Citation:Fernando, G.K.A.W., Jayakody, S., Wijenayake, W.M.H.K., Yatawara, M., Harishchandra, R.D.J., Deniyage, S.L. and Galappaththy, G.N.L. 2012. The feeding patterns and food preferences of Aplocheilus parvus: a potential biological control agent for malaria? Proceedings of the Eighteenth Scientific Sessions of the Sri Lanka Association for Fisheries and Aquatic Resources, May, 2012. Sri Lanka Association for Fisheries and Aquatic Resources, Colombo, Sri Lanka. (Abstract) p.19.
Date:2012
Abstract:
The ultimate aim of Anti Malaria Campaign is to eliminate indigenous
malaria from Sri Lanka. Better environmental and economic benefits could be
achieved by the use of indigenous fish species compared to chemical controlling
methods as they have minimum or no impact on the existing aquatic fauna.
Aplocheilus porvus is a common indigenous species available in both lotic and
lentic systems in wet, intermediate and dry zones and is one of the surface
feeding predators. The feeding pattern and food preference of A. parvus was
determined to test its efficacy as a biological control agent for malaria larvae. A
24 hour sampling for A. porvus wos conducted (n=12 fish every 2 hours) at a
brick pit in Pannala MOH region in Northwestern province positive for potential
malaria larvae (Anopheles jomesii, 0.1l6/dip) between September 2011 January
2012. Gut fullness, total and standard length of fish, total weight and gut weight
and using copepod as an arbitrary unit, total number of food items per 1ml of
dissolved gut was calculated with a Sedgewick Rafter Cell. The time at which
active feeding occurred was established from total food particle amount and
relative gut weight (gut weight/total weighx100). Diet of A. porvus mainly
consisted of adult or larval stages of class Insecta (Coleoptera, Hymenoptera and
other unidentified insect parts and insect larvae) and class Maxillopoda
(Copepoda). Also, gut had a higher fullness in day time (4.3:t0.121) compared to
night (2.4:t0.120) (p<O.OOl). A time sex interaction explained the gut fullness
with males having a peak gut fullness during 1630 hours whilst females had the
peak gut fullness at 1230 hours (p<O.OOl). Copepods were detected mostly
during 0830- 1030 hours (p<O.OOl), whilst insect parts and Coleopterans were
present in all time periods (p<O.OOl). Results confirmed the suitability of A.
porvus as a potential surface feeding biological control agent for malaria larvae.