2015
DOI: 10.1002/wsb.544
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Identifying migration corridors of mule deer threatened by highway development

Abstract: Highways are hazardous to migratory ungulates world‐wide, causing direct and indirect impacts to ungulate survival. Moreover, significant financial costs are incurred in damage from wildlife–vehicle collisions and in building and maintaining wildlife passage structures. Information is needed to link ungulate movements to collision occurrence to prioritize needed construction of wildlife crossings on highways. We simultaneously documented mule deer (Odocoileus hemionus) migration corridors and mule deer–vehicle… Show more

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Cited by 40 publications
(46 citation statements)
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References 43 publications
(55 reference statements)
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“…We fitted adult deer with GPS collars programmed to record a location every 4 hours and self‐release after 52–72 weeks (Coe et al ). We assessed winter habitat use of mule deer using locations obtained between 1 January–31 March because this was the time period when deer were non‐migratory and concentrated on winter ranges.…”
Section: Methodsmentioning
confidence: 99%
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“…We fitted adult deer with GPS collars programmed to record a location every 4 hours and self‐release after 52–72 weeks (Coe et al ). We assessed winter habitat use of mule deer using locations obtained between 1 January–31 March because this was the time period when deer were non‐migratory and concentrated on winter ranges.…”
Section: Methodsmentioning
confidence: 99%
“…Wildlife veterinarians from ODFW approved and supervised capture operations, which followed the Guidelines of the American Society of Mammalogists for the use of wild mammals in research (Sikes and Gannon 2011). We fitted adult deer with GPS collars programmed to record a location every 4 hours and self-release after 52-72 weeks (Coe et al 2015). We assessed winter habitat use of mule deer using locations obtained between 1 January-31 March because this was the time period when deer were nonmigratory and concentrated on winter ranges.…”
Section: Mule Deer Capture and Monitoringmentioning
confidence: 99%
“…Deer‐vehicle highway collisions are a concern to state agencies nationwide (Romin and Bissonette , Coe et al ). We used a Oregon state highways GIS layer from Oregon Department of Transportation land use development zones (2009) (http://www.oregon.gov/ODOT/TD/TDATA/pages/gis/odotmaps.aspx, accessed 17 Aug 2014) to calculate the number of highways an individual deer must cross during fall or spring migration (range = 0–3) to reach its seasonal range (average traffic volume = 15,200 Annual Average Daily Traffic of all vehicles for 3 highways in study area from 2005–2012).…”
Section: Methodsmentioning
confidence: 99%
“…We defined 4 seasons that reflected different stages of the mule deer life cycle: summer (1 Jun-30 Aug), fall (1 Sep-30 Nov), winter (1 Dec-28 Feb), and spring (1 Mar-31 May). We also identified spring (Apr and May) and fall (Oct and Nov) migration periods (Coe et al 2015), and the hunting season (Aug-Oct) as potentially important sources of temporal variation in survival. We plotted the GPS data for each individual deer to determine summer and winter ranges.…”
Section: Explanatory Variables For Survivalmentioning
confidence: 99%
“…We assumed that a 95% isopleth represented a conservative boundary encompassing available migratory habitat (i.e., pathways). We collected the majority of sequential locations used in migratory analyses (>97%) at 6-hour intervals; however, when the time between locations exceeded 12 hours (>2 missing locations), we split the dataset and estimated separate BBMMs to aid in convergence while avoiding artificial inflation of Brownian-motion variance (Horne et al 2007, Coe et al 2015. We assumed a location error of 26 m, because 88% of migratory locations included a GPS fix with an estimated accuracy within 26 m, and used pathways to define the extent to which resources were available to migrating sage-grouse.…”
Section: Resource Selection Within Migratory Pathwaysmentioning
confidence: 99%