Red dragon fruit peels (Hylocereus polyrhizus) are an organic waste that has not been widely used with nutrients such as fibre, carotene, calcium phosphorus, vitamin B and vitamin C as antibacterial and antioxidant. This research was conducted to analyze the addition of red dragon fruit peel flour as a prebiotic for tilapia (Oreochromis niloticus). Fingerling of tilapia with an average size of 17.76 ± 1.35 g were reared for 30 days in an aquarium with a volume of 30 L. The fish were fed three times a day at satiation with treated feed, namely P0 0%; P1 5%; P2 10%; and P3 15% dragon peel flour kg-1 of feed. Each treatment was repeated three times. Parameters observed included the number of lactic acid bacteria in the gut of fish, growth performance, survival rate and haematological parameters. The results showed that the highest number of lactic acid bacteria at P3 was 5.38 log CFU mL-1, the absolute weight growth was 12.60 g, and the specific growth rate was 1.87% day-1. Supplementation of red dragon fruit peel flour did not affect the survival rate of tilapia, which ranged from 73.33- 80.00% and the haematological parameters showed a normal range. Based on this, red dragon fruit peel flour has the potential as a prebiotic in tilapia up to a dose of 15% kg-1 of feed.

Keywords: Dragon Fruit Peels Flour; Growth Performance; Hematological Parameters; Prebiotics; Tilapia

Abatenh, E., Gizaw, B., Tsegay, Z., Tefera, G., and Aynalem, E. 2018. Health benefits of probiotics. J. Bacteriol. Infec. Dis., 2 (1): 8-27.

Anderson, D.P., and Siwicki, A.K. 1995. Basic haematology and serology for fish health programs. In: Diseases in Asian Aquaculture II. Edit. Shariff, M., J.R. Arthur, R.P. Subangsinghe. Fish Health Section Asian Fisheries Society, 182-202.

Andriyan, M.F., Rahmaningsih, S., dan Firmani, U. 2018. Pengaruh salinitas terhadap tingkat kelangsungan hidup dan profil darah ikan nila (Oreochromis niloticus) yang diberi kombinasi pakan dan buah mengkudu (Morinda citriffolia L.). Jurnal Perikanan Pantura, 1(1): 1.

Aprilia, T., dan Rakhmawati. 2021. Quality improvement of feed chemical composition with the addition of dragon fruit skin flour (Hylocereus polyrhizus). e-Jurnal Rekayasa dan Teknologi Budidaya Perairan, 9(2): 1101-1108.

Bastiawan, D., Wahid, D., Alifudin, M., dan Agustiawan, I. 2001. Gambaran darah lele dumbo (Clarias sp.) yang diinfeksi cendawan Aphanomyces sp. pada pH yang berbeda. Jurnal Penelitian Indonesia, 7(3): 44-47.

Blaxhall, P.C., and Daisley, K.W. 1973. Routine haematological methods for use with fish blood. Fish Biology, 5: 577-581.

BPOM SNI 2897:2008. 2016. Metode Pengujian Cemaran Mikroba dalam Daging, Telur, dan Susu, serta Hasil Olahannya. Badan Standarisasi Nasional. Diakses dari: http://standarpangan.pom.go.id/dokumen/peraturan/2016/PerKa_BPOM_No_16_Tahun_2016_tentang_Kriteria_Mikrobiologi_dalam_Pangan_Olahan.pdf

Bulfon. C., Volpatti, D., and Galeotti, M. 2013. Current research on the use of plantderived products in farmed fish [review]. Aquaculture Research, 46: 1-39.

Chaiyasut, C., Pattananadecha, T., Sirilun, S., Suwannalert, P., Peerja, S., and Sivamaruthi, B.S. 2017. Synbiotic preparation with lactic acid bacteria and inulin as a functional food: in vivo evaluation of microbial activities and preneoplastic abberant crypt foci. J. Food Sci. Technol., 37(2): 328-336.

Davani-Davari D., Negahdaripour, M, Karimzadeh, I., Seifan, M., Mohkam, M., Masoumi. S.J., Berenjian, A., and Ghasemi. Y. 2019. Prebiotics: definition, types, sources, mechanisms, and clinical applications. Foods, 8(3): 1-27.

De Silva, S.S., and Anderson, T.A. 1995. Fish Nutrition in Aquaculture. Springer Science & Business Media, 320 p.

Díaz-Vela, J., Totosaus, A., and Pérez-Chabela, M.L. 2015. Integration of agroindustrial co-products as functional food ingredients: cactus Pear (Opuntia ficus indica) flour and pineapple (Ananas comosus) peel flour as fiber source in cooked sausages inoculated with lactic acid bacteria. J. Food Process. Preserv., 39: 2630-2638.

Effendie, M.I. 2002. Biologi Perikanan. Yayasan Pustaka Nusantara, Yogyakarta, 112 hlm.

Efianda, T.R., Wahjungrim, D., Tarman, K., Yuhana, M., Effendi, I., and Saputra, F. 2018. Effects of feed supplementation of Nodulisporium sp. KT29 induced by Vibrio harveyi cells on production performance of pacific white shrimp Litopenaeus vannamei cultured under marine culture system. Pakistan Journal of Biotechnology, 15(1): 59-65.

Efianda, T.R., Yusnita, Najmi, N., Ananda, K.R., dan Saputra, F. 2020. Pengaruh kulit buah naga (Hylocereus polyhizus) dalam pakan terhadap kinerja produksi ikan koi (Cyprinus carpio). Jurnal Perikanan Tropis, 7(2): 107-113.

Gibson, G.R., Hutkins, R., Sanders, M.E., Prescott, S.L., Reimer, R.A., Salminen, S.J., Scott, K., Stanton, C., Swanson, K.S., Cani, P.D., K. Verbeke, K., and Reid, G. 2017. Expert consensus document: The International Scientific Association for Probiotics and Prebiotics (ISAPP) consensus statement on the definition and scope of prebiotics. Nat. Rev. Gastroenterol. Hepatol., 14: 491-502.

Hardi, E.H., Sukenda, Harris, E., dan Lusiastuti, A.M. 2011. Karakteristik dan Patogenitas Streptococcus agalactiae Tipe β-hemolotik dan Non-Hemolitik pada Ikan Nila. Jurnal Veteriner, 12(2): 152-164.

Hartika, R., Mustahal, dan Achmad, N.P. 2014. Gambaran darah ikan nila (Oreochromis niloticus) dengan penambahan dosis prebiotik yang berbeda dalam pakan. Jurnal Perikanan dan Kelautan, 4(4): 259-267.

Islama, D., Najmi, N., Nurhatijah, N., dan Maisara, Y. 2019. Evaluation of growth of patin seed that given Tubifex sp. as additional feed. Jurnal Perikanan Tropis, 6(2): 77-87.

Kalidupa, N., Kurnia, A., dan Nur, I. 2018. Studi pemanfaatan tepung kulit buah naga merah (Hylocereus polyrhizus) dalam pakan terhadap pewarnaan ikan mas koi (Cyprinus carpio L.). Media Akuatika, 3(1): 590-597.

Kementerian Kelautan dan Perikanan. 2022. Produksi Perikanan. Diakses dari: https://statistik.kkp.go.id/home.php?m=prod_ikan_prov&i=2#panel-footer-kpda

Khalili, R.M.A., Abdullah, A.B.C., and Manaf, A.A. 2014. Isolation and characterization of oligosaccharides composition in organically grown red pitaya, white pitaya and papaya. International Journal of Pharmacy and Pharmaceutical Sciences, 6(2): 131-136.

Lesmanawati, W., Widanarni, Sukenda, dan Purbiantoro, W. 2013. Potensi ekstrak oligosakarida ubi jalar sebagai prebiotik bakteri probiotik akuakultur. Jurnal Sains Terapan, 3(1): 21-25.

Liniawati, V. 2011. Pemberian ekstrak buah naga merah menurunkan kadar f2 isoprosta pada tikus putih jantan yang diberi aktivitas berlebih. Jurnal Kedokteran UNUD, 8(17): 45-55.

Mahious, A.S., Gatesoupe, F.J., Hervi, M., Metailler, R., and Ollevier, F. 2006. Effect of dietary inulin and oligosaccharides as prebiotics for weaning turbot, Psetta maxima (Linnaeus, C. 1758). Aquac Int., 14: 219-229.

Manigandan, T., Mangaiyarkarasi, S.P., Hemalatha, R., Hemalatha, V.T., and Murali, N.P. 2012. Probiotics, prebiotics and synbiotics - A Review. Biomed Pharmacol J., 5(2): 295-304.

Midhun, S.J., Neethu, S., Vysakh, A., Sunil, M.A., Radhakrishnan, E.K., and Jyothis, M. 2017. Antibacterial activity of autochthonous bacteria isolated from Anabas testudineus (Bloch, 1792) and it’s in vitro probiotic characterization. Microbial Pathogenesis, 113: 312-320.

Morais, D.C.M., Alves, V.M., Asquieri, E.R., Régia, A., Souza, M., and Damiani, C. 2021. Physical, chemical, nutritional and antinutritional characterization of fresh peels of yellow pitaya (Selenicereus megalanthus) and red pitaya (Hylocereus costaricensis) and their flours. Revista Ciência Agronômica, 52(3): 1-10.

Moyle, P.B., and Cech, Jr.J.J. 2004. Fishes. An Introduction to Ichthyology. 5th ed. Prentice Hall Inc., USA.

Narges, S., Hoseinifar, S.H., Merrifield, D.L., and Barati, M., 2012. Dietary supplementation of fructooligosaccharide (FOS) improves the innate immune response, stess resistence, digestive enzyme activitis and growth performance of Caspian roach (Rutilus rutilus) fry. Fish and Shellfish Immunology, 32: 316-321.

Pansai, N., Chakree, K., Yupanqui, C.T., Raungrut, P., Yanyiam, N., and Wichienchot, S. 2019. Gut microbiota modulation and immune boosting properties of prebiotic dragon fruit oligosaccharides. International Journal of Food Science and Technology, 1-10.

Peerakietkhajorn, S., Jeanmard, N., Chuenpanitkit, P., Sakena, K.D.A., Bannob, and K., Khuituan, P. 2020. Effects of plant oligosaccharides derived from dragon fruit on gut microbiota in proximal and distal colon of mice. Sains Malays, 49: 603-611.

Rakhmawati, Aprilia, T., and Kurniawan, A. 2021. Enhancement the growth of snakehead (Channa striata) with addition of dragon fruit peel flour to the diet. Sriwijaya Journal of Environment, 6(2): 53-58.

Robert, R.J. 2012. Fish Pathology. Wiley-Blackwell, Iowa.

Saputra, F., Wahjuningrum, D., Tarman, K., dan Effendi, I. 2016. Pemanfaatan metabolit jamur laut Nodulisporium sp. KT29 untuk meningkatkan kinerja produksi budidaya udang di laut. Jurnal Ilmu dan Teknologi Kelautan Tropis, 8(2): 747-755.

Tóth, E.M., Borsodi, A.K., Felföldi, T. Vajna, B. Sipos, R., and Márialigeti, K. 2013. Practical Microbiology: Based on the Hungarian practical notes entitled “Mikrobiológiai Laboratóriumi Gyakorlatok.” Eötvös Loránd University, Hungary.

Wedemeyer, G.A., and Yasutake, W.T. 1977. Clinical Methods for the Assessment of the Effect of Environmental Stress on Fish Health. United States Department of the Interior Fish and Wildlife Service, Washington.

Wu, L.C., Hsu, H.W., Chen, Y.C., Chiu, C.C., Lin, Y.I., and Annie, H.J. 2006. Antioxidant and antiproliferative activities of red pitaya. Food Chemistry, 95: 319-327.

Zuhrawati, N.A. 2014. Pengaruh peningkatan suhu terhadap kadar hemoglobin dan nilai hematokrit ikan nila (Oreochromis niloticus). Jurnal Medika Veterinaria, 8(1): 84-86.