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Publication Date1971, Rev. ed. --, ISBN 9780801406287, xviii, 157 p. illus.
Over half a century of brilliant scientific detective work, the Nobel Prize-winning biologist Karl von Frisch learned how the world, looks, smells, and tastes...
Bees | Biological Sciences | Zoology
Bees | Biological Sciences | Zoology
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Proceedings: Biological Sciences, ISSN 0962-8452, 9/2012, Volume 279, Issue 1742, pp. 3606 - 3615
Flowering plants in Australia have been geographically isolated for more than 34 million years. In the Northern Hemisphere, previous work has revealed a close...
Pollinating insects | Insect pollination | Color vision | Colors | Bumblebees | Evolution | Flowers | Plants | Angiosperms | Spectral reflectance | BIOLOGY | evolution | Research articles | Flower | Bee | Australia | Gondwana | Pollination | bee | pollination | WAVELENGTH DISCRIMINATION | SPECTRAL SENSITIVITY | BUMBLEBEES BOMBUS-TERRESTRIS | FORAGING SPEED | flower | INSECT POLLINATORS | EVOLUTIONARY BIOLOGY | ECOLOGY | HONEYBEE APIS-MELLIFERA | ANTIRRHINUM-MAJUS | FLOWER CONSTANCY | INNATE PREFERENCES | PETAL CELL-SHAPE | Species Specificity | Pigments, Biological - physiology | Victoria | Colorimetry | Phylogeny | Bees - physiology | Biological Evolution | Magnoliopsida - physiology | Animals | Flowers - physiology | Spectrophotometry | 1001 | The changing Earth | Naturvetenskap | Natural Sciences | Den föränderliga jorden
Pollinating insects | Insect pollination | Color vision | Colors | Bumblebees | Evolution | Flowers | Plants | Angiosperms | Spectral reflectance | BIOLOGY | evolution | Research articles | Flower | Bee | Australia | Gondwana | Pollination | bee | pollination | WAVELENGTH DISCRIMINATION | SPECTRAL SENSITIVITY | BUMBLEBEES BOMBUS-TERRESTRIS | FORAGING SPEED | flower | INSECT POLLINATORS | EVOLUTIONARY BIOLOGY | ECOLOGY | HONEYBEE APIS-MELLIFERA | ANTIRRHINUM-MAJUS | FLOWER CONSTANCY | INNATE PREFERENCES | PETAL CELL-SHAPE | Species Specificity | Pigments, Biological - physiology | Victoria | Colorimetry | Phylogeny | Bees - physiology | Biological Evolution | Magnoliopsida - physiology | Animals | Flowers - physiology | Spectrophotometry | 1001 | The changing Earth | Naturvetenskap | Natural Sciences | Den föränderliga jorden
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Loading RightsNATURE, ISSN 0028-0836, 09/2019, Volume 573, Issue 7775, pp. 467 - 467
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Loading RightsEcology and Evolution, ISSN 2045-7758, 08/2018, Volume 8, Issue 16, pp. 8159 - 8170
The development of color vision models has allowed the appraisal of color vision independent of the human experience. These models are now widely used in...
chromaticity diagram | receptor noise‐limited model | color hexagon | color space | color triangle | color vision model | Color triangle | Color vision model | Receptor noise-limited model | Chromaticity diagram | Color hexagon | Color space | Receptornoise-limited model | WHITE | DISTANCES | BEHAVIOR | CAMOUFLAGE | BEES | EVOLUTIONARY BIOLOGY | EVOLUTION | DISCRIMINATION | HEXAGON | OIL DROPLETS | ECOLOGY | RECEPTOR NOISE | receptor noise-limited model | Computer simulation | Color | Color measurement | Color vision | Vision | Acetylcholine receptors | Photoreceptors | Ecological monitoring | Physiology | Models | Chromaticity | Color blindness | Reflectance
chromaticity diagram | receptor noise‐limited model | color hexagon | color space | color triangle | color vision model | Color triangle | Color vision model | Receptor noise-limited model | Chromaticity diagram | Color hexagon | Color space | Receptornoise-limited model | WHITE | DISTANCES | BEHAVIOR | CAMOUFLAGE | BEES | EVOLUTIONARY BIOLOGY | EVOLUTION | DISCRIMINATION | HEXAGON | OIL DROPLETS | ECOLOGY | RECEPTOR NOISE | receptor noise-limited model | Computer simulation | Color | Color measurement | Color vision | Vision | Acetylcholine receptors | Photoreceptors | Ecological monitoring | Physiology | Models | Chromaticity | Color blindness | Reflectance
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Loading RightsJournal of Food Engineering, ISSN 0260-8774, 12/2014, Volume 143, pp. 167 - 177
Fruit classification is a difficult challenge due to the numerous types of fruits. In order to recognize fruits more accurately, we proposed a hybrid...
Unser’s texture analysis | Shape feature | Color histogram | Fitness-scaled chaotic artificial bee colony | Feedforward neural network | Unser's texture analysis | SYSTEM | FOOD SCIENCE & TECHNOLOGY | ALGORITHM | FILTERS | PATTERNS | COOCCURRENCE | GLCM | PREDICTION | IMAGE SEGMENTATION | ENGINEERING, CHEMICAL | SUPPORT VECTOR MACHINE | OPTIMIZATION | Machine vision | Neural networks | Accuracy | Algorithms | Classification | Images | Feedforward | Texture | Fruits
Unser’s texture analysis | Shape feature | Color histogram | Fitness-scaled chaotic artificial bee colony | Feedforward neural network | Unser's texture analysis | SYSTEM | FOOD SCIENCE & TECHNOLOGY | ALGORITHM | FILTERS | PATTERNS | COOCCURRENCE | GLCM | PREDICTION | IMAGE SEGMENTATION | ENGINEERING, CHEMICAL | SUPPORT VECTOR MACHINE | OPTIMIZATION | Machine vision | Neural networks | Accuracy | Algorithms | Classification | Images | Feedforward | Texture | Fruits
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Loading RightsAnnual Review of Entomology, ISSN 0066-4170, 01/2011, Volume 56, Issue 1, pp. 239 - 254
With their highly sensitive visual systems, nocturnal insects have evolved a remarkable capacity to discriminate colors, orient themselves using faint...
apposition compound eye | superposition compound eye | homing | neural summation | nocturnal vision | SUBSOCIAL SHIELD BUG | ABSOLUTE THRESHOLD | BEE MEGALOPTA-GENALIS | ENTOMOLOGY | FLYING SWEAT BEES | PARASTRACHIA-JAPONENSIS HETEROPTERA | TEMPORAL SUMMATION | POLARIZATION VISION | SUPERPOSITION EYES | LOW-LIGHT LEVELS | PARAPONERA-CLAVATA | Darkness | Animals | Night Vision | Ocular Physiological Phenomena | Insecta - physiology | Flight, Animal | Insecta - anatomy & histology | Nocturnal animals | Insects | Entomology | Animal navigation | Behavior | Research | Methods | Biological Sciences | Biologi | Naturvetenskap | Natural Sciences | Zoologi | Zoology
apposition compound eye | superposition compound eye | homing | neural summation | nocturnal vision | SUBSOCIAL SHIELD BUG | ABSOLUTE THRESHOLD | BEE MEGALOPTA-GENALIS | ENTOMOLOGY | FLYING SWEAT BEES | PARASTRACHIA-JAPONENSIS HETEROPTERA | TEMPORAL SUMMATION | POLARIZATION VISION | SUPERPOSITION EYES | LOW-LIGHT LEVELS | PARAPONERA-CLAVATA | Darkness | Animals | Night Vision | Ocular Physiological Phenomena | Insecta - physiology | Flight, Animal | Insecta - anatomy & histology | Nocturnal animals | Insects | Entomology | Animal navigation | Behavior | Research | Methods | Biological Sciences | Biologi | Naturvetenskap | Natural Sciences | Zoologi | Zoology
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Loading RightsAnnual Review of Entomology, ISSN 0066-4170, 01/2010, Volume 55, Issue 1, pp. 267 - 284
Among the so-called simpler organisms, the honey bee is one of the few examples of an animal with a highly evolved social structure, a rich behavioral...
Associative learning | Bee | Color vision | Pattern recognition | Counting | Maze learning | counting | bee | APIS-MELLIFERA | FLOWER-LIKE PATTERNS | BUMBLEBEES BOMBUS-TERRESTRIS | FORAGING SPEED | maze learning | ENTOMOLOGY | color vision | COLOR-VISION | MAZE NAVIGATION | associative learning | VISUAL-STIMULI | ANGULAR SENSITIVITY | COMPOUND EYES | ORIENTATION DISCRIMINATION | pattern recognition | Behavior, Animal | Learning | Animals | Compound Eye, Arthropod - physiology | Compound Eye, Arthropod - cytology | Visual Perception | Cognition | Bees - anatomy & histology | Color Vision | Bees - physiology | Entomology | Research
Associative learning | Bee | Color vision | Pattern recognition | Counting | Maze learning | counting | bee | APIS-MELLIFERA | FLOWER-LIKE PATTERNS | BUMBLEBEES BOMBUS-TERRESTRIS | FORAGING SPEED | maze learning | ENTOMOLOGY | color vision | COLOR-VISION | MAZE NAVIGATION | associative learning | VISUAL-STIMULI | ANGULAR SENSITIVITY | COMPOUND EYES | ORIENTATION DISCRIMINATION | pattern recognition | Behavior, Animal | Learning | Animals | Compound Eye, Arthropod - physiology | Compound Eye, Arthropod - cytology | Visual Perception | Cognition | Bees - anatomy & histology | Color Vision | Bees - physiology | Entomology | Research
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Loading RightsNew Phytologist, ISSN 0028-646X, 4/2013, Volume 198, Issue 1, pp. 301 - 310
Colour signals are a major cue in putative pollination syndromes. There is evidence that the reflectance spectra of many flowers target the distinctive visual...
Full papers | Pollinating insects | Insect pollination | Colors | Wavelengths | Birds | Evolution | Flowers | Plants | Spectral reflectance | Pollination | pollinator preferences | bee vision | angiosperms | pollination | chromatic signalling | avian vision | floral colour | Bee vision | Chromatic signalling | Avian vision | Pollinator preferences | Angiosperms | Floral colour | PARALLEL EVOLUTION | PHYLOGENY | BEE | DIVERSIFICATION | WAVELENGTH DISCRIMINATION | CONSTANCY | HUMMINGBIRD POLLINATION | PLANT SCIENCES | FLORAL COLOR | SYSTEMS | ULTRAVIOLET | Vision, Ocular - physiology | Animals | Analysis of Variance | Pigmentation - physiology | Color | Flowers - physiology | Phylogeny | Australia | Birds - physiology | Spectrum Analysis | Pollination - physiology | Discrimination | Invisibility | Analysis | Bees | Visual perception
Full papers | Pollinating insects | Insect pollination | Colors | Wavelengths | Birds | Evolution | Flowers | Plants | Spectral reflectance | Pollination | pollinator preferences | bee vision | angiosperms | pollination | chromatic signalling | avian vision | floral colour | Bee vision | Chromatic signalling | Avian vision | Pollinator preferences | Angiosperms | Floral colour | PARALLEL EVOLUTION | PHYLOGENY | BEE | DIVERSIFICATION | WAVELENGTH DISCRIMINATION | CONSTANCY | HUMMINGBIRD POLLINATION | PLANT SCIENCES | FLORAL COLOR | SYSTEMS | ULTRAVIOLET | Vision, Ocular - physiology | Animals | Analysis of Variance | Pigmentation - physiology | Color | Flowers - physiology | Phylogeny | Australia | Birds - physiology | Spectrum Analysis | Pollination - physiology | Discrimination | Invisibility | Analysis | Bees | Visual perception
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Loading RightsJournal of Comparative Physiology A, ISSN 0340-7594, 6/2014, Volume 200, Issue 6, pp. 411 - 433
Research in the honeybee has laid the foundations for our understanding of insect colour vision. The trichromatic colour vision of honeybees shares fundamental...
Life Sciences | Animal Physiology | Neurosciences | Honeybee | Models of colour discrimination | Colour learning | Zoology | Insect behaviour | Colour vision | DIFFERENT REGIONS | PHYSIOLOGY | APIS-MELLIFERA | VISUAL INTERNEURONS | SPECTRAL SENSITIVITY | CHROMATIC PROPERTIES | NEUROSCIENCES | INSECT POLLINATORS | PATTERN-RECOGNITION | ZOOLOGY | MONOPOLAR CELLS | BEHAVIORAL SCIENCES | COMPOUND EYE | ANTERIOR OPTIC TUBERCLE | Animals | Photoreceptor Cells, Invertebrate - classification | Sensory Thresholds - physiology | Models, Biological | Photoreceptor Cells, Invertebrate - physiology | Color Vision - physiology | Discrimination (Psychology) | Humans | Orientation | Bees - cytology | Bees - physiology | Color Perception - physiology | Noise control | Learning strategies | Analysis | Bees | Review
Life Sciences | Animal Physiology | Neurosciences | Honeybee | Models of colour discrimination | Colour learning | Zoology | Insect behaviour | Colour vision | DIFFERENT REGIONS | PHYSIOLOGY | APIS-MELLIFERA | VISUAL INTERNEURONS | SPECTRAL SENSITIVITY | CHROMATIC PROPERTIES | NEUROSCIENCES | INSECT POLLINATORS | PATTERN-RECOGNITION | ZOOLOGY | MONOPOLAR CELLS | BEHAVIORAL SCIENCES | COMPOUND EYE | ANTERIOR OPTIC TUBERCLE | Animals | Photoreceptor Cells, Invertebrate - classification | Sensory Thresholds - physiology | Models, Biological | Photoreceptor Cells, Invertebrate - physiology | Color Vision - physiology | Discrimination (Psychology) | Humans | Orientation | Bees - cytology | Bees - physiology | Color Perception - physiology | Noise control | Learning strategies | Analysis | Bees | Review
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Loading RightsJournal of Comparative Neurology, ISSN 0021-9967, 01/2016, Volume 524, Issue 1, pp. 160 - 175
ABSTRACT Animals use vision over a wide range of light intensities, from dim starlight to bright sunshine. For animals active in very dim light the visual...
lamina | spatial summation | nocturnal vision | lamina monopolar cells | RRID:AB_2315426 | compound eye | insect vision | hawkmoths | Lamina monopolar cells | Hawkmoths | Compound eye | Nocturnal vision | Insect vision | Lamina | Spatial summation | MUSCA-DOMESTICA | SPECTRAL RECEPTOR TYPES | BEE MEGALOPTA-GENALIS | VISUAL-SYSTEM | RETINAL NOISE | GOLGI | NEUROSCIENCES | 1ST OPTIC GANGLION | ZOOLOGY | LIGHT-ADAPTATION | NEURONS | BRAIN | Visual Perception - physiology | Brain - anatomy & histology | Species Specificity | Eye - anatomy & histology | Adaptation, Physiological - physiology | Behavior, Animal - physiology | Cell Size | Neurons - cytology | Photoperiod | Brain - physiology | Vision Tests | Animals | Moths - anatomy & histology | Neurons - physiology | Moths - physiology | Biological Sciences | Biologi | Naturvetenskap | Natural Sciences | Zoologi | Zoology
lamina | spatial summation | nocturnal vision | lamina monopolar cells | RRID:AB_2315426 | compound eye | insect vision | hawkmoths | Lamina monopolar cells | Hawkmoths | Compound eye | Nocturnal vision | Insect vision | Lamina | Spatial summation | MUSCA-DOMESTICA | SPECTRAL RECEPTOR TYPES | BEE MEGALOPTA-GENALIS | VISUAL-SYSTEM | RETINAL NOISE | GOLGI | NEUROSCIENCES | 1ST OPTIC GANGLION | ZOOLOGY | LIGHT-ADAPTATION | NEURONS | BRAIN | Visual Perception - physiology | Brain - anatomy & histology | Species Specificity | Eye - anatomy & histology | Adaptation, Physiological - physiology | Behavior, Animal - physiology | Cell Size | Neurons - cytology | Photoperiod | Brain - physiology | Vision Tests | Animals | Moths - anatomy & histology | Neurons - physiology | Moths - physiology | Biological Sciences | Biologi | Naturvetenskap | Natural Sciences | Zoologi | Zoology
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Loading Rights1997, Miroir du Moyen Age., ISBN 2503505570, 383
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FRONTIERS IN BEHAVIORAL NEUROSCIENCE, ISSN 1662-5153, 02/2016, Volume 10
Bombus terrestris is one of the most commonly used insect models to investigate visually guided behavior and spatial vision in particular. Two fundamental...
SPEED CONTROL | VISUAL-ACUITY | PSYCHOMETRIC FUNCTION | ACHROMATIC CUES | COLOR DISCRIMINATION | insect vision | OPTIC-FLOW | HONEYBEES | NEUROSCIENCES | contrast sensitivity | BEES | spatial vision | hymenoptera | spatial resolution | BEHAVIORAL SCIENCES | dual choice test | bumblebees
SPEED CONTROL | VISUAL-ACUITY | PSYCHOMETRIC FUNCTION | ACHROMATIC CUES | COLOR DISCRIMINATION | insect vision | OPTIC-FLOW | HONEYBEES | NEUROSCIENCES | contrast sensitivity | BEES | spatial vision | hymenoptera | spatial resolution | BEHAVIORAL SCIENCES | dual choice test | bumblebees
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Loading RightsPhilosophical Transactions of the Royal Society B: Biological Sciences, ISSN 0962-8436, 04/2017, Volume 372, Issue 1717, pp. 20160065 - 20160065
Colour discrimination is based on opponent photoreceptor interactions, and limited by receptor noise. In dim light, photon shot noise impairs colour vision,...
Visual ecology | Purkinje shift | Visual threshold | Colour vision | VISUAL SENSITIVITY | INFORMATION | ABSOLUTE THRESHOLD | RODS | RETINAL NOISE | colour vision | visual ecology | visual threshold | INTENSITY THRESHOLD | BIOLOGY | NOCTURNAL HAWKMOTHS | CONE | PHOTORECEPTORS | Darkness | Animals | Retinal Cone Photoreceptor Cells - physiology | Vertebrates - physiology | Insecta - physiology | Color Perception | Color Vision | Adaptations | Noise reduction | Noise | Rods | Moths | Bees | Visual tasks | Color vision | Light | Control rods | Frogs | Toads | Color | Visual signals | Mate selection | Visual discrimination | Prey | Luminous intensity | Vertebrates | Visual thresholds | Phototaxis | Discrimination | Insects | Cones | Animal behavior | Vision | Shot noise | Color blindness | 133 | 1001 | Review | Biological Sciences | Naturvetenskap | Zoologi | Zoology | Biologi | Natural Sciences
Visual ecology | Purkinje shift | Visual threshold | Colour vision | VISUAL SENSITIVITY | INFORMATION | ABSOLUTE THRESHOLD | RODS | RETINAL NOISE | colour vision | visual ecology | visual threshold | INTENSITY THRESHOLD | BIOLOGY | NOCTURNAL HAWKMOTHS | CONE | PHOTORECEPTORS | Darkness | Animals | Retinal Cone Photoreceptor Cells - physiology | Vertebrates - physiology | Insecta - physiology | Color Perception | Color Vision | Adaptations | Noise reduction | Noise | Rods | Moths | Bees | Visual tasks | Color vision | Light | Control rods | Frogs | Toads | Color | Visual signals | Mate selection | Visual discrimination | Prey | Luminous intensity | Vertebrates | Visual thresholds | Phototaxis | Discrimination | Insects | Cones | Animal behavior | Vision | Shot noise | Color blindness | 133 | 1001 | Review | Biological Sciences | Naturvetenskap | Zoologi | Zoology | Biologi | Natural Sciences
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