Genetic characterization and molecular phylogeny of Aedes albopictus (Skuse) species from Sonitpur district of Assam, India based on COI and ITS1 genes.

BACKGROUND & OBJECTIVES: Aedes albopictus (Skuse) is one of the major vectors of dengue which is an emerging threat in Northeast part of India. The morphological characterisation of mosquitoes is time consuming and lacks accuracy for distinguishing closely related species. Hence, molecular methods of mosquito identification, genetic diversity and molecular phylogeny have gained increased importance. This study was aimed to identify and characterize the most abundant species of Aedes vectors collected from different breeding spots in Assam, Northeast India employing molecular as well as bioinformatics tools. METHODS: Ae. albopictus species was genetically characterized with internal transcribed spacer1 (ITS1) and cytochrome c oxidase subunit I (COI) genes and sequence analysis was carried out following molecular methods like PCR amplification, DNA sequencing and multiple sequence analysis. Maximum likelihood molecular phylogeny was reconstructed to define the evolutionary relationship among studied isolates and isolates from other parts of Southeast Asia. RESULTS: Molecular study revealed that all five subject specimens belonged to Ae. albopictus species as per both ITS1 and COI genes. Maximum likelihood tree based on ITS1 and COI genes showed that isolates were distinctly grouped into separate clusters. Almost similar pattern of amino acid frequencies in COI gene was found amongst the five studied isolates. However, amino acid frequency in ITS1 gene was found to be dissimilar, indicating polymorphisms in this gene, among the isolates. INTERPRETATION & CONCLUSION: This is the first report among the Northeastern states of India describing the genetic make-up of Ae. albopictus species by virtue of highly conserved mitochondrial (mt) DNA and ribosomal (r) DNA gene sequences. This study also illustrates that the sequence diversity of these two genes in this mosquito species differs geographically which differentiate a population and brings unique identity.

Spatiotemporal distribution of dengue vectors & identification of high risk zones in district Sonitpur, Assam, India.

BACKGROUND & OBJECTIVES: Dengue is an arboviral disease of public health importance in many parts of India and recently many cases have been reported from northeastern India. Aedes mosquitoes, which are the vectors of dengue, are widely prevalent in the region. A study was initiated in Sonitpur district of Assam to understand the spatiotemporal distribution and seasonal prevalence of dengue vectors and to identify the high risk zones. METHODS: Ovitrap surveys were conducted in three randomly selected villages under each of the eight public health centres (PHC) in district Sonitpur of Assam, northeastern India during March 2011-February 2012. Three risk zones (high, medium and low) were identified on the basis of per trap density of Aedes mosquitoes. Meteorological data were collected to study the temporal distribution of dengue vectors. RESULTS: Aedes albopictus (99.3%) was the predominant dengue vector followed by Ae. aegypti (0.7%) recorded in the ovitraps. The highest vector density was observed during the post-monsoon (60.1±18 per trap) while the lowest during the winter (7.6±4.9 per trap) and the season-wise differences in the vector density were significant (P=0.005). Maximum temperature (correlation coefficient, r=0.45) and minimum temperature (r=0.408) showed the highest positive correlation with the vector density, whereas the number of rainy days showed high positive correlation (r=0.185) than the total rainfall (r=0.117). The high risk zone (Dekhiajuli, Behali, Bihaguri and Gohpur PHC) as indicated by the high larval densities of dengue vectors, 45.3±18, 42.1±22.3, 36.9±29.1, 35.3±22.6 per trap, respectively, was validated by dengue epidemiological data collected during 2012. INTERPRETATION & CONCLUSIONS: Yearlong monitoring of dengue vectors was done for the first time in this region. Monthly maximum temperature and the number of rainy days could be used for the prediction of larval density of Aedes mosquitoes. The identification high dengue risk zones would help in adopting targeted interventions for disease management in future.

Physicochemical characteristics of habitats in relation to the density of container-breeding mosquitoes in Asom, India.

BACKGROUND & OBJECTIVES: Container-breeding mosquitoes, especially Aedes spp are vectors of diseases such as dengue and chikungunya. The abundance of these disease vectors in an area depends on the availability of container habitats and their physicochemical characteristics. The species composition of container-breeding mosquitoes in Asom, India was studied and the larval density was correlated with the habitat characteristics. METHODS: Natural and man-made water-holding containers in Sonitpur district of Asom were surveyed for the presence of mosquito larvae. The percent composition of container-breeding mosquitoes and container index were calculated. The physicochemical characteristics of breeding water such as pH, conductivity, salinity, total dissolved solids, turbidity and dissolved oxygen were measured. RESULTS: Aedes albopictus (93.7%) was the predominant species in the container-breeding habitats whereas Culex quinquefasciatus (2.77%), Armigeres subalbatus (2.26%), Ae. aegypti (0.76%), Toxorhynchites sp (0.4%) and Lutzia sp (0.11%) were recorded in relatively low numbers. The larval density (mean ± SEmean) of the container breeding mosquitoes ranged from 4.4 ± 1.8 to 15.4 ± 8.2, while the container index ranged from 1.58 to 5.68%. The mean (± SEmean) pH, conductivity, salinity, total dissolved solids, turbidity, and dissolved oxygen of water in the container habitats were 7.15 ± 0.11; 396.1 ± 58.5 µS/cm; 0.24 ± 0.04 ppt; 207.1 ± 30.4 mg/l; 32.3 ± 5.1 NTU; and 1.42 ± 0.12% respectively. The mosquito larval density in the container habitats was having significant negative correlation with the conductivity of breeding water (r = - 0.89; p = 0.003). Salinity, total dissolved solids and turbidity of water in the habitats were negatively correlated, whereas pH and dissolved oxygen were positively correlated with the larval density. INTERPRETATION & CONCLUSION: The studies indicated the predominance of Ae. albopictus in the container-breeding habitats and reiterated its importance as a potential vector of dengue and chikungunya in the region. The spread of Ae. aegypti, the principal vector of dengue, in the semi-urban areas probably through road transport is a matter of public health concern. The use of conductivity of breeding water as an index for the proliferation of container breeding mosquitoes in the region could be explored further.