How to stop a biological clock: Point of singularity

Engelmann, Wolfgang; Witte, Karl-Heinz

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Author

Engelmann, Wolfgang

Witte, Karl-Heinz

Date

2016-01

Version

Published Version

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Abstract

Many processes in organisms proceed rhythmically. There are, for instance, daily rhythms as adaptations to the 24 hour time structure of the environment, annual rhythms as adaptations to the course of the year, but also shorter rhythms without any correlate to the environment such as the heart beat and respiration. Such rhythms can be stopped by a disturbance by e.g a light pulse given at a certain time point of an oscillation with a special strength. Models show, that the underlying oscillator is brought from a limit cycle into a singular point. Examples for daily rhythms, for an annual rhythm, and for the heart beat are presented, in which the rhythm is stopped. How this property can be used in the praxis is demonstrated by the case of the sudden heart-circulation collaps and in the photoperiodic flower induction of a plant.

Keywords

Rhythm
oscillation
light
model
plant
animal
human
arhythmicity

DDC Classification

570 Biowissenschaften, Biologie
500 Naturwissenschaften

Extent

VI, 122 Seiten

Relation to another Publication

https://tobias-lib.uni-tuebingen.de/xmlui/handle/10900/67798
https://hlbrm.pur.hebis.de/xmlui/handle/123456789/366

Faculty

Fachbereich Ingenieurwesen

Link to publication

https://hlbrm.pur.hebis.de/xmlui/handle/123456789/367
https://tobias-lib.uni-tuebingen.de/xmlui/handle/10900/67800

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Publikationen [213]

BibTeX

@book{Engelmann2016,
    author={Engelmann, Wolfgang and Witte, Karl-Heinz},
    title={How to stop a biological clock: Point of singularity},
    edition={new edition 2015},
    pages={VI, 122 Seiten},
    month={01},
    year={2016},
    publisher={Tübingen},
    school={Hochschule RheinMain, Wiesbaden},
    url={https://hlbrm.pur.hebis.de/xmlui/handle/123456789/367}
}