Negative density-dependent dispersal of the mountain pine beetle in Alberta

TL;DR

This study finds that mountain pine beetle dispersal in Alberta is weakly negatively related to population density, with dispersal distances varying greatly due to other environmental factors, affecting its range expansion.

Contribution

It challenges the common belief that higher beetle densities increase dispersal, showing instead a weak negative relationship and highlighting the importance of density-independent factors.

Findings

No positive relationship between density and dispersal was found.

Dispersal distances vary from 20 km to 220 km annually.

Density has a minor effect compared to other environmental factors.

Abstract

Understanding the mountain pine beetle's dispersal patterns is critical for evaluating its threat to Canada's boreal forests. It is generally believed that higher beetle densities lead to increased long-distance dispersal due to aggregation pheromones becoming repellent at high densities, causing beetles to seek areas with less competition. However, using helicopter surveys of infested trees, along with statistical models, we find no evidence supporting a positive relationship. Instead, we observe a weak negative association between population density and dispersal at all spatial scales. A possible explanation is that at low population densities, beetles cannot successfully attack healthy trees and must travel farther to find weakened hosts. Even so, the influence of beetle density on dispersal is minor compared to the spatiotemporal variation in the overall (density-independent) scale of dispersal, as revealed by our models. This variation accounts for the MPB's erratic range expansion across western Alberta, which varied from 20 km to 220 km annually.