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Literature DB >> 16133498

Equatorial sandhoppers use body scans to detect the earth's magnetic field.

Abstract

Adults of Talorchestia martensii were individually released in a confined environment, with and without the natural magnetic field, under the sun and in a dark room. The sandhoppers scanned the horizontal component of the magnetic field by left and right oscillations of the entire major body axis. The frequency of this behaviour increased in a zeroed magnetic field, as did the frequencies of other behavioural indicators that reflect the difficulty in identifying the ecologically efficient orientation direction (sea-land axis). Therefore, like head scans in birds, body scans seem to be used by equatorial sandhoppers to detect the magnetic symmetry plane.

Entities: Disease Species

Mesh：

Year: 2005 PMID： 16133498 DOI： 10.1007/s00359-005-0046-9

Source DB: PubMed Journal: J Comp Physiol A Neuroethol Sens Neural Behav Physiol ISSN： 0340-7594 Impact factor: 1.836

6 in total

1. Ultrastructural analysis of a putative magnetoreceptor in the beak of homing pigeons.

Authors: Gerta Fleissner; Elke Holtkamp-Rötzler; Marianne Hanzlik; Michael Winklhofer; Günther Fleissner; Nikolai Petersen; Wolfgang Wiltschko
Journal: J Comp Neurol Date: 2003-04-14 Impact factor: 3.215

2. Cryptochromes and neuronal-activity markers colocalize in the retina of migratory birds during magnetic orientation.

Authors: Henrik Mouritsen; Ulrike Janssen-Bienhold; Miriam Liedvogel; Gesa Feenders; Julia Stalleicken; Petra Dirks; Reto Weiler
Journal: Proc Natl Acad Sci U S A Date: 2004-09-20 Impact factor: 11.205

3. The orientation of the sandhopper Talitrus saltator during a partial solar eclipse.

Authors: A Ugolini; C Castellini; B Tiribilli
Journal: J Comp Physiol A Neuroethol Sens Neural Behav Physiol Date: 2004-09-04 Impact factor: 1.836

4. Migratory birds use head scans to detect the direction of the earth's magnetic field.

Authors: Henrik Mouritsen; Gesa Feenders; Miriam Liedvogel; Wiebke Kropp
Journal: Curr Biol Date: 2004-11-09 Impact factor: 10.834

5. Structure and function of the vertebrate magnetic sense.

Authors: M M Walker; C E Diebel; C V Haugh; P M Pankhurst; J C Montgomery; C R Green
Journal: Nature Date: 1997-11-27 Impact factor: 49.962

6. Retinal cryptochrome in a migratory passerine bird: a possible transducer for the avian magnetic compass.

Authors: Andrea Möller; Sven Sagasser; Wolfgang Wiltschko; Bernd Schierwater
Journal: Naturwissenschaften Date: 2004-11-17

6 in total

7 in total

1. Photoreceptor-based magnetoreception: optimal design of receptor molecules, cells, and neuronal processing.

Authors: Thorsten Ritz; Margaret Ahmad; Henrik Mouritsen; Roswitha Wiltschko; Wolfgang Wiltschko
Journal: J R Soc Interface Date: 2010-02-03 Impact factor: 4.118

2. Magnetic orientation of the Common Toad: establishing an arena approach for adult anurans.

Authors: Lukas Landler; Günter Gollmann
Journal: Front Zool Date: 2011-03-21 Impact factor: 3.172

3. Tenebrio beetles use magnetic inclination compass.

Authors: Martin Vácha; Dana Drstková; Tereza Půzová
Journal: Naturwissenschaften Date: 2008-04-11

4. Similar circling movements observed across marine megafauna taxa.

Authors: Tomoko Narazaki; Itsumi Nakamura; Kagari Aoki; Takashi Iwata; Kozue Shiomi; Paolo Luschi; Hiroyuki Suganuma; Carl G Meyer; Rui Matsumoto; Charles A Bost; Yves Handrich; Masao Amano; Ryosuke Okamoto; Kyoichi Mori; Stéphane Ciccione; Jérôme Bourjea; Katsufumi Sato
Journal: iScience Date: 2021-03-18