Assessment of Aquatic Aeromonas spp. Isolates' Susceptibility to Cinnamaldehyde, Vanillin, and Crude Kigelia africana Fruit Extracts

Aeromonas spp. are primary and opportunistic fish pathogens that are responsible for severe economic losses in aquaculture, and are exacerbated by their increasing incidence of antimicrobial resistance. Phytochemicals are being explored as alternatives to conventional antimicrobial agents since they have destressing, growth‐promoting, immune‐stimulating, and antimicrobial properties. The susceptibility of 93 aquatic Aeromonas spp. and six Plesiomonas shigelloides isolates (from cultured catfish, koi carp, tilapia, and seawater) to three phytochemicals, viz.: cinnamaldehyde (10–1250 µg/ mL ), vanillin (5–250 µg/ mL ), and crude Kigelia africana fruit extracts (4–10 mg/ mL ethyl acetate, dichloromethane, methanol, and hexane) were assessed using the disk diffusion assay and compared to ampicillin and tetracycline, using activity indices. No zones of inhibition were obtained with 10 µg/ mL of cinnamaldehyde, or with 5–250 µg/ mL of vanillin. However, varying degrees of inhibition were observed with higher concentrations of cinnamaldehyde, as well as with the K. africana methanol extract. Cinnamaldehyde (≥500 µg/ mL ) and the K. africana methanol extract displayed better antimicrobial activity against study isolates in comparison to vanillin and ampicillin. They appear to be promising and sustainable phytochemicals that might be useful as alternatives to the antimicrobial agents currently in use in aquaculture.