Visual position stabilization in the hummingbird hawk moth, *Macroglossum stellatarum L.* I. Behavioural analysis

Kern R, Varju D. Visual position stabilization in the hummingbird hawk moth, *Macroglossum stellatarum L.* I. Behavioural analysis. JOURNAL OF COMPARATIVE PHYSIOLOGY A-SENSORY NEURAL AND BEHAVIORAL PHYSIOLOGY. 1998;182(2):225-237.

Kern, R., & Varju, D. (1998). Visual position stabilization in the hummingbird hawk moth, *Macroglossum stellatarum L.* I. Behavioural analysis. JOURNAL OF COMPARATIVE PHYSIOLOGY A-SENSORY NEURAL AND BEHAVIORAL PHYSIOLOGY, 182(2), 225-237. doi:10.1007/s003590050173

Kern, R., and Varju, D. (1998). Visual position stabilization in the hummingbird hawk moth, *Macroglossum stellatarum L.* I. Behavioural analysis. JOURNAL OF COMPARATIVE PHYSIOLOGY A-SENSORY NEURAL AND BEHAVIORAL PHYSIOLOGY 182, 225-237.

Kern, R., & Varju, D., 1998. Visual position stabilization in the hummingbird hawk moth, *Macroglossum stellatarum L.* I. Behavioural analysis. JOURNAL OF COMPARATIVE PHYSIOLOGY A-SENSORY NEURAL AND BEHAVIORAL PHYSIOLOGY, 182(2), p 225-237.

R. Kern and D. Varju, “Visual position stabilization in the hummingbird hawk moth, *Macroglossum stellatarum L.* I. Behavioural analysis”, JOURNAL OF COMPARATIVE PHYSIOLOGY A-SENSORY NEURAL AND BEHAVIORAL PHYSIOLOGY, vol. 182, 1998, pp. 225-237.

Kern, R., Varju, D.: Visual position stabilization in the hummingbird hawk moth, *Macroglossum stellatarum L.* I. Behavioural analysis. JOURNAL OF COMPARATIVE PHYSIOLOGY A-SENSORY NEURAL AND BEHAVIORAL PHYSIOLOGY. 182, 225-237 (1998).

Kern, Roland, and Varju, D. “Visual position stabilization in the hummingbird hawk moth, *Macroglossum stellatarum L.* I. Behavioural analysis”. JOURNAL OF COMPARATIVE PHYSIOLOGY A-SENSORY NEURAL AND BEHAVIORAL PHYSIOLOGY 182.2 (1998): 225-237.

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Motion as a source of environmental information: a fresh view on biological motion computation by insect brains.
Egelhaaf M, Kern R, Lindemann JP., Front Neural Circuits 8(), 2014
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Cooperative integration and representation underlying bilateral network of fly motion-sensitive neurons.
Suzuki Y, Morimoto T, Miyakawa H, Aonishi T., PLoS ONE 9(1), 2014
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Vision-based flight control in the hawkmoth Hyles lineata.
Windsor SP, Bomphrey RJ, Taylor GK., J R Soc Interface 11(91), 2014
PMID: 24335557

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

Chromatic signals control proboscis movements during hovering flight in the hummingbird hawkmoth Macroglossum stellatarum.
Goyret J, Kelber A., PLoS ONE 7(4), 2012
PMID: 22529922

Neural specialization for hovering in hummingbirds: hypertrophy of the pretectal nucleus Lentiformis mesencephali.
Iwaniuk AN, Wylie DR., J. Comp. Neurol. 500(2), 2007
PMID: 17111358

Synaptic interactions increase optic flow specificity.
Horstmann W, Egelhaaf M, Warzecha AK., Eur. J. Neurosci. 12(6), 2000
PMID: 10886355

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