Looking all around: honeybees use different cues in different eye regions

Based on results of early as well as recent behavioural studies, the present review compares the performance of different eye regions in exploiting information on shape, colour and motion, relevant to the honeybee's foraging task. The comparisons reveal similarities, as well as differences, among the performances of various eye regions, depending on the visual parameter involved in the task under consideration. The outcome of the comparisons is discussed in the light of anatomical and optical regional specializations found in the bee's peripheral visual pathway, as well as in the light of the foraging bee's natural habits. It is concluded that the functional differences found among different eye regions are based on neural mechanisms subserving the bee's natural needs, rather than on peripheral specializations.

[1]  M. Srinivasan,et al.  Motion cues provide the bee's visual world with a third dimension , 1988, Nature.

[2]  M. Srinivasan,et al.  Visual Discrimination of Pattern Orientation by Honeybees: Performance and Implications for `Cortical' Processing , 1994 .

[3]  Zhang,et al.  Honeybee navigation en route to the goal: visual flight control and odometry , 1996, The Journal of experimental biology.

[4]  R. Wehner The ant’s celestial compass system: spectral and polarization channels , 1997 .

[5]  M V Srinivasan,et al.  Visual control of honeybee flight. , 1997, EXS.

[6]  Michael F. Land,et al.  Variations in the Structure and Design of Compound Eyes , 1989 .

[7]  W. Kaiser,et al.  Die optomotorischen Reaktionen von fixiert fliegenden Bienen bei Reizung mit Spektrallichtern , 1974, Journal of comparative physiology.

[8]  Giger,et al.  Honeybee vision: analysis of orientation and colour in the lateral, dorsal and ventral fields of view , 1997, The Journal of experimental biology.

[9]  K. Frisch Der Farbensinn und Formensinn der Biene , 1914 .

[10]  M. Srinivasan,et al.  Range perception through apparent image speed in freely flying honeybees , 1991, Visual Neuroscience.

[11]  Darrell Moore,et al.  Direction‐sensitive partitioning of the honeybee optomotor system , 1982 .

[12]  S. W. Zhang,et al.  Is pattern vision in insects mediated by 'cortical' processing? , 1993, Nature.

[13]  Karl von Frisch,et al.  Tanzsprache und Orientierung der Bienen , 1965 .

[14]  Zhang,et al.  Visually mediated odometry in honeybees , 1997, The Journal of experimental biology.

[15]  R. Wehner Spatial Vision in Arthropods , 1981 .

[16]  Franz Walcher,et al.  Visual deprivation and distance estimation in the praying mantis larva , 1994 .

[17]  Mandyam V. Srinivasan,et al.  Temporal acuity of honeybee vision: behavioural studies using flickering stimuli , 1984 .

[18]  S. W. Zhang,et al.  Prior experience enhances pattern discrimination in insect vision , 1994, Nature.

[19]  Mandyam V. Srinivasan,et al.  Active vision in honeybees: Task-oriented suppression of an innate behaviour , 1994, Vision Research.

[20]  M. Lehrer,et al.  HONEYBEE'S USE OF SPATIAL PARAMETERS FOR FLOWER DISCRIMINATION , 1997 .

[21]  George Adrian Horridge,et al.  Shape vision in bees: innate preference for flower-like patterns , 1995 .

[22]  Thomas S. Collett,et al.  SHORT COMMUNICATION PEERING - A LOCUST BEHAVIOUR PATTERN FOR OBTAINING MOTION PARALLAX INFORMATION , 1978 .

[23]  Thomas S. Collett,et al.  Landmark learning and guidance in insects , 1992 .

[24]  B. Schnetter,et al.  Experiments on Pattern Discrimination in Honey Bees , 1972 .

[25]  G. Horridge Review lecture: Apposition eyes of large diurnal insects as organs adapted to seeing , 1980, Proceedings of the Royal Society of London. Series B. Biological Sciences.

[26]  P. Kevan Flowers, insects, and pollination ecology in the Canadian high Arctic , 1973, Polar Record.

[27]  M. Srinivasan Pattern recognition in the honeybee: Recent progress , 1994 .

[28]  R. Wehner,et al.  The polarization-vision project: championing organismic biology , 1994 .

[29]  George Adrian Horridge,et al.  Bees can combine range and visual angle to estimate absolute size , 1992 .

[30]  M. Giurfa,et al.  FLORAL SYMMETRY AND ITS ROLE IN PLANT-POLLINATOR SYSTEMS: Terminology, Distribution, and Hypotheses , 1998 .

[31]  Mandyam V. Srinivasan,et al.  Visual edge detection in the honeybee and its chromatic properties , 1990, Proceedings of the Royal Society of London. B. Biological Sciences.

[32]  R. Menzel,et al.  Symmetry perception in an insect , 1996, Nature.

[33]  H. Autrum,et al.  Die Verschmelzungsfrequenzen des Bienenauges , 1950 .

[34]  G A. Horridge Spatial coincidence of cues in visual learning by the honeybee (Apis mellifera). , 1998, Journal of insect physiology.

[35]  T. Collett,et al.  Convergent processing in honeybee vision: multiple channels for the recognition of shape. , 1995, Proceedings of the National Academy of Sciences of the United States of America.

[36]  S. Zhang,et al.  Visual tracking of moving targets by freely flying honeybees , 1990, Visual Neuroscience.

[37]  George Adrian Horridge,et al.  A theory of insect vision: velocity parallax , 1986, Proceedings of the Royal Society of London. Series B. Biological Sciences.

[38]  Rüdiger Wehner,et al.  The POL area of the honey bee's eye: behavioural evidence , 1985 .

[39]  R. Wehner Pattern Modulation and Pattern Detection in the Visual System of Hymenoptera , 1972 .

[40]  Esch,et al.  Distance estimation by foraging honeybees , 1996, The Journal of experimental biology.

[41]  B. A. Cartwright,et al.  Short Communications: How Honey-Bees Know their Distance from a Near-By Visual Landmark , 1979 .

[42]  G. K. Wallace Visual Scanning in the Desert Locust Schistocerca Gregaria Forskål , 1959 .

[43]  Alun M. Anderson Parameters determining the attractiveness of stripe patterns in the honey bee , 1977, Animal Behaviour.

[44]  E. Wolf,et al.  THE EFFECT OF LIGHT INTENSITY, AREA, AND FLICKER FREQUENCY ON THE VISUAL REACTIONS OF THE HONEY BEE , 1935, The Journal of general physiology.

[45]  M. Egelhaaf,et al.  Edge detection by landing honeybees: Behavioural analysis and model simulations of the underlying mechanism , 1997, Vision Research.

[46]  Randolf Menzel,et al.  THE ECOLOGY OF FLOWER COLOURS AND THE NATURAL COLOUR VISION OF INSECT POLLINATORS: THE ISRAELI FLORA AS A STUDY CASE , 1993 .

[47]  J. Free Effect of Flower Shapes and Nectar Guides On the Behaviour of Foraging Honeybees , 1970 .

[48]  George Adrian Horridge,et al.  The honeybee (Apis mellifera) detects bilateral symmetry and discriminates its axis , 1996 .

[49]  M. Srinivasan,et al.  Visual figure–ground discrimination in the honeybee: the role of motion parallax at boundaries , 1990, Proceedings of the Royal Society of London. B. Biological Sciences.

[50]  Miriam Lehrer,et al.  Spatial vision in the honeybee: the use of different cues in different tasks , 1994, Vision Research.

[51]  Michael F. Land THE RESOLUTION OF INSECT COMPOUND EYES , 1997 .