• Wildlife Response to Wildfire at the Altona Flat Rock Pine Barren in Northern NY

      Adams, Matthew; Staats, Lloyd; Garneau, Danielle; Lesser, Mark (2019-05)
      In July of 2018, approximately 221 hectares of forest were burned in a wildfire at a sandstone pavement barren in Altona NY. Forest overstory is predominantly Pinus banksiana (Jack Pine) and Betula lenta (Black Birch), whereas understory is comprised of ericaceous shrubs and Pteridium aquilinum (Bracken Fern). Within weeks of the burn, Jack Pine’s sertoninous cone seeds had germinated and regeneration of fern stolons and birch stump sprouts appeared. We sought to monitor wildlife in response to forest regeneration at the sandstone pavement barren burn as compared to a reference (unburned) site. For this study, eight game cameras were installed along transects traversing the burn intensity gradient. Game cameras were equally distributed across the burn and reference sites and remained unbaited. Diel wildlife activity was made possible using camTrap package in R Studio, which organizes image files according to metadata (e.g., time, temperature, species) and facilitates interpretation. Species recorded in the burn sites were, Odocoileus virginianus (White-tailed Deer), Canis latrans (Eastern Coyote), Leporidae (Rabbit family), Lynx rufus (Bobcat), Procyon lotor (Raccoon), and Pekania pennanti (Fisher). In addition to these species, Tamiasciurus hudsonicus (Red Squirrel), Sciurus carolinensis (Gray Squirrel) and Bonasa umbellus (Ruffed Grouse) were observed in the reference but not the burn sites. In fall 2018, species richness was greater (n = 9) on the reference versus the burn sites (n = 6). In addition, there was greater wildlife abundance (n = 98) at the reference versus the burn sites (n = 44). Diel activity differed for some species between sites, in particular White-tailed Deer activity was crepuscular at the reference site, with activity peaks at both 8am and 6pm, as compared to a single longer duration morning activity bout on the burn. Biodiversity typically responds positively to wildfire in response to regeneration; however this was not observed in the first season following the disturbance. Continued monitoring of wildlife in response to wildfire may reveal differing patterns as the forest continues to succeed.