A sixty-days feeding trial was conducted to evaluate the inclusion effect of spirulina Arthrospira platensis meal (SM) in the diet on growth and health condition of juvenile Pacific white shrimp Litopenaeus vannamei. Four isonitrogenous and iso-lipidic experimental diets were formulated to contain 0%, 0,2%, 0,4% and 0,8% SM. After 60 days, shrimp were sampled and total haemocyte counts was measured. The growth performances of shrimp were significantly affected by the dietary inclusion of SM, whereas the inclusion of SM provides a better biomass, final body weight (FBW), weight gain (WG) and feed conversion ratio (FCR) compared to the control group. Additionally, the inclusion of SM significantly enhances the total haemocytes count (THC) and lysozyme activity in shrimp compared to control group. Therefore, SM can be considered as the functional ingredients in shrimp diet to improve the growth and health condition of shrimp.

Bulbul, M., Kader, M.A., Ambak, M.A., Hossain, M.S., Ishikawa, M., & Koshio, S., (2015). Effects of crystalline amino acids, phytase and fish soluble supplements in improving nutritive values of high plant protein based diets for kuruma shrimp, Marsupenaeus japonicus. Aquaculture, 438, 98-104.

Cerenius, L., & Söderhäll, K., (2004). The prophenoloxidase‐activating system in invertebrates. Immunological reviews, 198, 116-126.

Chen, Y.Y., Chen, J.C., Tayag, C.M., Li, H.F., Putra, D.F., Kuo, Y.H., Bai, J.C., & Chang, Y.H. (2016). Spirulina elicits the activation of innate immunity and increases resistance against Vibrio alginolyticus in shrimp. Fish & shellfish immunology, 55, 690-698.

Coutteau, P. (2016). Functional feed additives to prevent disease in farmed shrimp. Aquafeed, 7, 24-27.

Encarnação, P. (2016). Functional feed additives in aquaculture feeds, Aquafeed formulation. Elsevier, pp. 217-237.

Hanel, R., Broekman, D., De Graaf, S., & Schnack, D. (2007). Partial replacement of fishmeal by lyophylized powder of the microalgae Spirulina platensis in Pacific white shrimp diets. The Open Marine Biology Journal, 1, 1-5

Macias-Sancho, J., Poersch, L.H., Bauer, W., Romano, L.A., Wasielesky, W., & Tesser, M.B. (2014). Fishmeal substitution with Arthrospira (Spirulina platensis) in a practical diet for Litopenaeus vannamei: effects on growth and immunological parameters. Aquaculture, 426, 120-125.

Nandeesha, M. C., Gangadhara, B., Manissery, J. K., & Venkataraman, L. V. (2001). Growth performance of two Indian major carps, catla (Catla catla) and rohu (Labeo rohita) fed diets containing different levels of Spirulina platensis. Bioresource Technology, 80(2), 117-120.

Nandeesha, M. C., Gangadhar, B., Varghese, T. J., & Keshavanath, P. (1998). Effect of feeding Spirulina platensis on the growth, proximate composition and organoleptic quality of common carp, Cyprinus carpio L. Aquaculture Research, 29(5), 305-312.

Novriadi, R., Herawati, V.E., Prayitno, S.B., Windarto, S., Mertz, K., & Nguyen Duy, H. (2022a). Effect of fermented corn protein concentrate on growth performance, haemocyte counts, histological structure of hepatopancreas and intestinal condition of pacific white shrimp Litopenaeus vannamei. Aquaculture, Fish and Fisheries, 2, 82-93.

Novriadi, R., Roigé, O., & Segarra, S. (2022b). Effects of dietary nucleotide supplementation on performance, profitability, and disease resistance of Litopenaeus vannamei cultured in Indonesia under intensive outdoor pond conditions. Animals, 12, 2036.

Novriadi, R., Rukmono, D., Shapira, B., & Farzeli, A. (2022c). Functional effects of natural silicate, yeast and saponins based product on the growth and health status of the Pacific white shrimp Litopenaeus vannamei. Jurnal Akuakultur Indonesia, 21, 41-51.

Nunes, A.J., Sá, M.V., Andriola-Neto, F.F., & Lemos, D. (2006). Behavioral response to selected feed attractants and stimulants in Pacific white shrimp, Litopenaeus vannamei. Aquaculture, 260, 244-254.

Nunes, A.J., Sá, M.V., Browdy, C.L., & Vazquez-Anon, M. (2014). Practical supplementation of shrimp and fish feeds with crystalline amino acids. Aquaculture, 431, 20-27.

Ochoa-Solano, J.L., & Olmos-Soto, J. (2006). The functional property of Bacillus for shrimp feeds. Food microbiology, 23, 519-525.

Olmos, J., Ochoa, L., Paniagua-Michel, J., & Contreras, R. (2011). Functional feed assessment on Litopenaeus vannamei using 100% fish meal replacement by soybean meal, high levels of complex carbohydrates and Bacillus probiotic strains. Marine Drugs, 9, 1119-1132.

Omont, A., Elizondo-González, R., Escobedo-Fregoso, C., Tovar-Ramírez, D., Hinojosa-Baltazar, P., & Peña-Rodríguez, A. (2021). Bacterial communities and digestive enzymatic activities of Litopenaeus vannamei shrimp fed pre-digested seaweeds as a functional ingredient. Journal of Applied Phycology, 33, 1239-1251.

Orozco Hernández, J.R., Olmedo Sánchez, J.A., & Curiel Flores, A. (2009). The effect of a herbal grow promoter feed additive on shrimp performance. Research Journal of Biological Sciences, 4 (9), 1022-1024

Paoletti, C., Vincenzini, M., Bocci, F., & Materassi, R. (1980). Composizione bioquímica generale delle biomasse di Spirulina platensis e S. maxima. Prospettive Della coltura di Spirulina in Italia. Materassi, R (Ed.). Italia.

Ragaza, J.A., Hossain, M.S., Meiler, K.A., Velasquez, S.F., & Kumar, V. (2020). A review on Spirulina: alternative media for cultivation and nutritive value as an aquafeed. Reviews in Aquaculture, 12, 2371-2395.

Rahman, M., Escobedo-Bonilla, C.M., Wille, M., Sanz, V.A., Audoorn, L., Neyts, J., Pensaert, M., Sorgeloos, P., & Nauwynck, H., 2006. Clinical effect of cidofovir and a diet supplemented with Spirulina platensis in white spot syndrome virus (WSSV) infected specific pathogen-free Litopenaeus vannamei juveniles. Aquaculture, 255, 600-605.

Rahman, M.M. (2007). Differences in virulence between white spot syndrome virus (WSSV) isolates and testing of some control strategies in WSSV infected shrimp. Ghent University.

Rosas, V.T., Poersch, L.H., Romano, L.A., & Tesser, M.B. (2019). Feasibility of the use of Spirulina in aquaculture diets. Reviews in Aquaculture, 11, 1367-1378.

Roy, S., Bossier, P., Norouzitallab, P., & Vanrompay, D. (2020). Trained immunity and perspectives for shrimp aquaculture. Reviews in Aquaculture, 12, 2351-2370.

Sharawy, Z.Z., Ashour, M., Labena, A., Alsaqufi, A.S., Mansour, A.T., & Abbas, E.M. (2022). Effects of dietary Arthrospira platensis nanoparticles on growth performance, feed utilization, and growth-related gene expression of Pacific white shrimp, Litopenaeus vannamei. Aquaculture, 551, 737905.

Shin, J., & Lee, K.J. (2021). Digestibility of insect meals for Pacific white shrimp (Litopenaeus vannamei) and their performance for growth, feed utilization and immune responses. PloS one, 16, e0260305.

Silva‐Neto, J.F., Nunes, A.J.P., Sabry‐Neto, H., & Sá, M.V.C. (2012). Spirulina meal has acted as a strong feeding attractant for Litopenaeus vannamei at a very low dietary inclusion level. Aquaculture Research, 43, 430-437.

Tayag, C.M., Lin, Y.-C., Li, C.-C., Liou, C.H., & Chen, J.C. (2010). Administration of the hot-water extract of Spirulina platensis enhanced the immune response of white shrimp Litopenaeus vannamei and its resistance against Vibrio alginolyticus. Fish & Shellfish Immunology, 28, 764-773.

Yao, W., Zhang, C., Li, X., He, M., Wang, J., & Leng, X. (2020). The replacement of fish meal with fermented soya bean meal or soya bean meal in the diet of Pacific white shrimp (Litopenaeus vannamei). Aquaculture Research, 51, 2400-2409.

Zidan, S.A., Eid, A., Ali, M.A., & Sharawy, Z.Z. (2021). Effect of using different levels of Spirulina platensis on growth performance of marine shrimp Litopenaeus vannamei. Egyptian Journal of Nutrition and Feeds, 24, 431-437.