Hyperbolic Circadian Rhythms in Plants

Jesús M. González-González

Abstract

The response of the plant to light and darkness presupposes a perception and measurement of time to adjust its internal metabolic and physiological rhythms. This explains why plants obtain advantages from circadian control. Helix-shaped structures and hyperbolic patterns are very common in nature. There are several hyperbolic curves in plant physiology, which have to do with the rate of transpiration, nutrient absorption, photosynthesis, and metabolic regulations of plants. The aim of this work is to study circadian rhythms in plants, in relation to the hyperbolic curves that occur in nature. Geomagnetic rhythms can act as a time clock to organize physiological rhythms. This means that the biorhythms of plants and animals follow hyperbolic curves, synchronized with the hyperbolic lines of the Earth’s magnetic field. The movement of light to the observer’s eye is through hyperbolic curves of space-time, similar to the hyperbolic curves of the lines of force of a magnet, the Earth’s magnetic field, and an electromagnetic field. When a moving plant organ moves away from or approaches a nearby observer, it does so following hyperbolic lines of force. There is a close relationship between many hyperbolic curves that occur in plant physiology and the hyperbolic curves of space-time that occur in nature. Plant circadian rhythms are related to the hyperbolic nature of light.

Keywords

plants; circadian; rhythms; medicine; hyperbolic; light; space; time; genetic; evolution.

Cite This Article

González-González, J. M. (2025). Hyperbolic Circadian Rhythms in Plants. International Journal of Scientific Advances (IJSCIA), Volume 6| Issue 4: Jul – Aug 2025, Pages 784-791 URL: https://www.ijscia.com/wp-content/uploads/2025/08/Volume6-Issue4-Jul-Aug-No.930-784-791.pdf

Volume 6 | Issue 4: Jul – Aug 2025