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• W2023382116 abstract "Insects maintain a constant bearing across a wide range of spatial scales. Monarch butterflies and locusts traverse continents [1Wehner R. Astronavigation in insects.Annu. Rev. Entomol. 1984; 29: 277-298Crossref Scopus (101) Google Scholar, 2Williams C.B. Insect migration.Annu. Rev. Entomol. 1957; 2: 163-180Crossref Google Scholar], and foraging bees and ants travel hundreds of meters to return to their nests [1Wehner R. Astronavigation in insects.Annu. Rev. Entomol. 1984; 29: 277-298Crossref Scopus (101) Google Scholar, 3Dyer F.C. Spatial memory and navigation by honeybees on the scale of the foraging range.J. Exp. Biol. 1996; 199: 147-154PubMed Google Scholar, 4Wehner R. Desert ant navigation: how miniature brains solve complex tasks.J. Comp. Physiol. A Neuroethol. Sens. Neural Behav. Physiol. 2003; 189: 579-588Crossref PubMed Scopus (419) Google Scholar], whereas many other insects fly straight for only a few centimeters before changing direction. Despite this variation in spatial scale, the brain region thought to underlie long-distance navigation is remarkably conserved [5Homberg U. Evolution of the central complex in the arthropod brain with respect to the visual system.Arthropod Struct. Dev. 2008; 37: 347-362Crossref PubMed Scopus (116) Google Scholar, 6Loesel R. Nässel D.R. Strausfeld N.J. Common design in a unique midline neuropil in the brains of arthropods.Arthropod Struct. Dev. 2002; 31: 77-91Crossref PubMed Scopus (124) Google Scholar], suggesting that the use of a celestial compass is a general and perhaps ancient capability of insects. Laboratory studies of Drosophila have identified a local search mode in which short, straight segments are interspersed with rapid turns [7Bender J.A. Dickinson M.H. Visual stimulation of saccades in magnetically tethered Drosophila.J. Exp. Biol. 2006; 209: 3170-3182Crossref PubMed Scopus (74) Google Scholar, 8Mayer M. Vogtmann K. Bausenwein B. Wolf R. Heisenberg M. Flight control during free yaw turns in Drosophila melanogaster.J. Comp. Physiol. A Neuroethol. Sens. Neural Behav. Physiol. 1988; 163: 389-399Crossref Scopus (40) Google Scholar]. However, this flight mode is inconsistent with measured gene flow between geographically separated populations [9Jones J.S. Bryant S.H. Lewontin R.C. Moore J.A. Prout T. Gene flow and the geographical distribution of a molecular polymorphism in Drosophila pseudoobscura.Genetics. 1981; 98: 157-178PubMed Google Scholar, 10Slatkin M. Gene flow in natural populations.Annu. Rev. Ecol. Syst. 1985; 16: 393-430Crossref Scopus (1559) Google Scholar, 11Turelli M. Hoffmann A.A. Rapid spread of an inherited incompatibility factor in California Drosophila.Nature. 1991; 353: 440-442Crossref PubMed Scopus (455) Google Scholar], and individual Drosophila can travel 10 km across desert terrain in a single night [9Jones J.S. Bryant S.H. Lewontin R.C. Moore J.A. Prout T. Gene flow and the geographical distribution of a molecular polymorphism in Drosophila pseudoobscura.Genetics. 1981; 98: 157-178PubMed Google Scholar, 12Coyne J.A. Boussy I.A. Prout T. Bryant S.H. Jones J.S. Moore J.A. Long-distance migration of Drosophila.Am. Nat. 1982; 119: 589-595Crossref Google Scholar, 13Coyne J.A. Bryant S.H. Turelli M. Long-distance migration of Drosophila. 2. Presence in desolate sites and dispersal near a desert oasis.Am. Nat. 1987; 129: 847-861Crossref Scopus (49) Google Scholar]—a feat that would be impossible without prolonged periods of straight flight. To directly examine orientation behavior under outdoor conditions, we built a portable flight arena in which a fly viewed the natural sky through a liquid crystal device that could experimentally rotate the polarization angle. Our findings indicate that Drosophila actively orient using the sky's natural polarization pattern." @default.
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• W2023382116 date "2012-01-01" @default.
• W2023382116 modified "2023-10-13" @default.
• W2023382116 title "Flying Drosophila Orient to Sky Polarization" @default.
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• W2023382116 doi "https://doi.org/10.1016/j.cub.2011.11.026" @default.
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