Abstract:
Background:
Studies on host preference patterns in blood-feeding of anopheline mosquitoes are crucial
for incriminating them as malaria vectors. However, little information is available on the host preferences
of Anopheles mosquitoes in Sri Lanka. Therefore, the objective of the present study was to determine the
hematophagic tendency of the anophelines.
Methods:
Adult Anopheles mosquitoes were collected using Cattle Baited Trap Collection (CBTC), Cattle
Baited Net Collection (CBNC), Window Trap Collection (WTC), and Hand Collection (HC) from selected
sentinel sites in Mannnar (3) and Trincomalee (5) Districts during June 2011- June 2012. Each blood fed
mosquito was processed in to 9 cm whatman filter papers within 24 hours after blood meal has taken. DNA
was extracted using the dried blood meal protocol of the QIAmp DNA mini kit.
A multiplexed, Real Time Polymerase Reaction (RT- PCR) assay targeting 8 animals was developed for
two panels (Panel 1: Bovine, cat, pig, monkey: Panel 2: Human, rat, dog, chicken) to identify the host meal
of Anopheles. Human Blood Index (HBI), Forage Ratio (FR) and Host Feeding Index (HFI) were
calculated.
Results:
A total of 216 field caught freshly engorged females mosquitoes belonging to 12 Anopheles
species was analyzed. The host preference of anophelines observed in this study was bovine (86.17%),
human (1.84%), cat (0.46%) and pig (0.46%). Only 6.91 % was positive for both human and bovine. In
addition 5.0 % of the total samples tested were unknown.
The overall HBI and HFI in the present study were low indicating the humans were not the preferred host
for the tested anopheline species. Nevertheless, a small proportion engorged An. aconitus (0.37), An.
culicifacies (0.27), An. barbirostris (0.2), An. annularis (0.125) and An. subpictus (0.12), An. peditaeniatus
(0.08), An. pseudojamesi (0.04) and An. barbumbrosus (0.04) contained human blood, The FRs for human
were <1.0 for most of the anophelines, except An. aconitus (1.04).
Conclusion: The presence of human blood, in mosquito species indicates the possibility of them
transmitting malaria. Hence, further studies on vector competence are needed to determine the role of each
of the above anopheline species currently as efficient vectors of malaria.
Description:
Poster Presentation Abstract, Annual Research Symposium, FGS, University of Kelaniya, November, 2012, Kelaniya