about
Number-based visual generalisation in the honeybeeFloral nectar guide patterns discourage nectar robbing by bumble beesVisual working memory in decision making by honey beesOlfactory interference during inhibitory backward pairing in honey beesCrypsis via leg clustering: twig masquerading in a spiderCorolla chirality does not contribute to directed pollen movement in Hypericum perforatum (Hypericaceae): mirror image pinwheel flowers function as radially symmetric flowers in pollinationSymmetry: modeling the effects of masking noise, axial cueing and salience.Aversive reinforcement improves visual discrimination learning in free-flying honeybees.Global perception in small brains: topological pattern recognition in honey bees.Functional Significance of Labellum Pattern Variation in a Sexually Deceptive Orchid (Ophrys heldreichii): Evidence of Individual Signature Learning Effects.Symmetry in context: salience of mirror symmetry in natural patternsObject Recognition in Flight: How Do Bees Distinguish between 3D Shapes?Exploring miniature insect brains using micro-CT scanning techniques.Visually guided decision making in foraging honeybees.Transgressive phenotypes and generalist pollination in the floral evolution of Nicotiana polyploids.Insect Bio-inspired Neural Network Provides New Evidence on How Simple Feature Detectors Can Enable Complex Visual Generalization and Stimulus Location Invariance in the Miniature Brain of Honeybees.Dimensions of cognition in an insect, the honeybee.Numerical cognition in bees and other insects.Linear and Non-Linear Visual Feature Learning in Rat and Humans.Sequential learning of relative size by the Neotropical ant Gigantiops destructor.A test of transitive inferences in free-flying honeybees: unsuccessful performance due to memory constraintsLooking for symmetry: fixational eye movements are biased by image mirror symmetryCognitive plasticity in foraging Vespula germanica wasps.Color Difference and Memory Recall in Free-Flying Honeybees: Forget the Hard Problem.The behavioral relevance of landmark texture for honeybee homing.Associative visual learning by tethered bees in a controlled visual environment.Getting to the start line: how bumblebees and honeybees are visually guided towards their first floral contact.Comparison of learning and memory of Apis cerana and Apis mellifera.Symmetry perception in bamboo sharks (Chiloscyllium griseum) and Malawi cichlids (Pseudotropheus sp.).Botany: floral fluorescence effect.Symmetry recognition by pigeons: Generalized or not?Opinion of the Scientific Panel on Animal Health and Welfare (AHAW) on a request from the Commission related to the aspects of the biology and welfare of animals used for experimental and other scientific purposesHemispatial asymmetries in judgment of stimulus size.Floral guidance of learning a preference for symmetry by bumblebees.Honeybees in a virtual reality environment learn unique combinations of colour and shape.Testing the influence of gravity on flower symmetry in five Saxifraga species.Symmetries in action: on the interactive nature of planning constraints for bimanual object manipulation.Blue colour preference in honeybees distracts visual attention for learning closed shapes.Floral asymmetry and predation risk modify pollinator behavior, but only predation risk decreases plant fitness.Conceptualization of above and below relationships by an insect.
P2860
Q21090078-D4CB89F3-9C4F-465E-A9EE-67D76D8750E3Q21133691-FB41ACD5-5676-4ED4-8CA4-C909B87AEB36Q24555746-EEBAAF1B-1E38-4460-868C-9D4E8B885E65Q27438163-4B47D89A-E2C7-4208-8F24-70FF70B14B70Q28646659-18AEFAB7-03DC-4681-B165-745B70103724Q30357037-50F525E9-A222-448D-B9D9-303E4F000B50Q33553186-E20DA21B-40E7-4EED-A149-E8DBB842BB94Q33728435-5A5A4320-63F7-4C1B-AD9D-929F6081A2F1Q35144654-F6B3FA2D-F6E1-431F-BCDA-E6EF6EE836E5Q35841908-F4E5380E-C4C8-423D-972D-5ADF962330EAQ35907107-3AB9F84D-B499-47EB-B95F-B2EE70BA8801Q35926003-0D6D686F-6A9B-48BC-83FE-AB8EEBF8C869Q35933387-3158A589-F287-4F10-A96B-78280A515D49Q36036301-FC3F6FB6-E7F7-4466-8DB6-38479EA791C7Q36097646-B46BA211-7C97-4E47-947B-5FBDB2AFDF7EQ36269573-916FB39E-3E6C-4B6F-9252-45F96A8ED18AQ36525531-91E72C72-E572-41D3-BCA0-ACFB1051954FQ36777435-25390966-3EE3-4F87-B1C6-701D12E28A86Q37529417-657FBBD6-6F32-472F-A441-AD40339A88E9Q38906977-0A921800-3190-4313-80BB-D92C49525675Q40901086-E4FD610E-719F-4A76-B8A6-3577AF16BCD2Q41058999-52193BED-7AD9-46B9-936C-4F28455E3AE5Q41205723-33876C55-4F18-4FB5-83D4-C8320B3DA42BQ41420697-5CBC4361-9757-4078-98EF-0EBCBD27E5ADQ42215338-F9192E15-43B4-4FBA-8EC8-8B307F685362Q42374271-B9061C9F-AA76-4AE4-8625-0EA4DE9F561AQ42943171-F94099BB-0F76-4532-AE87-E333219B5C9CQ45846751-DA4FEFAA-752B-4079-A64B-2A9E258E82DBQ46164827-4617D6F4-3C46-425C-A042-11E78FD68C41Q46703687-EFABB40A-473B-4BB1-9197-586F296B78B4Q47100121-37B19386-E505-4CFD-8967-44BE7CE70390Q47144125-C3B38AC5-5ED3-47E6-B377-9180564BA7AAQ47266344-02BE6FAC-45DB-462A-8D05-5D22A0058F98Q48151905-86015E0D-EC91-4842-A793-72320DEFCC0EQ48176390-984C47B8-0125-473C-AC9C-35B8711A81E5Q48342563-58CBB0E2-67D7-4A82-B9DC-88A0DB6D0C84Q48582447-32F0F1C1-E618-4C04-A35E-5C863231E531Q50230484-89803C5B-7F3B-48B1-9E19-1354122CF8BBQ51307773-A9FAC1D6-00F6-4A4F-A5C9-4D5B73129F97Q51895985-0C60EC1F-C49E-43EE-B5BC-0860F7CE7978
P2860
description
1996 nî lūn-bûn
@nan
1996年の論文
@ja
1996年学术文章
@wuu
1996年学术文章
@zh
1996年学术文章
@zh-cn
1996年学术文章
@zh-hans
1996年学术文章
@zh-my
1996年学术文章
@zh-sg
1996年學術文章
@yue
1996年學術文章
@zh-hant
name
Symmetry perception in an insect.
@en
Symmetry perception in an insect.
@nl
type
label
Symmetry perception in an insect.
@en
Symmetry perception in an insect.
@nl
prefLabel
Symmetry perception in an insect.
@en
Symmetry perception in an insect.
@nl
P356
P1433
P1476
Symmetry perception in an insect.
@en
P2093
P2888
P304
P356
10.1038/382458A0
P407
P577
1996-08-01T00:00:00Z
P5875
P6179
1013353941