One of the most effective means of minimizing mortalities of large raptors from collisions with hazards is to locate hazards away from major activity centers. A reliable means of delineating bird activity centers on the landscape has been a significant impediment to progress in proactive infrastructure planning. We used Brownian bridge movement modeling to develop a population-wide, utilization probability surface for bald eagles (Haliaeetus leucocephalus) within the upper Chesapeake Bay. We used locations (n ¼ 320,304) for individuals (n ¼ 63) tracked with global positioning system (GPS) satellite transmitters between 2007 and 2011 in the analysis. We intersected the electrical network on the probability surface within Aberdeen Proving Ground, a 350-km 2 military installation to identify overlap between power lines and eagle activity centers. We also overlaid locations of eagle mortalities attributed to the lines (n ¼ 67) on the installation to assess the relationship between mortality rates and utilization probabilities. Areas of high bald eagle use were relatively rare on the landscape with only 0.1% and 5% of the area accounting for 10% and 30% of estimated utilization. Most electric lines were along roads and distributed away from eagle activity centers, with only 0.3% of lines located within areas with the highest estimated eagle use. Eagle mortalities were highly skewed to lines that overlapped with eagle activity centers. Eagle mortality rates (birds/100 km/yr) were 42 times higher along lines associated with the highest 10% of eagle use compared to lines associated with the lowest 10% use, suggesting that estimated utilization may be an effective proxy for mortality risk associated with electric line hazards. The majority (71.9%) of high-use bald eagle areas delineated within the study area have no existing electric lines. Utilization probabilities may be a potential tool for site-specific infrastructure planning. Ó 2015 The Wildlife Society.
Although snags are often considered to be a limiting factor for cavity-nesting birds within intensively managed pine (Pinus spp.) stands, there is little information regarding occurrences of snags and cavity-nesting birds for such stands in the southeastern United States. Therefore, during 2002–2003, we measured characteristics of individual snags (n = 1,218) and quantified the relative abundance of cavity-nesting birds (n = 204 observations; nine species) in 35 forest stands representing seven thinning classes (prior to thinning, three age classes following a first commercial thinning, and three age classes following a second commercial thinning entry) in intensively managed pine stands in eastern North Carolina. Snag populations were dynamic, with 649 snags falling and 75 new snags recruited between years. Stands in later thinning classes tended to have snags with larger diameters, less bark, and fewer limbs, and they were taller and more decayed (P < 0.05). Our data suggest that neither density of snags (P = 0.31) nor relative abundance of cavity-nesting birds (P = 0.25) differed strongly among thinning classes. Without active management, low recruitment coupled with the high loss rates that we observed ould lead to low snag densities in older managed stands. Therefore, we suggest that forest managers consider retaining large-diameter dead or live trees as reserve trees through multiple rotations to increase or maintain snags in managed stands.
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