The effect of rhizosphere bacterial community index (Irbi) influence on the nine populations of Antarctic hair grass (Deschampsia antarctica) adaptability was studied in the Galindez Island (summer season 2017/18). Moreover, the corresponding influence indices Irbi (i=1÷9) and Irbpi (p=1÷5 for the most common bacteria) were evaluated as well. The objective was to compare the Irbi and Irbpi series with the united temperature influence index on plant populations (It1i(z)) series and the united quality latent index of adaptability Iq1i. The study used data on the rhizosphere metagenome composition based on 16S RNA analysis. Methods determining the plant number in populations, and measuring the morphometric indices of D. antarctica populations were used. Reserve and protective seed proteins spectra were studied by polyacrylamide gel electrophoresis. Method of extreme grouping the spatial variables of these indices was applied for nine populations to obtain a Iq1I and It1i and Irbi, Irbpi. Sets of united indices were compared by regression technique. A comparative statistical analysis of the It1i and Irbi, Irbpi sets in this season was carried out. This possible influence appeared to be individual for each D. antarctica studied population. In each population, part of the plants reacted positively to the bacteria influence, while the other part either did not react or reacted negatively. Dependence of the plant adaptation indices on rhizospheric bacterial communities z(x) is shown in our data. This means that the rhizosphere bacterial community and temperature-dependent rhizosphere bacteria (x) can play an active role in plant adaptation of D. antarctica populations (z) to individual temperature conditions in the microscale of Galindez Island from a biological point of view.
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