Fig. 6: Effects of baculovirus biopesticide use on reductions in Douglas-fir tussock moth densities. | Nature Communications

Fig. 6: Effects of baculovirus biopesticide use on reductions in Douglas-fir tussock moth densities.

From: Synthesizing selection mosaic theory and host-pathogen theory to explain large-scale pathogen coexistence

Fig. 6: Effects of baculovirus biopesticide use on reductions in Douglas-fir tussock moth densities.The alternative text for this image may have been generated using AI.

Varying forest compositions show an increasing percentage of Douglas-fir from left to right. Grey points and horizontal dashed line correspond to the no-treatment baseline. The colored points and lines correspond to different compositions of the baculovirus biopesticide: 100% multi-capsid morphotype composition (blue), 50% multi-capsid morphotype and 50% single-capsid morphotype composition (green), and 100% single-capsid morphotype composition (orange). Each point shows the mean ± SEM percent change in the host population calculated relative to the no-treatment baseline for 20 stochastic realizations. Source data are provided as a Source Data file.

Back to article page