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Bat Bibliography

Author: Daniel Acevedo

[Kostandov et al., 2009]
Mykhaylo Kostandov, Jian Chen, Igor Pivkin, Daniel K. Riskin, Dave Willis, Sharon Swartz, and David H. Laidlaw. Visual Analysis of Dimensionality Reduction in an Interactive Virtual Environment for Exploring Bat Flight Kinematics. In Proceedings of the Joint Virtual Reality Conference of EGVE-ICAT-EuroVR, 2009. In Press (pdf) (bibtex: Chen-2009-POD).
[Kostandov et al., 2008]
Mykhaylo Kostandov, Jian Chen, Igor Pivkin, Sharon Swartz, and David H. Laidlaw. Exploring Dimensionality Reduction of Animal Flight Kinematics in an Interactive Virtual Reality Setting. ACM I3D Symposium on Interactive 3D Graphics and Games, Posters Program, February 2008. (pdf) (bibtex: Kostandov-2008-EDR).
[Dumon and Swartz, 2006]
E.L. Dumon and Sharon Swartz. Biomechanical Approaches and Ecological Research. In Ecological and Behavioral Methods for the Study of Bats. Johns Hopkins university Press, 2006. In Press (bibtex: Dumont-2006-BAE).
[Galvao et al., 2006]
R. Galvao, E. Israeli, A. Song, X. Tian, K. Bishop, Sharon Swartz, and Kenneth Breuer. The Aerodynamics of Compliant Membrane Wings Modeled on Mammalian Flight Mechanics. In Proceedings of 36th AIAA Fluid Dynamics Conference, June 2006. (bibtex: Galvao-2006-ACM).
[Hedenstrom et al., 2006]
A. Hedenstrom, M. Rosen, and G. R. Spedding. Vortex wakes generated by robins Erithacus rubecula during free flight in a wind tunnel. Journal of The Royal Society Interface, 3(7):263-276, April 2006. (bibtex: Hedenstrom-2006-VWG).
[Kostandov et al., 2006]
Mykhaylo Kostandov, Igor Pivkin, Kenneth Breuer, Sharon Swartz, and David H. Laidlaw. Proper Orthogonal Decomposition and Particle Image Velocimetry in Bat Flight. IEEE Visualization 2006 Poster Compendium, November 2006. (pdf) (bibtex: Kostandov-2006-POD).
[Tian et al., 2006]
X. Tian, J. Iriarte, K. Middleton, R. Galvao, E. Israeli, A. Roemer, A. Sullivan, A. Song, Sharon Swartz, and Kenneth Breuer. Direct Measurements of the Kinematics and Dynamics of Bat Flight. In Proceedings of 36th AIAA Fluid Dynamics Conference, June 2006. (bibtex: Tian-2006-DMK).
[Wilkinson et al., 2005]
Mathew T. Wilkinson, David M. Unwin, and Charles P. Ellington. High Lift function of the Pteroid Bone and Forewing of Pterosaurs. Proceedings of the Royal Society, Online, 2005. (pdf) (bibtex: Wilkinson-2005-HLF).
[Fischer and Swartz, 2004]
I.M. Fischer and Sharon Swartz. How fat bats fly: Energetic and structural consequences for bats flying under increased load. Functional Ecology, 2004. In Review (bibtex: Fischer-2004-HFB).
[Huber and Swartz, 2004]
M.H. Huber and Sharon Swartz. Wings of springs: Structure, function and energetics of bat finger bones. Unpublished (bibtex: Huber-2004-WSS), 2004.
[Skene and Swartz, 2004]
J.A. Skene and Sharon Swartz. The mechanical and energetic role of the wing membrane in bat flight. Unpublished (bibtex: Skene-2004-MER), 2004.
[Swartz et al., 2004]
Sharon Swartz, K. Bishop, and M.F. Ismael-Aguirre. Dynamic complexity of wing form in bats: implications for flight performance. In Functional and evolutionary ecology of bats. Oxford Press, 2004. (bibtex: Swartz-2004-DCW).
[Swartz and Gilbert, 2004]
Sharon Swartz and S. M. Gilbert. The structural geometry of bat wing bones and the risk of buckling failure. Journal of Theoretical Biology, 2004. In Review (bibtex: Swartz-2004-SGB).
[Swartz, 2004]
Sharon Swartz. Computational estimation of skeletal stresses and joint forces in flying bats: implications for origin and diversification of the bat skeleton. Unpublished (bibtex: Swartz-2004-CES), 2004.
[Hueso, 2003]
Eduardo Hueso. Visualizing Vortices in Simulated Air Flow around Bat Wings during Flight. Technical Report CS-03-25, Master's Project, Computer Science Department, Brown University, Providence, RI, December 2003. (pdf) (bibtex: Hueso-2003-VVS).
[Spedding et al., 2003]
G.R. Spedding, A. Hedenstrom, and M. Rosen. Quantitative studies of the wakes of freely flying birds in a low-turbulence wind tunnel. Experiments in Fluids, 34(2):291-303, 2003. (bibtex: Spedding-2003-QSW).
[Swartz et al., 2003]
Sharon Swartz, P. Freeman, and E. Stockwell. Ecomorphology. In Bat Ecology, pages 257-300. The University of Chicago Press, 2003. (bibtex: Swartz-2003-ECO).
[Tobalske et al., 2003]
B.W. Tobalske, T.L. Hedrick, K.P. Dial, and A.A. Biewener. Comparative power curves in bird flight. Nature, 421:363-366, 2003. (bibtex: Tobalske-2003-CPC).
[Hedrick et al., 2002]
T.L. Hedrick, B.W. Tobalske, and A.A. Biewener. Estimates of circulation and gait change based on a three-dimensional kinematic analysis of flight in cockatiels (Nymphicus hollandicus) and ringed turtle doves (Streptopelia risoria). Journal of Experimental Biology, 205:1389-1409, 2002. (bibtex: Hedrick-2002-ECG).
[Teeling, 2002]
E.C. Teeling. Microbat paraphyly and the convergent evolution of a key innovation in Old World rhinolophoid microbats. Proceedings of the National Academy of Sciences of the United States of America, 99(3):1431-1436, 2002. (bibtex: Teeling-2002-MPC).
[Kirby, 2001]
Michael Kirby. Geometric Data Analysis. John Wiley & Sons, 2001. (bibtex: Kirby-2001-GDA).
[Murphy, 2001]
W.J. Murphy. Resolution of the early placental mammal radiation using Bayesian phylogenetics. Science, 294(5550):2348-2351, 2001. (bibtex: Murphy-2001-REP).
[Rayner et al., 2001]
J.M.V. Rayner, P.W. Viscardi, S. Ward, and J.R. Speakman. Aerodynamics and energetics of intermittent flight in birds. American Zoologist, 41:188-204, 2001. (bibtex: Rayner-2001-AEI).
[Spedding and Pennycuick, 2001]
G. R. Spedding and C.J. Pennycuick. Uncertainty calculations for theoretical flight power curves. Journal of Theoretical Biology, 208(2):127-139, 2001. (bibtex: Spedding-2001-UCT).
[Springer, 2001]
M.S. Springer. Integrated fossil and molecular data reconstruct bat echolocation. Proceedings of the National Academy of Sciences of the United States of America, 98(11):6241-6246, 2001. (bibtex: Springer-2001-IFM).
[Stockwell, 2001]
E.F. Stockwell. Morphology and flight manoeuvrability in New World leaf-nosed bats (Chiroptera : Phyllostomidae). Journal of Zoology, 254:505-514, 2001. (bibtex: Stockwell-2001-MFM).
[Watts et al., 2001]
P. Watts, E. J. Mitchell, and Sharon Swartz. A computer model for estimating mechanics and energetics of horizontal flapping flight in large bats: Model description, computation, and sensitivity analysis. Journal of Experimental Biology, 204:2873-2898, 2001. (bibtex: Watts-2001-CME).
[Dudley, 2000]
R. Dudley. The biomechanics of insect flight: form, function, evolution. Princeton University Press, 2000. (bibtex: Dudley-2000-BIF).
[Teeling, 2000]
E.C. Teeling. Molecular evidence regarding the origin of echolocation and flight in bats. Nature, 403(6766):188-192, 2000. (bibtex: Teeling-2000-MER).
[Tobalske, 2000]
B.W. Tobalske. Biomechanics and physiology of gait selection in flying birds. Physiological and Biochemical Zoology, 73(6):736-750, 2000. (bibtex: Tobalske-2000-BPG).
[Dickinson et al., 1999]
M. H. Dickinson, F.O. Lehmann, and S.P. Sane. Wing rotation and the aerodynamic basis of insect flight. Science, 284(5422):1954-1960, 1999. (bibtex: Dickinson-1999-WRA).
[Ellington, 1999]
C.P. Ellington. The novel aerodynamics of insect flight: Applications to micro-air vehicles. Journal of Experimental Biology, 202(23):3439-3448, 1999. (bibtex: Ellington-1999-NAI).
[Rayner, 1999]
J.M.V. Rayner. Estimating power curves of flying vertebrates. Journal of Experimental Biology, 202(23):3449-3461, 1999. (bibtex: Rayner-1999-EPC).
[Tobalske et al., 1999]
B.W. Tobalske, W.L. Peacock, and K.P. Dial. Kinematics of flap-bounding flight in the zebra finch over a wide range of speeds. Journal of Experimental Biology, 202(13):1725-1739, 1999. (bibtex: Tobalske-1999-KFB).
[Voigt and Winter, 1999]
C.C. Voigt and Y. Winter. Energetic cost of hovering flight in nectar-feeding bats (Phyllostomidae : Glossophaginae) and its scaling in moths, birds and bats. Journal of Comparative Physiology B-Biochemical Systemic and Environmental Physiology, 169(1):38-48, 1999. (bibtex: Voigt-1999-ECH).
[Spedding and Lissaman, 1998]
G.R. Spedding and P.B.S. Lissaman. Technical aspects of microscale flight systems. Journal of Avian Biology, 29(4):458-468, 1998. (bibtex: Spedding-1998-TAM).
[Swartz, 1998]
Sharon Swartz. Skin and bones: the mechanical properties of bat wing tissues . In Bats: Phylogeny, Morphology, Echolocation, and Conservation Biology, pages 109-126. Smithsonian Inst. Press, 1998. (bibtex: Swartz-1998-SBM).
[Winter et al., 1998]
Y. Winter, C. Voigt, and O. Von Helversen. Gas exchange during hovering flight in a nectar-feeding bat Glossophaga soricina. Journal of Experimental Biology, 201(2):237-244, 1998. (bibtex: Winter-1998-GEH).
[Willmott and Ellington, 1997]
A.P. Willmott and C.P. Ellington. The mechanics of flight in the hawkmoth Manduca sexta .1. Kinematics of hovering and forward flight. Journal of Experimental Biology, 200(21):2705-2722, 1997. (bibtex: Willmott-1997-MFH).
[Willmott et al., 1997]
A.P. Willmott, C.P. Ellington, and A.L.R. Thomas. Flow visualization and unsteady aerodynamics in the flight of the hawkmoth, Manduca sexta. Philosophical Transactions of the Royal Society of London Series B-Biological Sciences, 352(1351):303-316, 1997. (bibtex: Willmott-1997-FVU).
[Dickinson, 1996]
M.H. Dickinson. Unsteady mechanisms of force generation in aquatic and aerial locomotion. American Zoologist, 36(6):537-554, 1996. (bibtex: Dickinson-1996-UMF).
[Ellington, 1996]
C. P. Ellington. Leading-edge vortices in insect flight. Nature, 384(6610):626-630, 1996. (bibtex: Ellington-1996-LEV).
[Tobalske and Dial, 1996]
B.W. Tobalske and K.P. Dial. Flight kinematics of black-billed magpies and pigeons over a wide range of speeds. Journal of Experimental Biology, 199(2):263-280, 1996. (bibtex: Tobalske-1996-FKB).
[Dickinson and Gotz, 1993]
M. H. Dickinson and K.G. Gotz. nsteady Aerodynamic Performance of Model Wings at Low Reynolds-Numbers. Journal of Experimental Biology, 174:45-64, 1993. (bibtex: Dickinson-1993-UAP).
[Spedding, 1992]
G.R. Spedding. The aerodynamics of flight, volume 11 of Advances in Comparative and Environmental Physiology. Springer-Verlag, Berlin, 1992. (bibtex: Spedding-1992-AFL).
[Ellington, 1991]
C.P. Ellington. Limitations on Animal Flight Performance. Journal of Experimental Biology, 160:71-91, 1991. (bibtex: Ellington-1991-LAF).
[Norberg, 1990]
U.M. Norberg. Vertebrate flight: mechanics, physiology, morphology, ecology and evolution. Springer-Verlag, Berlin, 1990. (bibtex: Norberg-1990-VFM).
[Norberg and Rayner, 1987]
U. M. Norberg and J. M. V. Rayner. Ecological Morphology and Flight in Bats. Wing Adaptations, Flight Performance, Foraging Strategy and Echolocation. Philosophical Transactions of the Royal Society of London Series B-Biological Sciences, 316:337-419, 1987. (pdf) (bibtex: Norberg-1987-EMF).
[Norberg, 1987]
U. M. Norberg. Wing form and flight mode in bats. In Recent advances in the study of bats, pages 43-56. Cambridge University Press, 1987. (bibtex: Norberg-1987-WFF).
[Spedding, 1987]
G.R. Spedding. The wake of a kestrel (Falco tinnunculus) in flapping flight. J. exp. Biol., 127:59-78, 1987. (bibtex: Spedding-1987-WKF).
[Spedding, 1986]
G. R. Spedding. The wake of a jackdaw (Corvus monedula) in slow flight. J. exp. Biol., 125:287-307, 1986. (bibtex: Spedding-1986-WJC).
[Ellington, 1984]
C.P. Ellington. The aerodynamics of hovering insect flight. IV. Aerodynamic mechanisms. Phil. Trans. Roy. Soc. Lond. B, 305(1122):1-15, 1984. (bibtex: Ellington-1984-AHI).
[Vogel, 1967]
S. Vogel. Flight in Drosophila. II. Variations in stroke parameters and wing contour. J. Exp. Biol., 46:383-392, 1967. (bibtex: Vogel-1967-FDV).
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