Impacts of wildfire extent and severity on caribou habitat

Régions: Dehcho Region, North Slave Region

étiquettes: physical sciences, vegetation, caribou, fire ecology, forest regrowth

chercheur principal: Baltzer, Jennifer L (20)
Nᵒ de permis: 16018
Organisation: Wilfrid Laurier University
Année(s) de permis: 2018 2017 2016
Délivré: janv. 17, 2017

Objectif(s): To improve the empirical foundations for predictive caribou habitat mapping within the forested areas of the Taiga Plains and Taiga Shield Ecoregions in the Northwest Territories.

Description du projet: The objective is to improve the empirical foundations for predictive caribou habitat mapping within the forested areas of the Taiga Plains and Taiga Shield Ecoregions in the Northwest Territories, roughly south of Great Bear Lake. The research team will establish a network of long-term study plots across a range of fire characteristics and vegetation types, where the team will measure the rate and direction of forest and caribou forage recovery following fire. The sample design will enable the research team to model how these rates and directions vary with initial conditions, fire severity and other factors. The design will exploit historical data (e.g. air photos and fire history maps), forest resource inventory maps (where available), and caribou collar data, and will include revisits of past survey locations where possible. The survey design and field protocols will facilitate future re-measurements. Site selection: The research team will establish 5-8 plots within each combination of fire age, severity and vegetation type, and in areas with data on caribou use where possible. The team will revisit previously sampled burn sites to measure rates of habitat recovery. Plots will be geo-referenced at high precision and marked in the field. Sites will be selected based on: 1) fire age using fire history maps (c1960-2014): new (2014), young (< 10 years old), medium (10-40 years), and old (> 40 years); 2) fire severity categorized by direct measures (2014 fires), satellite products (young fires) or surrogates such as modelled fire intensity (medium and old fires; Amiro et al. 2001); 3) burn patch size estimated from patch area and distance to nearest unburned edge 4) Vegetation or landcover class, and Forest Inventory or pre-fire air photos where they exist. Sampling will include all dominant forest types and non-forested bogs and fens; and, 5) proximity to communities, roads, and water to facilitate access. The research team will relate burn characteristics described above to: 1) vegetation composition and abundance, soil characteristics, and depth to frost table; 2) direction and rate of forest recovery: within the 2014 burns the research team will count and identify tree seedlings in randomly placed plots. In all sites, the team will establish forest inventory plots to relate ground data to remotely sensed products; and, 3) caribou forage including the relative abundance and biomass of plants and lichens (arboreal and ground-dwelling) used by caribou and other ungulates such as moose, and growth at a small number of sites to estimate productivity of forage species. Last summer the research team employed community members in Gameti, Wekweeti and Kakisa to assist with field sampling efforts. The research team will do the same in the coming year for communities close to major sampling locations. Finally, the research team engage regularly in community events in order to share information about our project as well as receive feedback from the communities. The fieldwork for this study will be conducted from June 1, 2017 to September 9, 2017.