Quantum Speciation of Yersinia pestis Plague Microbe in a Heteroimmune Environment: In the Populations of Hibernating Tarbagan Marmots (Marmota sibirica)

This review is devoted to the ecological mechanism for the transformation of the population of the psychrophilic saprozoobiont pseudotuberculosis microbe Yersinia pseudotuberculosis O:1b into the population of the obligate blood plague microbe Yersinia pestis in the host–parasite system of the marmot flea (Marmota sibirica–Oropsylla silantiewi). The correspondence of this mechanism to the evolutionary principle of quantum speciation has been shown. The most significant population–genetic microbial transformations took place in the populations of hibernating marmots. The main factor of rapid speciation was the heterothermic and, accordingly, heteroimmune state of host marmots during hibernation. During winter awakenings, the body temperature of marmots increases in an S-shaped manner from 5 to 37°C within a short period of time (from dozens of minutes to several hours). A drastic acceleration of metabolic and immune processes occurs in the temperature range of 20–30°C. Rapid adaptation to the “explosive” increase in the immune activity of the primary host (tarbagan marmot) during its regular winter awakenings was the essence of the process of Y. pestis speciation.