A `bright zone' in male hoverfly (Eristalis tenax) eyes and associated faster motion detection and increased contrast sensitivity

doi:10.1242/jeb.02517

QUICK SEARCH:

[advanced]

	Author:		Keyword(s):

Home Help Feedback Subscriptions Archive Search Table of Contents

First published online October 18, 2006
Journal of Experimental Biology 209, 4339-4354 (2006)
Published by The Company of Biologists 2006
doi: 10.1242/jeb.02517

This Article

Figures Only

Full Text

Full Text (PDF)

Alert me when this article is cited

Alert me if a correction is posted

Services

Email this article to a friend

Similar articles in this journal

Similar articles in PubMed

Alert me to new issues of the journal

Download to citation manager

Citing Articles

Citing Articles via HighWire

Citing Articles via Google Scholar

Google Scholar

Articles by Straw, A. D.

Articles by O'Carroll, D. C.

Search for Related Content

PubMed

PubMed Citation

Articles by Straw, A. D.

Articles by O'Carroll, D. C.

Social Bookmarking

What's this?

A `bright zone' in male hoverfly (Eristalis tenax) eyes and associated faster motion detection and increased contrast sensitivity

Andrew D. Straw¹^,*, Eric J. Warrant² and David C. O'Carroll¹

¹ Discipline of Physiology, School of Molecular and Biomedical Science, The University of Adelaide, SA 5005, Australia
² Vision Group, Department of Cell and Organism Biology, Lund University, Lund, Sweden

^* Author for correspondence at present address: California Institute of Technology, Bioengineering, Pasadena, CA 91125, USA (e-mail: astraw{at}caltech.edu)

Accepted 29 August 2006

Eyes of the hoverfly Eristalis tenax are sexually dimorphicsuch that males have a fronto-dorsal region of large facets.In contrast to other large flies in which large facets are associatedwith a decreased interommatidial angle to form a dorsal `acutezone' of increased spatial resolution, we show that a dorsalregion of large facets in males appears to form a `bright zone'of increased light capture without substantially increased spatialresolution. Theoretically, more light allows for increased performancein tasks such as motion detection. To determine the effect ofthe bright zone on motion detection, local properties of widefield motion detecting neurons were investigated using localizedsinusoidal gratings. The pattern of local preferred directionsof one class of these cells, the HS cells, in Eristalis is similarto that reported for the blowfly Calliphora. The bright zoneseems to contribute to local contrast sensitivity; high contrastsensitivity exists in portions of the receptive field servedby large diameter facet lenses of males and is not observedin females. Finally, temporal frequency tuning is also significantlyfaster in this frontal portion of the world, particularly inmales, where it overcompensates for the higher spatial-frequencytuning and shifts the predicted local velocity optimum to higherspeeds. These results indicate that increased retinal illuminancedue to the bright zone of males is used to enhance contrastsensitivity and speed motion detector responses. Additionally,local neural properties vary across the visual world in a way notexpected if HS cells serve purely as matched filters to measure yaw-inducedvisual motion.

Key words: insect vision, motion detection, sexual dimorphism

Add to CiteULike CiteULike Add to Complore Complore Add to Connotea Connotea Add to Del.icio.us Del.icio.us Add to Digg Digg Add to Reddit Reddit Add to Technorati Technorati Twitter What's this?

This article has been cited by other articles:

A. C. Paulk, A. M. Dacks, J. Phillips-Portillo, J.-M. Fellous, and W. Gronenberg
Visual Processing in the Central Bee Brain
J. Neurosci., August 12, 2009; 29(32): 9987 - 9999.
[Abstract] [Full Text] [PDF]

K. Nordstrom and D. C O'Carroll
The motion after-effect: local and global contributions to contrast sensitivity
Proc R Soc B, May 7, 2009; 276(1662): 1545 - 1554.
[Abstract] [Full Text] [PDF]

S. N. Fry, N. Rohrseitz, A. D. Straw, and M. H. Dickinson
Visual control of flight speed in Drosophila melanogaster
J. Exp. Biol., April 15, 2009; 212(8): 1120 - 1130.
[Abstract] [Full Text] [PDF]

D. J. Simons and M. S. Jensen
The effects of individual differences and task difficulty on inattentional blindness
Psychon Bull Rev, April 1, 2009; 16(2): 398 - 403.
[Abstract] [PDF]

A. C. Paulk, J. Phillips-Portillo, A. M. Dacks, J.-M. Fellous, and W. Gronenberg
The Processing of Color, Motion, and Stimulus Timing Are Anatomically Segregated in the Bumblebee Brain
J. Neurosci., June 18, 2008; 28(25): 6319 - 6332.
[Abstract] [Full Text] [PDF]

A. D. Straw, T. Rainsford, and D. C. O'Carroll
Contrast sensitivity of insect motion detectors to natural images
J Vis, March 1, 2008; 8(3): 32 - 32.
[Abstract] [Full Text] [PDF]

				K. Nordstrom and D. C O'Carroll The motion after-effect: local and global contributions to contrast sensitivity Proc R Soc B, May 7, 2009; 276(1662): 1545 - 1554. [Abstract] [Full Text] [PDF]

				S. N. Fry, N. Rohrseitz, A. D. Straw, and M. H. Dickinson Visual control of flight speed in Drosophila melanogaster J. Exp. Biol., April 15, 2009; 212(8): 1120 - 1130. [Abstract] [Full Text] [PDF]

				D. J. Simons and M. S. Jensen The effects of individual differences and task difficulty on inattentional blindness Psychon Bull Rev, April 1, 2009; 16(2): 398 - 403. [Abstract] [PDF]

				A. C. Paulk, J. Phillips-Portillo, A. M. Dacks, J.-M. Fellous, and W. Gronenberg The Processing of Color, Motion, and Stimulus Timing Are Anatomically Segregated in the Bumblebee Brain J. Neurosci., June 18, 2008; 28(25): 6319 - 6332. [Abstract] [Full Text] [PDF]

				A. D. Straw, T. Rainsford, and D. C. O'Carroll Contrast sensitivity of insect motion detectors to natural images J Vis, March 1, 2008; 8(3): 32 - 32. [Abstract] [Full Text] [PDF]