EVALUATION OF THE HAEMOLYMPH OF THE GIANT AFRICAN LAND SNAILS Achatina achatina AND Archachatina marginata FOR BACTERIA STERILITY AND INHIBITORY PROPERTIES

Abstract

An experiment was conducted to examine bacteria sterility and bacteria inhibitory properties of haemolymph of two species of Giant African Land Snails. A total number of 18 A. achatina and A. marginata snails each were used for this experiment. The shell and foot of the snails were washed with distilled water for isolation of bacteria flora and bacteria load. The experiment was a 2 x 2 x 3 factorial arrangement with 3 replicates in a completely randomized design. To isolate bacteria, a sterile inoculating loop was used to pick a portion of each dissimilar colony and transferred into another appropriate fresh sterile medium in a culture plate and streaked in a quadrant streak plate method to obtain pure cultures of the isolates. The method was aimed at trimming down the microbial load to allow for isolates to grow in pure cultures. The plates were incubated at 37 0C for 24 hours, after which the pure isolates were observed and inoculated into McCartney bottles containing nutrient agar slants. The bottles were incubated for 24 hours at 37 0C and stored in the refrigerator for further biochemical analysis. Haemolymph of the two species studied was not sterile irrespective of the type of haemolymph. To test for haemolymph inhibitory properties, Haemolymph was collected from each snail into sterile and labeled containers in the laminar flow chamber. Microorganism was seeded into the agar plate, after the agar has solidified, holes were bored into the agar using a sterilized hole borer. One ml of the haemolymph collected was poured into each well in agar plates and incubated at 37 0C for 24 hours observing for zones inhibition. Equally, there was no evidence of bacteria inhibition by the haemolymph despite the three methods of bacteria inhibition used: agar diffusion method, disk diffusion method and serial diffusion method. It could be concluded from this study that the haemolymph of the two snail species did not exhibit bacteria sterility and inhibition.Â