%0 Journal Article %1 degen2016honeybees %A Degen, Jacqueline %A Kirbach, Andreas %A Reiter, Lutz %A Lehmann, Konstantin %A Norton, Philipp %A Storms, Mona %A Koblofsky, Miriam %A Winter, Sarah %A Georgieva, Petya B %A Nguyen, Hai %A Chamkhi, Hayfe %A Meyer, Hanno %A Singh, Pawan K %A Manz, Gisela %A Greggers, Uwe %A Menzel, Randolf %D 2016 %J Current Biology %K ag_degen_high degen_high %N 20 %P 2800--2804 %R 10.1016/j.cub.2016.08.013 %T Honeybees Learn Landscape Features during Exploratory Orientation Flights %U http://dx.doi.org/10.1016/j.cub.2016.08.013 %V 26 %X Exploration is an elementary and fundamental form of learning about the structure of the world 1?3. Little is known about what exactly is learned when an animal seeks to become familiar with the environment. Navigating animals explore the environment for safe return to an important place (e.g., a nest site) and to travel between places 4. Flying central-place foragers like honeybees (Apis mellifera) extend their exploration into distances from which the features of the nest cannot be directly perceived 5?10. Bees perform short-range and long-range orientations flights. Short-range flights are performed in the immediate surroundings of the hive and occur more frequently under unfavorable weather conditions, whereas long-range flights lead the bees into different sectors of the surrounding environment 11. Applying harmonic radar technology for flight tracking, we address the question of whether bees learn landscape features during their first short-range or long-range orientation flight. The homing flights of single bees were compared after they were displaced to areas explored or not explored during the orientation flight. Bees learn the landscape features during the first orientation flight since they returned faster and along straighter flights from explored areas as compared to unexplored areas. We excluded a range of possible factors that might have guided bees back to the hive based on egocentric navigation strategies (path integration, beacon orientation, and pattern matching of the skyline). We conclude that bees localize themselves according to learned ground structures and their spatial relations to the hive.

@article{degen2016honeybees, abstract = {Exploration is an elementary and fundamental form of learning about the structure of the world [1?3]. Little is known about what exactly is learned when an animal seeks to become familiar with the environment. Navigating animals explore the environment for safe return to an important place (e.g., a nest site) and to travel between places [4]. Flying central-place foragers like honeybees (Apis mellifera) extend their exploration into distances from which the features of the nest cannot be directly perceived [5?10]. Bees perform short-range and long-range orientations flights. Short-range flights are performed in the immediate surroundings of the hive and occur more frequently under unfavorable weather conditions, whereas long-range flights lead the bees into different sectors of the surrounding environment [11]. Applying harmonic radar technology for flight tracking, we address the question of whether bees learn landscape features during their first short-range or long-range orientation flight. The homing flights of single bees were compared after they were displaced to areas explored or not explored during the orientation flight. Bees learn the landscape features during the first orientation flight since they returned faster and along straighter flights from explored areas as compared to unexplored areas. We excluded a range of possible factors that might have guided bees back to the hive based on egocentric navigation strategies (path integration, beacon orientation, and pattern matching of the skyline). We conclude that bees localize themselves according to learned ground structures and their spatial relations to the hive.}, added-at = {2017-08-04T13:41:07.000+0200}, author = {Degen, Jacqueline and Kirbach, Andreas and Reiter, Lutz and Lehmann, Konstantin and Norton, Philipp and Storms, Mona and Koblofsky, Miriam and Winter, Sarah and Georgieva, Petya B and Nguyen, Hai and Chamkhi, Hayfe and Meyer, Hanno and Singh, Pawan K and Manz, Gisela and Greggers, Uwe and Menzel, Randolf}, biburl = {https://www.bibsonomy.org/bibtex/28b01b631368e98127cc78c1a45693791/zoologieii}, comment = {doi: 10.1016/j.cub.2016.08.013}, description = {Honeybees Learn Landscape Features during Exploratory Orientation Flights: Current Biology}, doi = {10.1016/j.cub.2016.08.013}, interhash = {e6503a649ad22e0e58b0e06e98fba390}, intrahash = {8b01b631368e98127cc78c1a45693791}, issn = {09609822}, journal = {Current Biology}, keywords = {ag_degen_high degen_high}, number = 20, pages = {2800--2804}, timestamp = {2023-12-18T11:10:41.000+0100}, title = {Honeybees Learn Landscape Features during Exploratory Orientation Flights}, url = {http://dx.doi.org/10.1016/j.cub.2016.08.013}, volume = 26, year = 2016 }