Predatory efficacy of five locally available copepods on Aedes larvae under laboratory settings: An approach towards bio-control of dengue in Sri Lanka.

Lahiru Udayanga,Tharaka Ranathunge,W Abeyewickreme,M C M Iqbal,Menaka Hapugoda,Jiang-Shiou Hwang

doi:10.1371/journal.pone.0216140

Abstract

Many countries are in search of more effective and sustainable methods for controlling dengue vectors, due to undeniable inefficiencies in chemical and mechanical vector control methods. Bio-control of vectors by copepods is an ideal method of using interactions in the natural ecosystem for vector management, with minimum consequences on the environment. Current study determined the predatory efficacy of five locally abundant copepod species on, Aedes larvae under laboratory conditions. Copepods were collected from the pre-identified locations within the districts of Gampaha and Kandy, and identified morphologically. Individual species of copepods were maintained as separate colonies with Paramecium culture and wheat grain as supplementary food. Five adult copepods of each species was introduced into separate containers with 200 larvae (1st instar) of Aedes aegypti. Number of larvae survived in containers were enumerated at 3 hour intervals within a duration of 24 hours. Each experiment was repeated five times. The same procedure was followed for Ae. albopictus. Significance in the variations among predation rates was evaluated with General Linear Modelling (GLM) followed by Tukey’s pair-wise comparison in SPSS (version 23). Significant variations in predation rates of studied copepod species were reported (p<0.05), whereby M. leuckarti indicated the highest followed by M. scrassus, while C. languides indicated the lowest predatory efficacy. The effect of different Aedes larval species on the predation rates of copepods remained significant (p<0.05), even though the effect on predatory efficiency was not significant. Based on the findings, both M. leuckarti and M. scrassus, with the highest predatory efficiencies, could be recommended as potential candidates for biological controlling of Aedes vectors in Sri Lanka.

Highlights

Aedes aegypti and Ae. albopictus mosquitoes, responsible for the transmission of dengue, are two of the most efficient transmitting agents of vector borne diseases [1]
The highest predation rate was observed at the dusk, suggesting that the copepods are remain mostly active at dusk
Predation rates of the five studied copepods varied significantly along with the predatory efficacies, while M. leuckarti had the highest predation of Ae. aegypti (34.9±1.80) and Ae. albopictus (33.5±1.06) within 24 hours along with predatory efficiencies of 17.45 and 16.75 for Ae. aegypti and Ae. albopictus, respectively

Summary

Introduction

Aedes aegypti and Ae. albopictus mosquitoes, responsible for the transmission of dengue, are two of the most efficient transmitting agents of vector borne diseases [1]. Nearly 2.5 billion people living in more than 128 countries, are at risk from the incidence of dengue, which has accounted for approximately 390 million infections every year [2]. As declared by the World Health Organization, the Western Pacific and South-East Asia Regions remain as a hot spot for dengue, accounting for approximately 75% of the recent global disease burden of dengue [3]. Similar to many developing countries, Sri Lanka is engaged in a fight against dengue to ensure the healthy status of the population

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Discussion

Conclusion