Abstract:
Species in the genus Utricularia are aquatic carnivorous plants that are known as bladderworts.
They have the potential to trap a wide range of prey, causing the prey die due to anoxia. This
study was conducted to assess the effectiveness of bladderworts as controlling agents of Aedes
aegypti larvae. Utricularia vulgaris and U. reticulata species were collected from natural water
bodies in Dankotuwa and Kandy, respectively. The experiment was set with 10 larvae of Ae.
aegypti (early [i & ii] and late [iii & iv] instars, separately) in 250 mL of water with bladderwort
containing approximately 100 bladders. The experiment was repeated 50 times for both plant
species to achieve a total sample size of 500 mosquito larvae each from early and late instars.
A control test was performed without plant species at each setup. The survival of larvae was
recorded daily until death or adult emergence and only the larvae found whole or partially
inside the bladders were attributed to predation. The cox-regression and Mantel-Cox log-rank
test was used to assess the larval survival probability. The highest predation by both U. vulgaris
(97.8%; n= 489) and U. reticulata (82.8%; n= 414) was observed in early instars. The mortality
due to predation by U. vulgaris was significantly higher (HR=60.71, CI; 5.69–999.25, P<0.05)
than U. reticulata. The mortality rates of late instars were low in both U. vulgaris (82.6%) and
U. reticulata (74.8%). The highest predacious efficacy was detected from U. vulgaris (HR=45.02;
CI: 5.96– 850.51, P<0.05) even in late instar stages. Overall, >70% of cumulative predation was
evident within 72 hours of exposure for early and late instars in both species. Hence, the adults
emerge from the breeding site could be minimal. Therefore, U. vulgaris and U. reticulata can be
used as potential bio-control agents for Ae. aegypti larvae.
