RT Journal Article SR Electronic T1 Long-term sustained malaria control leads to inbreeding and fragmentation of Plasmodium vivax populations JF bioRxiv FD Cold Spring Harbor Laboratory SP 100610 DO 10.1101/100610 A1 Andreea Waltmann A1 Cristian Koepfli A1 Natacha Tessier A1 Stephan Karl A1 Andrew W Darcy A1 Lyndes Wini A1 G.L. Abby Harrison A1 CĂ©line Barnadas A1 Charlie Jannison A1 Harin Karunajeewa A1 Sarah Boyd A1 Maxine Whittaker A1 James Kazura A1 Melanie Bahlo A1 Ivo Mueller A1 Alyssa E. Barry YR 2017 UL http://biorxiv.org/content/early/2017/01/15/100610.1.abstract AB Plasmodium vivax populations are more resistant to malaria control strategies than Plasmodium falciparum, maintaining high genetic diversity and gene flow even at low transmission. To quantify the impact of declining transmission on P. vivax populations, we investigated population genetic structure over time during intensified control efforts and over a wide range of transmission intensities and spatial scales in the Southwest Pacific. Analysis of 887 P. vivax microsatellite haplotypes (Papua New Guinea, PNG = 443, Solomon Islands = 420, Vanuatu =24) revealed substantial population structure among countries and modestly declining diversity as transmission decreases over space and time. In the Solomon Islands, which has had sustained control efforts for 20 years, significant population structure was observed on different spatial scales down to the sub-village level. Up to 37% of alleles were partitioned between populations and significant multilocus linkage disequilibrium was observed indicating substantial inbreeding. High levels of haplotype relatedness around households and within a range of 300m are consistent with a focal and clustered infections suggesting that restricted local transmission occurs within the range of vector movement and that subsequent focal inbreeding may be a key factor contributing to the observed population structure. We conclude that unique transmission strategies, including relapse allows P. vivax populations to withstand pressure from control efforts for longer than P. falciparum. However sustained control efforts do eventually impact parasite population structure and with further control pressure, populations may eventually fragment into clustered foci that could be targeted for elimination.