Abstract
The kinetics of biological reactions depends on the deuterium/protium (D/H) ratio in water. In this work, we describe the kinetic model of biocatalytic reactions in living organisms depending on the D/H ratio. We show that a change in the lifetime or other characteristics of the vital activity of some organisms in response to a decrease or increase in the content of deuterium in the environment can be a sign of a difference in taxons. For animals—this is a curve with saturation according to the Gauss’s principle, for plants—it is the Poisson dependence, for bacteria a weakly saturated curve with a slight reaction to the deuterium/protium ratio toward increasing deuterium. The biological activity of the aquatic environment with reduced, elevated, and natural concentrations of deuterium is considered. The results of the study are presented in different vital indicators of some taxons: the bacteria kingdom—the colony forming units (CFU) index (Escherichia coli); animals—the activation energy of the death of ciliates (Spirostomum ambiguum), embryogenesis of fish (Brachydanio rerio); plants—germination and accumulation of trace elements Callisia fragrans L., sprouting of gametophores and peptidomics of moss Physcomitrella patens. It was found that many organisms change their metabolism and activity, responding to both high and low concentrations of deuterium in water.
Highlights
All living objects contain a large amount of water, which is the habitat for many of them
It can be assumed that a change in the isotopic composition of water leads to a modification of the vital indicators of eukaryotes and prokaryotes
As a result of research, we determined the effect of different concentrations of deuterium in water on the change in the values of the indices of some groups of taxons
Summary
All living objects contain a large amount of water, which is the habitat for many of them. Nutrient (vital) substances enter the organism with water and metabolic products are removed by water [1,2]. The full absorption of nutrients as well as the complete removal of biotransformation products depend on the intensity and nature of the metabolism. The task of improving water quality, besides the purification, was added with the idea of changing its physicochemical properties or quality, in order to optimize metabolism processes [5]. Natural water contains hydrogen isotopes (protium, deuterium, and tritium) in different proportions. All living organisms are adapted to natural water with a constant ratio of protium and deuterium [6,7]. It can be assumed that a change in the isotopic composition of water leads to a modification of the vital indicators of eukaryotes and prokaryotes
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