Background: Plasmodium vivax remains a challenge in Peru. The high heterogeneity of its transmission has limited the intervention measures based on global and generalized epidemiological information at medium and long term. Population genetic tools may provide information on the spatial heterogeneity of transmission by linking parasite genetic patterns with epidemiological information. Methods: The genetic diversity and population structures from three settlements located in the Peruvian Amazon, Cahuide (CAH), Lupuna (LUP) and Santa Emilia (STE) were measured on samples collected from September 2012 to March 2015. Results: A total of 777 P. vivax mono- infections were genotyped. LUP showed the lowest proportion of polyclonal infections (0.197) and genetic diversity (Hexp 0.544 ± 0.0012). Moreover, in this study area results showed a significant increment of polyclonal infections and Hex...

Plasmodium vivax is the main cause of malaria in the Peruvian Amazon and Mazan is considered one of its districts with high risk of malaria transmission. In this site, previous studies has described P. vivax transmission as heterogenic and has suggested that its prevalence is influenced by factors linked to human mobilization. However, the contribution of this factor have not been assessed yet. Population genetic tools provide information on the individual contribution of the factors that favor the transmission and evaluate the demographic patterns of dispersion of the parasite populations which are influenced by the human mobilization. In order to evaluate contribution of human mobilization to malariatransmission in Mazan, in this work we use a Bayesian framework to identify genetic sub-populations in each basin and to discriminate between endogenous and imported cases. Socio-demographi...