Gaze Strategy in the Free Flying Zebra Finch ($Taeniopygia$ $guttata$)

Eckmeier D, Geurten B, Kress D, Mertes M, Kern R, Egelhaaf M, Bischof H-J (2008)
PLOS ONE 3(12): e3956.

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Eckmeier D, Geurten B, Kress D, et al. Gaze Strategy in the Free Flying Zebra Finch ($Taeniopygia$ $guttata$). PLOS ONE. 2008;3(12): e3956.
Eckmeier, D., Geurten, B., Kress, D., Mertes, M., Kern, R., Egelhaaf, M., & Bischof, H. - J. (2008). Gaze Strategy in the Free Flying Zebra Finch ($Taeniopygia$ $guttata$). PLOS ONE, 3(12): e3956.
Eckmeier, D., Geurten, B., Kress, D., Mertes, M., Kern, R., Egelhaaf, M., and Bischof, H. - J. (2008). Gaze Strategy in the Free Flying Zebra Finch ($Taeniopygia$ $guttata$). PLOS ONE 3:e3956.
Eckmeier, D., et al., 2008. Gaze Strategy in the Free Flying Zebra Finch ($Taeniopygia$ $guttata$). PLOS ONE, 3(12): e3956.
D. Eckmeier, et al., “Gaze Strategy in the Free Flying Zebra Finch ($Taeniopygia$ $guttata$)”, PLOS ONE, vol. 3, 2008, : e3956.
Eckmeier, D., Geurten, B., Kress, D., Mertes, M., Kern, R., Egelhaaf, M., Bischof, H.-J.: Gaze Strategy in the Free Flying Zebra Finch ($Taeniopygia$ $guttata$). PLOS ONE. 3, : e3956 (2008).
Eckmeier, Dennis, Geurten, Bart, Kress, Daniel, Mertes, Marcel, Kern, Roland, Egelhaaf, Martin, and Bischof, Hans-Joachim. “Gaze Strategy in the Free Flying Zebra Finch ($Taeniopygia$ $guttata$)”. PLOS ONE 3.12 (2008): e3956.
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Goller B, Altshuler DL., Proc. Natl. Acad. Sci. U.S.A. 111(51), 2014
PMID: 25489117
Involvement of vision in tool use in crow.
Kanai M, Matsui H, Watanabe S, Izawa E., Neuroreport 25(13), 2014
PMID: 25004080
Through the eyes of a bird: modelling visually guided obstacle flight.
Lin HT, Ros IG, Biewener AA., J R Soc Interface 11(96), 2014
PMID: 24812052
Texture dependence of motion sensing and free flight behavior in blowflies.
Lindemann JP, Egelhaaf M., Front Behav Neurosci 6(), 2012
PMID: 23335890
Spatial vision in insects is facilitated by shaping the dynamics of visual input through behavioral action.
Egelhaaf M, Boeddeker N, Kern R, Kurtz R, Lindemann JP., Front Neural Circuits 6(), 2012
PMID: 23269913
Avian ultraviolet/violet cones as magnetoreceptors: The problem of separating visual and magnetic information.
Bischof HJ, Nießner C, Peichl L, Wiltschko R, Wiltschko W., Commun Integr Biol 4(6), 2011
PMID: 22446535
Optic flow cues guide flight in birds.
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PMID: 22036184
Avian ultraviolet/violet cones identified as probable magnetoreceptors.
Niessner C, Denzau S, Gross JC, Peichl L, Bischof HJ, Fleissner G, Wiltschko W, Wiltschko R., PLoS ONE 6(5), 2011
PMID: 21647441
Probing the natural scene by echolocation in bats.
Moss CF, Surlykke A., Front Behav Neurosci 4(), 2010
PMID: 20740076
Acoustic scanning of natural scenes by echolocation in the big brown bat, Eptesicus fuscus.
Surlykke A, Ghose K, Moss CF., J. Exp. Biol. 212(Pt 7), 2009
PMID: 19282498

22 References

Data provided by Europe PubMed Central.

Depth perception in the pigeon: Looking for the participation of binocular cues.
Martinoya C, Bloch S., 1980
Visual fields and their functions in birds.
Martin GR., 2007
Constructing the three-dimensional Image.
McFadden SA., 1993
Optic flow.
Koenderink JJ., Vision Res. 26(1), 1986
PMID: 3716209
The perception of visual surfaces.
GIBSON JJ., Am J Psychol 63(3), 1950
PMID: 15432778

Vaina L, Beardsley S, Rushton S., 2004
Stabilizing gaze in flying blowflies.
Schilstra C, van Hateren JH., Nature 395(6703), 1998
PMID: 9790186
Blowfly flight and optic flow. I. Thorax kinematics and flight dynamics
Schilstra C, Hateren JH., J. Exp. Biol. 202 (Pt 11)(), 1999
PMID: 10229694
Blowfly flight and optic flow. II. Head movements during flight
Hateren JH, Schilstra C., J. Exp. Biol. 202 (Pt 11)(), 1999
PMID: 10229695
Optic flow-field variables trigger landing in hawk but not in pigeons.
Davies MN, Green PR., Naturwissenschaften 77(3), 1990
PMID: 2342582
The adaptability of visuomotor control in the Pigeon during landing flight.
Davies MNO, Green PR., 1991
Visual control of velocity of approach by pigeons when landing.
Lee DN, Davies MNO, Green PR, Vanderweel FRR., 1993
Stabilizing gaze reflexes in the pigeon ().1. Horizontal and vertical optokinetic eye (OKN) and head (OCR) reflexes.
Gioanni H., 1988
Stabilizing gaze reflexes in the pigeon ().2. Vestibulo-Ocular (VOR) and vestibulo-collic (Closed-Loop VCR) reflexes.
Gioanni H., 1988
Visual system alterations in White Zebra Finches.
Bredenkotter M, Engelage J, Bischof HJ., Brain Behav. Evol. 47(1), 1996
PMID: 8834782
Regulation of ipsilateral visual information within the tectofugal visual system in zebra finches.
Voss J, Bischof HJ., J. Comp. Physiol. A Neuroethol. Sens. Neural. Behav. Physiol. 189(7), 2003
PMID: 12811488
Visual navigation of a virtual blowfly.
Lindemann JP., 2005
3D photography on your desk.
Bouguet JY, Perona P., 1998
The optokinetic response in wild type and white zebra finches.
Eckmeier D, Bischof HJ., 2008

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