In Vitro Evaluation of Brown Algae Extract from Sargassum aquifolium in Inhibiting Aeromonas hydrophila, the Causative Agent of Motile Aeromonas Septicemia (MAS)

Aeromonas hydrophila Bacteriostatic Clarias sp. Motil Aeromonas Septicemia Sargassum aquifolium

Authors

  • Ernawati Waruwu Universitas Dhyana Pura, Jalan Raya Padangluwih, North Kuta, Badung Regency (80361), Bali Province, Indonesia
  • Anak Agung Ayu Putri Permatasari Universitas Dhyana Pura, Jalan Raya Padangluwih, North Kuta, Badung Regency (80361), Bali Province, Indonesia
  • Putu Angga Wiradana
    angga.wiradana@undhirabali.ac.id
    Universitas Dhyana Pura, Jalan Raya Padangluwih, Dalung, North Kuta, Badung Regency, Bali Province, Indonesia
  • I Made Wisnu Adhi Putra Universitas Dhyana Pura, Jalan Raya Padangluwih, North Kuta, Badung Regency (80361), Bali Province, Indonesia
  • Putu Eka Sudaryatma Center for Quality Control and Supervision of Marine and Fishery Products (BPPMHKP), Ministry of Marine Affairs and Fisheries Republic of Indonesia (KKP), Jl. Sunset Road No.77, Kuta, Badung Regency (80361), Bali Province
  • Muhammad Khaliim Jati Kusala National Research and Innovation Agency (BRIN), Jl. Raya Jakarta - Bogor KM 46, Cibinong, West Java (16911), Indonesia
October 30, 2024

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The widespread use of antibiotics in aquaculture has been associated with the development of multidrug resistance in the environment and in humans. This is also exacerbated by the application of high stocking densities in fish farming systems, including catfish (Clarias sp). This study aims to see the potential of Sargassum aquifolium extract, which is a brown macroalgae, as an antibacterial agent for fish disease, Aeromonas hydrophila. Previous studies have revealed the phytochemical profile of S. aquifolium extract, but its effectiveness as an antibacterial agent has not been studied. The ethanol extract concentrations used were 20%, 40%, 60%, 80%, and 100% with two repetitions. The MIC test method was carried out to determine the lowest concentration of S. aquifolium ethanol extract that could inhibit the growth of Aeromonas hydrophila bacteria, while the MBC test was carried out to determine the bactericidal properties against A. hydrophila bacteria. SEM analysis was carried out to determine the morphological damage to A. hydrophila bacterial cells that had been treated with S. aquifolium ethanol extract. Based on the results, it was revealed that S. aquifolium extract could inhibit the growth of A. hydrophila highest with a very strong category at a concentration of 100%. The MIC value of S. auifolium extract was shown at a concentration of 100% but did not cause bacterial cell death based on the MBC value and SEM observations. These findings indicate that S. aquifolium extract has the potential to inhibit the growth of A. hydrophila. Increasing in vivo parameters such as the immune system, production performance, and survival in catfish is still needed to strengthen these results.