电磁感应流体流动作为生物体生物磁定向的一种可能机制。

Electromagnetically induced fluid streaming as a possible mechanism of the biomagnetic orientation of organisms.

作者信息

Bamberger S, Valet G, Storch F, Ruhenstroth-Bauer G

出版信息

Z Naturforsch C Biosci. 1978 Jan-Feb;33(1-2):159-60. doi: 10.1515/znc-1978-1-231.

DOI:10.1515/znc-1978-1-231

Abstract

The results show that both the direction and the intensity of the geomagnetic field can be sensed within the chamber of a Zeiss Cytopherometer. This suggests that electromagnetically induced fluid streaming might play a role in the perception of the geomagnetic field by organisms, although it is not clear at present in which organ the perception occurs. A basic requirement for such an organ would be an anisotropy of cells or cellular structures. The nervous system with its parallel axons, or specific cells associated with the nervous system, could thus be possible locations of the sensitivity towards magnetic fields.

摘要

结果表明，在蔡司细胞光度计的腔内能够感知地磁场的方向和强度。这表明，电磁感应引起的流体流动可能在生物体对地磁场的感知中发挥作用，尽管目前尚不清楚这种感知发生在哪个器官。对于这样一个器官的一个基本要求是细胞或细胞结构的各向异性。因此，具有平行轴突的神经系统或与神经系统相关的特定细胞可能是对磁场敏感的位置。

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