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Avian communities in relation to habitat influenced by fire in a sagebrush steppe landscape
Fire suppression in high-elevation sagebrush steppe over the last century has
profoundly influenced the structure and complexity of vegetation communities.
Although fire is the primary management tool used to restore these areas, the impact
of this management practice on associated avian communities is poorly understood.
We examined patterns of habitat use by breeding birds one year after a prescribed burn
on Steens Mountain in southeastern Oregon. During the 2000 breeding season, we
determined bird distribution and abundance using a fixed-radius point count method at
205 sites representing burned and unburned sagebrush, juniper, and aspen habitats.
We developed resource selection models for individual species breeding in the
sagebrush steppe, and predictive models of bird species richness and diversity (H') by
combining bird and local vegetation data collected at the field sites with remotely sensed
landscape data. We used Akaike's Information Criterion (AICC) to select the
best-approximating model from a suite of a priori candidate models. Brewer's sparrows, sage thrashers, and green-tailed towhees had a positive
relationship with increasing area of sagebrush, whereas vesper sparrows were
negatively associated with area of sagebrush. Green-tailed towhee occurrence initially
increased with increasing juniper within I km, but eventually declined as juniper
continued to increase. All other species showed a strong negative relationship with
increasing juniper. Brewer's sparrows, sage thrashers, and green-tailed towhees were
also sensitive to sagebrush abundance within 1 km.
Bird species richness and diversity (Ht) were positively associated with
increasing area of aspen and juniper density at the site. However, both bird
community measures quickly reached a threshold at low values of either habitat type.
Bird species richness increased with increasing habitat diversity (Ht) within 1 km,
while bird diversity (Ht) increased with increasing habitat richness at the site.
The prescribed fire minimally impacted critical aspen habitat. Furthermore.
our models indicate that even small aspen stands and the presence of a few juniper
trees are adequate to sustain avian diversity in this landscape. These results suggest
that, although fire has an immediate impact on some birds breeding in sagebrush
steppe, in the long term, periodic fire enhances avian diversity and creates suitable
habitat conditions for sagebrush obligates by maintaining aspen stands and limiting
juniper
Using Spatial Models To Map Bird Distributions Along The Madison River
The Avian Science Center developed predictive maps of species distributions for the Madison River based on newly available riverine system data from the National Wetlands Inventory (NWI) and the Natural Heritage Program’s Landscape Integrity Model. We used a maximum entropy model (MaxEnt) to predict species distributions using species occurrence locations collected from 2003-2010. Models performed well for 13 species, demonstrating that available environmental data layers, including NWI, can be used to successfully predict species distributions along the Madison River for a number of important riparian bird species. These models allow fine-scale mapping of habitat suitability for riparian birds, which fills gaps in current data on species distributions, and can be used to prioritize riparian conservation and restoration projects