Response of small mammal and tick communities to a catastrophic wildfire and implications for tick ‐borne pathogens

ABSTRACTThrough their potentially devastating impacts on the environment, wildfires may impact pathogen, vector, and host interactions, leading to changing risks of vector ‐borne disease in humans and other animals. Despite established risks for tick‐borne disease and increasing frequency and severity of wildfires in the United States, impacts of wildfire on ticks and tick‐borne pathogens are understudied. In 2015, the large Wragg fire extensively burned a long‐ term field site at Stebbins Cold Canyon University of California Reserve (CC). We characterized the tick, reservoir host and pathogen community over a two‐year period after the burn, comparing our findings to pre‐fire data and to data from Quail Ridge Reserve (QR), a nearby unburned site. After the fire, there were 5.5 times more rodent, primarilyPeromyscus spp., captures at CC than QR (compared to 3.5 times more pre ‐fire). There were significantly fewer dusky‐footed woodrats (Neotoma fuscipes) at both sites post ‐fire, likely due to drought but not fire. Pre‐fire tick infestation prevalence on rodents was comparable across sites (12.5% at CC and 9.9% at QR) and remained low at CC post‐fire (13.7%) but was significantly higher at QR (48.0%), suggesting that ticks or their habitat were destroyed during the burn. Normalized difference vegetation indices documented a 16‐fold loss of vegetation post‐ compared to pre‐fire at CC; loss of vegetation and direct impacts on fauna are likely the main...
Source: Journal of Vector Ecology - Category: Biology Authors: Tags: Original Article Source Type: research