Table 1.
Traits and data sources for vectorial capacity parameters [22].
Table 2.
Sampling sites are listed along with the number of sampling days per site (n). For the proportion of parous females, n indicates the total number of females for which parity status could be determined.
Fig 1.
Effects of land-use on vectorial capacity.
Estimates derived from temperature-dependent trait responses and data measured in the field are shown for each parameter underlying vectorial capacity (VC) for 2017. These are vector to human ratio (m), daily probability of a female mosquito taking a bloodmeal (a), the daily rate of adult mortality (μ), the probability of transmission from an infectious mosquito to a susceptible human (b), the probability of transmission from an infectious human to susceptible mosquito (c), and the rate of extrinsic incubation of the pathogen (REI). Created with BioRender.com.
Fig 2.
Effects of adult mortality (A) and biting rate (B) on vectorial capacity. Contour plot of differences in vectorial capacity estimates between oil palm plantations and logged forest, with positive values of ΔVC denoting higher vectorial capacity in oil palm plantation and negative values denoting higher vectorial capacity in logged forest. As you move along the x-axis, the respective traits increase in logged forest, and the same applies for oil palm plantation along the y-axis. The mosquito icon indicates the value of the trait observed from the empirical data. Created with Biorender.com.