Evidence for Geomagnetic Imprinting as a Homing Mechanism in Pacific Salmon

Evidence for Geomagnetic Imprinting as a Homing Mechanism in Pacific Salmon

In the final phase of their spawning migration, Pacific salmon use chemical cues to identify their home river, but how they navigate from the open ocean to the correct coastal area has remained enigmatic [1]. To test the hypothesis that salmon imprint on the magnetic field that exists where they fir...

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Veröffentlicht in:Current biology 2013-02, Vol.23 (4), p.312-316
Hauptverfasser: Putman, Nathan F., Lohmann, Kenneth J., Putman, Emily M., Quinn, Thomas P., Klimley, A. Peter, Noakes, David L.G.
Format: Artikel
Sprache:eng
Schlagworte:
Animal Migration - physiology
Animals
Breeding
coasts
data collection
Feeding Behavior
fisheries
Imprinting (Psychology)
latitude
Magnetic Fields
migratory behavior
Oceans and Seas
Oncorhynchus nerka
Reproduction
Rivers
salmon
Salmon - physiology
Salmonidae
spawning
surface water temperature
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container_end_page 316
container_issue 4
container_start_page 312
container_title Current biology
container_volume 23
creator Putman, Nathan F.
Lohmann, Kenneth J.
Putman, Emily M.
Quinn, Thomas P.
Klimley, A. Peter
Noakes, David L.G.
description In the final phase of their spawning migration, Pacific salmon use chemical cues to identify their home river, but how they navigate from the open ocean to the correct coastal area has remained enigmatic [1]. To test the hypothesis that salmon imprint on the magnetic field that exists where they first enter the sea and later seek the same field upon return [2–4], we analyzed a 56-year fisheries data set on Fraser River sockeye salmon, which must detour around Vancouver Island to approach the river through either a northern or southern passageway [5, 6]. We found that the proportion of salmon using each route was predicted by geomagnetic field drift: the more the field at a passage entrance diverged from the field at the river mouth, the fewer fish used the passage. We also found that more fish used the northern passage in years with warmer sea surface temperature (presumably because fish were constrained to more northern latitudes). Field drift accounted for 16% of the variation in migratory route used, temperature 22%, and the interaction between these variables 28%. These results provide the first empirical evidence of geomagnetic imprinting in any species and imply that forecasting salmon movements is possible using geomagnetic models. [Display omitted] ► Sockeye salmon use geomagnetic imprinting as a homing mechanism ► The homing route of salmon is predicted by magnetic field drift (secular variation)
doi_str_mv 10.1016/j.cub.2012.12.041
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To test the hypothesis that salmon imprint on the magnetic field that exists where they first enter the sea and later seek the same field upon return [2–4], we analyzed a 56-year fisheries data set on Fraser River sockeye salmon, which must detour around Vancouver Island to approach the river through either a northern or southern passageway [5, 6]. We found that the proportion of salmon using each route was predicted by geomagnetic field drift: the more the field at a passage entrance diverged from the field at the river mouth, the fewer fish used the passage. We also found that more fish used the northern passage in years with warmer sea surface temperature (presumably because fish were constrained to more northern latitudes). Field drift accounted for 16% of the variation in migratory route used, temperature 22%, and the interaction between these variables 28%. These results provide the first empirical evidence of geomagnetic imprinting in any species and imply that forecasting salmon movements is possible using geomagnetic models. 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These results provide the first empirical evidence of geomagnetic imprinting in any species and imply that forecasting salmon movements is possible using geomagnetic models. 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source MEDLINE; Cell Press Free Archives; Elsevier ScienceDirect Journals; Elektronische Zeitschriftenbibliothek - Frei zugängliche E-Journals
subjects Animal Migration - physiology
Animals
Breeding
coasts
data collection
Feeding Behavior
fisheries
Imprinting (Psychology)
latitude
Magnetic Fields
migratory behavior
Oceans and Seas
Oncorhynchus nerka
Reproduction
Rivers
salmon
Salmon - physiology
Salmonidae
spawning
surface water temperature
title Evidence for Geomagnetic Imprinting as a Homing Mechanism in Pacific Salmon
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