Swainson's Thrush (Catharus ustulatus) Papers

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[edit] Physiology

Bowlin, M. S. (2007). Sex, Wingtip Shape, and Wing-Loading Predict Arrival Date at a Stopover Site in the Swainson's Thrush (Catharus Ustulatus). Auk 124(4): 1388-96.

Bowlin, M. S., W. W. Cochran, et al. (2005). Biotelemetry of New World thrushes during migration: Physiology, energetics and orientation in the wild. Integrative and Comparative Biology 45(2): 295-304.

Bowlin, M. S., and M. Wikelski. (2008). Pointed Wings, Low Wingloading and Calm Air Reduce Migratory Flight Costs in Songbirds. PLoS ONE 3(5): e2154. doi:10.1371/journal.pone.0002154

Bowlin, M. S., M. C. Wikelski, and W. W. Cochran. (2004). The Relationship between Individual Morphology, Atmospheric Conditions, and Inter-Individual Variation in Heart Rate and Wingbeat Frequency During Natural Migration in the Swainsons Thrush (Catharus Ustulatus). Integrative and Comparative Biology 44(6): 529-29.

Cochran, W. W., M. S. Bowlin, and M. Wikelski. (2008). Wingbeat frequency and flap-pause ratio during natural migratory flight in thrushes. Integrative and Comparative Biology 48(1): 134-51.

Deutschlander, M. E., and R. Muheim. (2009). Fuel reserves affect migratory orientation of thrushes and sparrows both before and after crossing an ecological barrier near their breeding grounds. Journal of Avian Biology 40(1): 85-89.

Gibbs, H. L., L. M. Tabak, and K. Hobson. (1999). Characterization of Microsatellite DNA Loci for a Neotropical Migrant Songbird, the Swainson's Thrush (Catharus Ustulatus). Molecular Ecology 8(9): 1551-52.

Owen, J. C., and F. R. Moore. (2008). Swainson’s thrushes in migratory disposition exhibit reduced immune function. Journal of Ethology 26(3): 383-88.

Spengler, T. J., P. L. Leberg, and W. C. Barrow. (1995). Comparison of Condition Indexes in Migratory Passerines at a Stopover Site in Coastal Louisiana. Condor 97(2): 438-44.

Svensson, L.M.E., et al. (2007). Widespread and Structured Distributions of Blood Parasite Haplotypes across a Migratory Divide of the Swainson's Thrush (Catharus Ustulatus). Journal of Parasitology 93(6): 1488-95.

Winker, K., D. W. Warner, and A. R. Weisbrod. (1992). Daily Mass Gains among Woodland Migrants at an Inland Stopover Site. Auk 109(4): 853-62.

Yong, W., and F. R. Moore. (1993). Relation between Migratory Activity and Energetic Condition among Thrushes (Turdinae) Following Passage across the Gulf-of-Mexico. Condor 95(4): 934-43.

Yong, W., and F. R. Moore. (1994). Flight Morphology, Energetic Condition, and the Stopover Biology of Migrating Thrushes. Auk 111(3): 683-92.

[edit] Behavior

Cochran, W. W., H. Mouritsen, and M. Wikelski. (2004). Migrating Songbirds Recalibrate Their Magnetic Compass Daily from Twilight Cues. Science 304(5669): 405-08.

Diehl, R. H., and R. P. Larkin. (1998). Wingbeat Frequency of Two Catharus Thrushes During Nocturnal Migration. Auk 115(3): 591-601.

Fuchs, T., et al. (2006). Daytime Naps in Night-Migrating Birds: Behavioural Adaptation to Seasonal Sleep Deprivation in the Swainson's Thrush, Catharus Ustulatus. Animal Behaviour 72: 951-58.

Ruegg, K., et al. (2006). Divergence in Mating Signals Correlates with Ecological Variation in the Migratory Songbird, Swainson's Thrush (Catharus Ustulatus). Molecular Ecology 15(11): 3147-56.

Sandberg, R., et al. (2002). Orientation of Nocturnally Migrating Swainson's Thrush at Dawn and Dusk: Importance of Energetic Condition and Geomagnetic Cues. Auk 119(1): 201-09.

Tietz, J. R., and M. D. Johnson. (2007). Stopover ecology and habitat selection of juvenile Swainson's Thrushes during fall migration along the northern California coast. Condor 109(4): 795-807.

White, J. D., et al. (2005). Resource Selection by Juvenile Swainson's Thrushes During the Postfledging Period.. Condor 107(2): 388-401.

[edit] Community

Gardali, T., et al. (2003). Juvenile and Adult Survival of Swainson's Thrush (Catharus Ustulatus) in Coastal California: Annual Estimates Using Capture-Recapture Analyses. Auk 120(4): 1188-94.

Hobson, K. A., et al. (2001). Linking Breeding and Wintering Grounds of Bicknell's Thrushes Using Stable Isotope Analyses of Feathers. Auk 118(1): 16-23.

Hobson, K. A., et al. (2007). Estimating Origins of Three Species of Neotropical Migrant Songbirds at a Gulf Coast Stopover Site: Combining Stable Isotope and Gis Tools. Condor 109(2): 256-67.

Poulin, B., and G. Lefebvre. (1996). Dietary Relationships of Migrant and Resident Birds from a Humid Forest in Central Panama. Auk 113(2): 277-87.

Woodrey, M. S., and F. R. Moore. (1997). Age-Related Differences in the Stopover of Fall Landbird Migrants on the Coast of Alabama. Auk 114(4): 695-707.

Yong, W., and F. R. Moore. (1997). Spring Stopover of Intercontinental Migratory Thrushes Along the Northern Coast of the Gulf of Mexico.. Auk 114(2): 263-78.

[edit] Population

Johnson, M. D., and G. R. Geupel. (1996). The Importance of Productivity to the Dynamics of a Swainson's Thrush Population. Condor 98(1): 133-41.

Kelly, J. F., K. C. Ruegg, and T. B. Smith. (2005). Combining Isotopic and Genetic Markers to Identify Breeding Origins of Migrant Birds. Ecological Applications 15(5): 1487-94.

Outlaw, D. C., et al. (2003). Evolution of Long-Distance Migration in and Historical Biogeography of Catharus Thrushes: A Molecular Phylogenetic Approach. Auk 120(2): 299-310.

Ruegg, K. C., R. J. Hijmans, and C. Moritz. (2006). Climate Change and the Origin of Migratory Pathways in the Swainson's Thrush, Catharus Ustulatus. Journal of Biogeography 33(7): 1172-82.

Ruegg, K. C., and T. B. Smith. (2002). Not as the Crow Flies: A Historical Explanation for Circuitous Migration in Swainson's Thrush (Catharus Ustulatus). Proceedings of the Royal Society of London Series B-Biological Sciences 269(1498): 1375-81.

Wassenaar, L. I., and K. A. Hobson. (2001). A Stable-Isotope Approach to Delineate Geographical Catchment Areas of Avian Migration Monitoring Stations in North America.. Environmental Science & Technology 35(9): 1845-50.