Impact of vinegar-supplemented diets on the survival and growth performance of juvenile giant freshwater prawn (Macrobrachium rosenbergii) in a 30-day culture period

Paper Details

Research Paper 03/01/2025
Views (813)
current_issue_feature_image
publication_file

Impact of vinegar-supplemented diets on the survival and growth performance of juvenile giant freshwater prawn (Macrobrachium rosenbergii) in a 30-day culture period

Jomari A. Orillosa
J. Biodiv. & Environ. Sci. 26(1), 35-39, January 2025.
Copyright Statement: Copyright 2025; The Author(s).
License: CC BY-NC 4.0

Abstract

The giant freshwater prawn (Macrobrachium rosenbergii) is extensively cultivated in the Philippines and other countries due to its high market value, contribution to rural livelihoods, and potential role in ensuring food security. This study examined the tolerability and growth performance of juvenile giant freshwater prawns fed diets supplemented with different types of vinegar. A 30-day experiment was conducted with three dietary treatments: T0 (control diet), T1 (2% coconut sap vinegar [CSV]), and T2 (2% apple cider vinegar [ACV]), each replicated three times. Key parameters, including weight gain (WG), length gain (LG), specific growth rate (SGR), and survival rate, were analyzed statistically using Analysis of Variance (ANOVA) at a significance level of p = 0.05. The results revealed that prawns fed with CSV-enhanced diets exhibited the highest WG (8.33 g), LG (4.37 cm), and SGR (27.77% day⁻¹), significantly outperforming the control group (p < 0.05). Additionally, a 100% survival rate was observed across all treatment groups, demonstrating the prawns’ tolerability to vinegar-supplemented diets. These findings suggest that incorporating coconut sap vinegar into commercial prawn feeds can enhance growth performance while maintaining high survival rates, offering a sustainable strategy for improving aquaculture productivity.

Baruah K, Sahu NP, Jain KK, Mukherjee SC, Debnath D. 2005. Dietary Protein Level, Microbial Phytase, Citric Acid and Their Interactions on Bone Mineralization of Labeo rohita (Hamilton) juveniles. Aquac Res 36(8), 803-812.

dela Calzada RJ, Tumbokon BL, Serrano Jr. A. 2020. Effects of Vinegars on the Growth Performance of Black Tiger Post Larvae Shrimp, Penaeus monodon. The Israeli journal of aquaculture = Bamidgeh. IJA_71. 1114683. 10.46989/001c.18993.

Hoseinifar S, Sun Y-Z, Caipang CM. 2017. Short-chain Fatty Acids as Feed Supplements for Sustainable Aquaculture: An updated view. Aquac Res 48(4), 1380-1391.

Jamis J, Tumbokon BL, Caigoy JC, Bunda ME, Serrano Jr. A. 2018. Effects of Vinegars and Sodium Acetate on the Growth Performance of Pacific White Shrimp, Litopenaeus vannamei. Isr J Aquacult-Bamid 70, 1506.

Lin YH, Cheng MY. 2017. Effects of Dietary Organic Acid Supplementation on the Growth, Nutrient Digestibility and Intestinal Histology of the Giant Grouper Epinephelus lanceolatus Fed a Diet with Soybean Meal. Aquaculture 469, 106-111.

New MB, Nair CB. 2012. Global scale of freshwater farming. Aquaculture Research 43, 960-969.

Ng WK, Koh CB. 2017. The Utilization and Mode of Action of Organic Acids in the Feeds of Cultured Aquatic Animals. Rev Aquacult 9(4), 342-368.

Ozturk I, Caliskan O, Tornuk F, Ozcan N, Yalcin H, Balsar S, Sagdic O. 2015. Antioxidant, antimicrobial, mineral, volatile, physicochemical and microbiological characteristics of traditional home-made Turkish vinegars, LWT – Food Science and Technology. http://dx.doi.org/10.1016/j.lwt.2015.03.003

Rosario WR, Tayamen MM. 2004. Culture of giant freshwater prawn: Philippines. Southeast Asian Fisheries Development Center/Aquaculture Department (SEAFDEC/AQD) Institutional Repository (SAIR).

Yan G, Beijin J. 2019. Giant River Prawns: A Fresh Approach for Global Shrimp Farming. The Fish Site.

Related Articles

In vitro assessment of Bambara groundnut M3 mutant genotypes for resistance to Macrophomina phaseolina (Tassi) Goid. in the seedling stage in Burkina Faso

Brahime Tingueri*, Souleymane Ouattara, Adjima Ouoba, Romain W. Soalla, Mahamadi Hamed Ouedraogo, J. Biodiv. & Environ. Sci. 28(6), 141-149, June 2026.

Impact of Beauveria bassiana and Metarhizium anisopliae on biochemical and antioxidant enzymes in Rhynchophorus ferrugineus (Olivier) infesting oil palm

M. Malarvizhi, N. Santhana Bharathi, K. Sujatha*, A. Vijaya Anand, R. Manikandan, J. P. Antony Prabhu, J. Biodiv. & Environ. Sci. 28(6), 129-140, June 2026.

Typhoon risk perception and preparedness after Sendong in Bayug Island

Dinah Millendez*, Lex Rei Brendon Hilario, Jay Rey Alovera, Elizabeth Edan Albiento, Melgie Alas, Peter Suson, J. Biodiv. & Environ. Sci. 28(6), 120-128, June 2026.

Floristic composition and woody species diversity in Campo-Ma’an National Park, South Cameroon

Achey Nkenfack Djike Baudelair*, Temgoua Lucie Félicité, Kuete Fogang Marcien, Nfondem Poumie Mohamed Mounir, Atoupka Abdel Malik, Djeuni Duplex Romuald, Kontchiachou Nkana Didier, J. Biodiv. & Environ. Sci. 28(6), 103-119, June 2026.

Comparative effects of bio-inoculant on nutrient dynamics of biodegradable waste

Anjelle-J G. Debosura*, Carlo Stephen O. Moneva, Corazon V. Ligaray, Elizabeth Edan M. Albiento, MA. Cecilia V. Almeda, Melgie A. Alas, Frandel Louis S. Dagoc, Peter D. Suson, J. Biodiv. & Environ. Sci. 28(6), 97-102, June 2026.

Impact of deforestation on the aquatic macroinvertebrate community and the ecological quality of Mé River (South-East, Côte d’Ivoire)

Gnago Dohou Affri*, Tapé Logboh David, Edia Oi Edia, J. Biodiv. & Environ. Sci. 28(6), 80-96, June 2026.

Vulnerability and regeneration potential of Bambusa vulgaris in Ebolowa, South Cameroon

Rodine Tchiofo Lontsi*, Duchesse Elvira Kepmou, Emilienne Laure Ngahane, Jacques Christophe Awoa Essam, Isaac Blaise Djoko, J. Biodiv. & Environ. Sci. 28(6), 68-79, June 2026.

Temporal availability of floral resources for the honey bee (Apis mellifera) in a forest ecosystem in the sudanian zone of Côte d’Ivoire: The case of Badenou classified forest

Dofoungo Koné*, Comlan Mawussi Koudegnan, Siendou Coulibaly, Fofana Séguéna, Bruno Marcel Iritié, Wandan Eboua Narcisse, J. Biodiv. & Environ. Sci. 28(6), 56-67, June 2026.