulirus ornatus. Aquaculture, 510: 234–247. Search in Google Scholar

Marchese G., Fitzgibbon Q., Trotter A., Carter C.G., Jones C., Smith G. (2018). The influence of flesh ingredients format and krill meal on growth and feeding behaviour of juvenile tropical spiny lobster Panulirus ornatus. Aquaculture, 499: 128–139. Search in Google Scholar

Méndez-Martínez Y., García-Guerrero M.U., Arcos-Ortega F.G., Martínez-Córdova L.R., Yamasaki-Granados S., Pérez-Rodríguez J.C., Cortés-Jacinto E. (2018). Effect of different ratios of dietary protein-energy on growth, body proximal composition, digestive enzyme activity, and hepatopancreas histology in Macrobrachium americanum (Bate, 1868) prawn juveniles. Aquaculture, 485: 1–11. Search in Google Scholar

Moreno-Arias A., López-Elías J.A., Martínez-Córdova L.R., Ramírez-Suárez J.C., Carvallo-Ruiz M.G., García-Sánchez G., Lugo-Sánchez M.E., Miranda-Baeza A. (2018). Effect of fishmeal replacement with a vegetable protein mixture on the amino acid and fatty acid profiles of diets, biofloc and shrimp cultured in BFT system. Aquaculture, 483: 53–62. Search in Google Scholar

Mulyasari M., Sunarno M., Suryaningrum L. (2018). Isolation, characterization, and identification of proteolytic bacteria to improve protein digestibility of fish feed ingredients. Indones. Aquac. J., 13: 83–93. Search in Google Scholar

Nankervis L., Jones C. (2022). Recent advances and future directions in practical diet formulation and adoption in tropical Palinurid lobster aquaculture. Rev. Aquac., https://doi.org/10.1111/raq.12675. Search in Google Scholar

Perera E., Simon C. (2014). Digestive physiology of spiny lobsters: Implications for formulated diet development. Rev. Aquac., 6: 1–19. Search in Google Scholar

Phillips B., Matsuda H. (2011). A global review of spiny lobster aquaculture. In: Recent advances and new species in aquaculture, Fotedar R., Phillips B.F. (eds). Blackwell Publishing, pp. 22–84. Search in Google Scholar

Rathinam A.M.M., Kandasami D., Kizhakudan J.K., Leslie V.A., Gandhi A.D. (2009). Effect of dietary protein on the growth of spiny lobster Panulirus homarus (Linnaeus). J. Mar. Biol. Assoc. India, 51: 114–117. Search in Google Scholar

Rodriguez-Viera L., Perera E., Martos-Sitcha J.A., Perdomo-Morales R., Casuso A., Montero-Alejo V., Garcia-Galano T., Martinez-Rodriguez G., Mancera J.M. (2016). Molecular, biochemical, and dietary regulation features of alpha-amylase in a carnivorous crustacean, the spiny lobster Panulirus argus. PloS One, 11: 1–27. Search in Google Scholar

Rodríguez-Viera L., Perera E., Montero-Alejo V., Perdomo-Morales R., García-Galano T., Martínez-Rodríguez G., Mancera J. (2017). Carbohydrates digestion and metabolism in the spiny lobster (Panulirus argus): Biochemical indication for limited carbohydrate utilization. PeerJ., 5: 1–21. Search in Google Scholar

Simon C.J., Jeffs A.G. (2013). The effect of dietary carbohydrate on the appetite revival and glucose metabolism of juveniles of the spiny lobster, Jasus edwardsii. Aquaculture, 384–387: 111–118. Search in Google Scholar

Smith D.M., Williams K.C., Irvin S., Barclay M., Tabrett S. (2003). Development of a pelleted feed for juvenile tropical spiny lobster (Panulirus ornatus): response to dietary protein and lipid. Aquacult. Nutr., 9: 231–237. Search in Google Scholar

Smith D.M., Williams K.C., Irvin S.J. (2005). Response of the tropical spiny lobster Panulirus ornatus to protein content of pelleted feed and to a diet of mussel flesh. Aquacult. Nutr., 11: 209–217. Search in Google Scholar

Sudtongkong C., Thongprajukaew K., Saekhow S. (2020). Optimal dietary protein requirement for juvenile sesarmid crab (Episesarma singaporense). Animals, 10: 1–13. Search in Google Scholar

Teshima S. (1998). Nutrition of Penaeus japonicus. Rev. Fish. Sci., 6: 97–111. Search in Google Scholar

Tietz N.W., Fiereck E.A. (1966). A specific method for serum lipase determination. Clin. Chim. Acta, 13: 352–358. Search in Google Scholar

Wang S., Carter C.G., Fitzgibbon Q.P., Codabaccus B.M., Smith G.G. (2021a). Effect of dietary protein on energy metabolism including protein synthesis in the spiny lobster Sagmariasus verreauxi. Sci. Rep., 11: 1–14. Search in Google Scholar

Wang S., Carter C.G., Fitzgibbon Q.P., Smith G.G. (2021b). Respiratory quotient and the stoichiometric approach to investigating metabolic energy substrate use in aquatic ectotherms. Rev. Aquac., 13: 1255–1284. Search in Google Scholar

Wang S., Carter C.G., Fitzgibbon Q.P., Smith G.G. (2021c). The use of stoichiometric bioenergetics to elucidate metabolic energy substrate use and specific dynamic action in cultured juvenile spiny lobsters (Sagmariasus verreauxi) of different nutritional status. Aquaculture, 532: 1–11. Search in Google Scholar

Wang S., Fitzgibbon Q.P., Carter C.G., Smith G.G. (2019). Effect of protein synthesis inhibitor cycloheximide on starvation, fasting and feeding oxygen consumption in juvenile spiny lobster Sagmariasus verreauxi. J. Comp. Physiol. B, Biochem. Syst. Environ. Physiol., 189: 351–365. Search in Google Scholar

Wang S., Zhiqiang J., Mingguang M., Shoukang M., Yang S., Youzhen S. (2018). Effects of seawater pH on survival, growth, energy budget and oxidative stress parameters of juvenile turbot Scophthalmus maximus. Iran. J. Fish. Sci., 17: 675–689. Search in Google Scholar

Ward L.R., Carter C., Crear B.J., Smith D.M. (2003). Optimal dietary protein level for juvenile southern rock lobster, Jasus edwardsii, at two lipid levels. Aquaculture, 217: 483–500. Search in Google Scholar

Xu C., Li E., Liu Y., Wang S., Wang X., Chen K., Qin J.G., Chen L. (2018). Effect of dietary lipid level on growth, lipid metabolism and health status of the Pacific white shrimp Litopenaeus vannamei at two salinities. Aquacult. Nutr., 24: 204–214. Search in Google Scholar

Zhang N.N., Ma Q.Q., Fan W.J., Xing Q., Zhao Y.L., Chen L.Q., Ye J.Y., Zhang M.L., Du Z.Y. (2017). Effects of the dietary protein to energy ratio on growth, feed utilization and body composition in Macrobrachium nipponense. Aquacult. Nutr., 23: 313–321. Search in Google Scholar