Browsing by Subject "western Great Lakes region"

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    FALL SURVIVAL, MOVEMENTS, AND HABITAT USE OF AMERICAN WOODCOCK IN THE WESTERN GREAT LAKES REGION: 2003 FIELD SEASON REPORT
    (2004-02) Andersen, David E; Bruggink, John G; Doherty, Kevin; Lutz, R.Scott; Meunier, Jed; Oppelt, Eileen
    Declines in the number of American woodcock (Scolopax minor) heard on annual singing ground surveys have resulted in concern regarding the population status of woodcock in both the Central and Eastern Management Regions. Although changes in the distribution and abundance of woodcock habitat are believed to largely be responsible for apparent population declines, relatively little is known regarding the influence of harvest on woodcock population dynamics. Similarly, movements and habitat use of woodcock in fall prior to migration are poorly understood. In 2001 (Minnesota) and 2002 (Michigan and Wisconsin), we initiated a study of woodcock to assess magnitude and causes of woodcock mortality, and investigate movements and habitat use of woodcock in the western Great Lakes Region during fall. In all 3 states, we radio-marked woodcock on paired study areas; one of which was open to woodcock hunting (“hunted areas”) and one of which was closed (“non-hunted areas”) to hunting or had limited access for hunting (“lightly-hunted areas”). In 2003, across all 3 states we captured and radio-equipped 338 woodcock; 194 on hunted areas and 144 on non-hunted or lightly-hunted areas. Survival rates of woodcock during the 2003 hunting season in Michigan were 0.778 + 0.157 in the hunted area and 0.857 + 0.240 in the non-hunted area. In Minnesota, the hunting season survival rate of woodcock in the hunted area was 0.733 + 0.303, and in the non-hunted area it was 0.854 + 0.155. In Wisconsin, the hunting season survival rates of woodcock were 0.657 + 0.151 in the hunted area and 0.735 + 0.151 in the lightly hunted area. A sub-sample of after hatch year (AHY) female woodcock was monitored intensively in each state and preliminary analyses of movement and habitat use data from these birds suggest that woodcock make primarily small-scale movements (47.7% <50 m between subsequent locations and 5.82 ha average 95% fixed kernel home range size) prior to migration. Primary cover types used were aspen (Populus spp.) seedling/sapling, aspen pole, alder (Alnus spp.), conifer, and willow (Salix spp.). Preliminary analyses also suggest that woodcock used edges within individual covers, but that use of edge habitats is variable among habitat types and years.
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    Mapping Avian Movement in Minnesota
    (University of Minnesota Duluth, 2021-09) Grinde, Alexis R; Bracey, Annie; Kolbe, Stephen
    The western Great Lakes region is home to one of the most diverse breeding bird communities in North America and is a key migration pathway for a wide array of species, including neotropical migrants and birds that breed in boreal ecosystems. To better understand and document how birds move in this region, we focused on two applications of automated radio telemetry technology: 1) large- and small-scale (local) movements of birds during the non-breeding season (i.e., migration and winter), and 2) local movements of breeding Common Terns and dispersal behavior of both adult and juvenile birds. Our goal was to assess the utility of using Motus automated telemetry technology at various spatial scales and on a variety of species to study different ecological questions. First, to study timing and behavior of fall migration along the shores of Lake Superior, we focused on two species: Blue Jay (Cyanocitta cristata) and Northern Saw-whet Owl (Aegolius acadicus). Second, we focused on Rusty Blackbirds in the St. Louis River Estuary to document the temporal and geographic use during their fall migratory stopover. Rusty Blackbirds are among the most rapidly declining bird species in North America, but the reasons driving these declines are unknown; a lack of suitable habitat during the migratory and non-breeding seasons is likely a contributing factor. Thousands of Rusty Blackbirds use the north shore of Lake Superior and the SLRE as a migration corridor each spring and fall, yet habitat use and duration of stopover is poorly understood. For this reason, we used automated radio tracking technology to document stopover duration of individual birds in relation to minimum daily temperature and to assess potential differences between sex and age. Third, we focused on documenting winter movement patterns of Black-capped Chickadees (Poecile atricapillus) in an urban-forested landscape: Hartley Park, Duluth MN, USA, to assess how detection rates related to minimum daily temperature and food availability at feeding stations. Black-capped Chickadees are an abundant resident species in our study area and have broad public appeal but are relatively understudied in the winter, particularly in urban settings. Finally, we assessed the utility of automated radio telemetry to study breeding behavior of Common Terns (Sterna hirundo). Common Tern are identified as one of the most vulnerable species at both a federal and state level in the region and as a high priority species for conservation in the state. Interstate Island, located in the SLRE, is one of only two breeding colonies of Common Terns in Lake Superior. Movement of juvenile birds is also a critical piece of the life-history of Common Terns that is not well understood due to previously existing limitations of tracking this age class. The ability to track individuals using the Motus network, which does not require re-encountering the individual to retrieve data, is a huge advancement in tracking of juvenile birds. Documenting breeding behavior and dispersal of adult and juvenile terns will help inform population dynamics, which is particularly important for at-risk and declining populations.