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41 results on '"Kichko, Arina"'

1. Creation of Cellulolytic Communities of Soil Microorganisms—A Search for Optimal Approaches.

Author

Zverev, Aleksei O., Kimeklis, Anastasiia K., Orlova, Olga V., Lisina, Tatiana O., Kichko, Arina A., Pinaev, Alexandr G., Lapidus, Alla L., Abakumov, Evgeny V., and Andronov, Evgeny E.

Subjects
PLANT growing media, PLANT residues, MICROBIAL communities, BIOCHEMICAL substrates, PODZOL
Abstract

For the targeted selection of microbial communities that provide cellulose degradation, soil samples containing cellulolytic microorganisms and specific plant residues as a substrate can be used. The details of this process have not been studied: in particular, whether the use of different soils determines the varying efficiency of communities; whether these established cellulolytic communities will have substrate specificity, and other factors. To answer these questions, four soil microbial communities with different cellulolytic activity (Podzol and the soil of Chernevaya taiga) and substrates (oat straw and hemp shives) with different levels of cellulose availability were used, followed by trained communities that were tested on botrooth substrates (in all possible combinations). Based on the analysis of the taxonomic structure of all communities and their efficiency across all substrates (decomposition level, carbon, and nitrogen content), it was shown that the most important taxa of all trained microbial cellulolytic communities are recruited from secondary soil taxa. The original soil does not affect the efficiency of cellulose decomposition: both soils produce equally active communities. Unexpectedly, the resulting communities trained on oats were more effective on hemp than the communities trained on hemp. In general, the usage of pre-trained microbial communities increases the efficiency of decomposition. [ABSTRACT FROM AUTHOR]

Published
2024
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3. Structure of Microbial Community in Forest and Anthropogenic Changed Soils of Megalopolis (St. Petersburg, Russia)

Author

Aparin, Boris F., Sukhacheva, Elena Yu., Kichko, Arina A., Andronov, Evgeny E., Valchenko, Yaroslavna V., Blondel, Philippe, Series Editor, Reitner, Joachim, Series Editor, Stüwe, Kurt, Series Editor, Trauth, Martin H., Series Editor, Yuen, David A., Series Editor, Friedman, G.M., Founding Editor, Seilacher, A., Founding Editor, Frank-Kamenetskaya, Olga V., editor, Vlasov, Dmitry Yu., editor, Panova, Elena G., editor, and Lessovaia, Sofia N., editor

Published
2020
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4. Metabolome and Mycobiome of Aegilops tauschii Subspecies Differing in Susceptibility to Brown Rust and Powdery Mildew Are Diverse.

Author

Pishchik, Veronika N., Chizhevskaya, Elena P., Kichko, Arina A., Aksenova, Tatiana S., Andronov, Evgeny E., Chebotar, Vladimir K., Filippova, Polina S., Shelenga, Tatiana V., Belousova, Maria H., and Chikida, Nadezhda N.

Subjects
PIPECOLIC acid, POWDERY mildew diseases, BIOLOGICAL pest control agents, SALICYLIC acid, FUNGAL communities
Abstract

The present study demonstrated the differences in the seed metabolome and mycobiome of two Aegilops tauschii Coss accessions with different resistance to brown rust and powdery mildew. We hypothesized that the seeds of resistant accession k-1958 Ae. tauschii ssp. strangulata can contain a larger number of metabolites with antifungal activity compared with the seeds of susceptible Ae. tauschii ssp meyeri k-340, which will determine differences in the seed fungal community. Our study emphasizes the differences in the seed metabolome of the studied Ae. tauschii accessions. The resistant accession k-1958 had a higher content of glucose and organic acids, including pyruvic, salicylic and azelaic acid, as well as pipecolic acids, galactinol, glycerol and sitosterol. The seeds of Ae. tauschii-resistant accession k-1958 were found to contain more active substances with antifungal activity. The genera Cladosporium and Alternaria were dominant in the seed mycobiome of the resistant accession. The genera Alternaria, Blumeria and Cladosporium dominated in seed mycobiome of susceptible accession k-340. In the seed mycobiome of the resistant k-1958, a higher occurrence of saprotrophic micromycetes was found, and many of the micromycetes were biocontrol agents. It was concluded that differences in the seed metabolome of Ae. tauschii contributed to the determination of the differences in mycobiomes. [ABSTRACT FROM AUTHOR]

Published
2024
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5. Dynamics of Cellulose Degradation by Soil Microorganisms from Two Contrasting Soil Types.

Author

Gladkov, Grigory V., Kimeklis, Anastasiia K., Orlova, Olga V., Lisina, Tatiana O., Kichko, Arina A., Bezlepsky, Alexander D., and Andronov, Evgeny E.

Subjects
SOIL degradation, CHERNOZEM soils, SOIL classification, SOIL respiration, SOIL microbiology
Abstract

The search for active cellulolytic consortia among soil microorganisms is of significant applied interest, but the dynamics of the formation of such communities remain insufficiently studied. To gain insight into the formation of an active cellulolytic community, the experiment was designed to examine the colonization of a sterile substrate (cellulose) by microorganisms from two soil types: sod-podzolic and chernozem. To achieve this, the substrate was placed in the soil and incubated for six months. To assess microbiome dynamics, the experiment employed sequencing of 16S rRNA gene fragment and ITS2 amplicon libraries at four time points. It was demonstrated that, from the second month of the experiment, the prokaryotic component of the communities reached a state of stability, with a community composition specific to each soil type. The results demonstrated no relationship between changes in community diversity and soil respiration. There also was no significant shift in the community diversity throughout the chronosequence. Furthermore, the taxonomic composition of the community shifted towards a decrease in the proportion of Pseudomonadota and an increase in representatives of the Bacteroidota, Bacillota, and Verrucomicrobiota phyla. The network analysis of the community demonstrated that, in contrast to sod-podzolic soil, chernozem is distinguished by a higher modularity, with the formation of taxon-specific groups of microorganisms at each stage of the chronoseries. These differences are attributed to the alterations in the eukaryotic component of the community, particularly in the prevalence of nematodes and predatory fungi, which in turn influenced the cellulolytic community. [ABSTRACT FROM AUTHOR]

Published
2024
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6. Soil microbiome of different-aged stages of self-restoration of ecosystems on the mining heaps of limestone quarry (Elizavetino, Leningrad region)

Author

Abakumov Eveny, Zverev Alexey, Kichko Arina, Kimeklis Anastasia, and Andronov Evgeny

Subjects
microbiome, soil, self-restoration, high-throughput sequencing, north-west russia, Agriculture, Agriculture (General), S1-972
Abstract

Soil microbiome plays an important role in soil forming process as well as soil functioning. This is especially relevant for initial stages of soil regeneration after strong anthropogenic impact (i.e., in quarrying complexes). The study of soil microbiome in such areas is crucial for both understanding the forces driving soil formation and optimization of the reclamation techniques. This study is aimed to investigate the soil microbiome of different ages of soil formation on the heaps of limestone mines in conditions of boreal climate of North-West of Russia. Soil microbiome analysis was performed using high-throughput sequencing. Soils of the investigated sites were predominantly Rhendzic Leptosols. The initial set (2 years) of OTUs in the entire period of soil formation remains unchanged, accumulating more than 98% of the total microbiome in each time point. Analysis of beta-diversity (weighted and unweighted) demonstrated a clear differentiation of microbiomes of all time points, which suggests that underlying taxonomic structure variations can be attributed to variation of the minor taxa set composition. The most significant differences occur in Proteobacteria, Chloroflexi, Acidobacteria, and Actinobacteria, but majority of these phyla have different sets of OTUs demonstrating opposite trends. Generally time positively correlate with microbiome of carbonate soils in all cases of benchmark and newly formed soils is familiar because of the uniform zonal environmental conditions in geochemically specific landscape of Izhora upland.

Published
2021
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9. Soil microbiomes of reclaimed and abandoned mines of the Yamal region

Author

Pershina Elizaveta, Ivanova Ekaterina, Kimeklis Anastasia, Zverev Alexey, Kichko Arina, Aksenova Tatiana, Andronov Evgeny, and Abakumov Evgeny

Subjects
arctic, yamal peninsula, microbiome, soil, high-throughput sequencing, 16s rrna, qpcr, mining, reclamation, Geology, QE1-996.5
Abstract

Here we investigate the microbiomes of the soil samples from the Yamal Peninsula (the surroundings of Salekhard city, Russian Federation) using a high-throughput sequencing approach. The main goal was to investigate the impact of mining on soils within the following regeneration, both during the reclamation practice and natural self-growth. Several quarries were studied, engaged in sand, clay and chromatic ores mining. The taxonomic analysis of the soil microbiomes revealed 50 bacterial and archaeal phyla; among the dominant phyla were: Proteobacteria, Actinobacteria, Acidobacteria, Chroloflexi, Gemmatimonadetes, Verrucomicrobia, Planctomycetes, Bacteroidetes, AD3, and Nitrospirae. Compared to the typical tundra soil, which was chosen as a control, the disturbed soils had increased biodiversity and total counts for soil bacteria, archaea, and fungi, especially in the cryosolic horizon. The different mining strategies caused significantly different transformations of soil microbiomes, which was less pronounced for self-growth compared to reclaimed quarries. This isolation of the reclaimed quarry was mainly associated with the increase of the amount of acidobacteria (fam. Koribacteraceae and Acidobacteriaceae and order Ellin6513), some proteobacterial taxa (fam. Syntrophobacteraceae), and Chloroflexi (fam. Thermogemmatisporaceae). The study also revealed bacteria, which tend to be specific for marine tundra environments: gemmatimonadetes from the order N1423WL and Chloroflexi bacteria from the order Gitt-GS-136.

Published
2020
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10. Soil microbiome of the postmining areas in polar ecosystems in surroundings of Nadym, Western Siberia, Russia

Author

Gladkov Grigory, Kimeklis Anastasiia, Zverev Alexei, Pershina Elizaveta, Ivanova Ekaterina, Kichko Arina, Andronov Evgeny, and Abakumov Evgeny

Subjects
soils, polar environmets, microbiome, agrolandscapes, Agriculture, Agriculture (General), S1-972
Abstract

Localization of agriculture with the aim of local food support has become a very urgent topic for Yamal region. The most fertile soils of this region are sandy textured anthropogenically affected soils. Microbiomes from disturbed soils of the Nadym region were studied using analysis of 16S rRNA metagenomic libraries. It was shown that plant cover is a driving force of microbiome composition. Forest soils covered with aeolian transfers from the quarry retaids a typical forest microbiome with the following dominant bacterial phyla: Proteobateria, Acidobacteria, Verrucomicrobia, Planctomycetes and Bacteroidetes. However, it contains significantly less Planctomycetes, which indicates greater aridity of the soil. The microbiomes of the overgrown quarries were strikingly differ from the soil microbiome and resemble those of arctic soils being dominated by Proteobacteria, Chloroflexi, Acidobacteria and Cyanobacteria. Absence of dense vegetation cover and availability of nutrients facilitated the formation of autotrophic microbial mats. The microbiome of the lower horizons of the quarry is characterised by Proteobacteria, Actinobacteria and Firmicutes. Presumably, most of the time these bacteria reside in a dormant state with short periods of activity due to nutrient uptake from the upper horizons.

Published
2019
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15. Dynamic of the Soil Microbiota in Short-Term Crop Rotation

Author

Zverev, Aleksei O., primary, Kurchak, Oksana N., additional, Orlova, Olga V., additional, Onishchuk, Olga P., additional, Kichko, Arina A., additional, Eregin, Aleksander V., additional, Naliukhin, Aleksey N., additional, Pinaev, Aleksandr G., additional, and Andronov, Evgeny E., additional

Published
2023
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21. Supplementary material 3 from: Kimeklis AK, Gladkov GV, Tembotov RH, Kichko AA, Pinaev AG, Hosid SL, Andronov EE, Abakumov EV (2022) Microbiome composition of disturbed soils from sandy-gravel mining complexes with different reclamation approaches. One Ecosystem 7: e83756. https://doi.org/10.3897/oneeco.7.e83756

Author

Kimeklis, Anastasiia, primary, Gladkov, Grigory, additional, Tembotov, Rustam, additional, Kichko, Arina, additional, Pinaev, Alexander, additional, Hosid, Sergey, additional, Andronov, Evgeny, additional, and Abakumov, Evgeny, additional

Published
2022
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22. Supplementary material 2 from: Kimeklis AK, Gladkov GV, Tembotov RH, Kichko AA, Pinaev AG, Hosid SL, Andronov EE, Abakumov EV (2022) Microbiome composition of disturbed soils from sandy-gravel mining complexes with different reclamation approaches. One Ecosystem 7: e83756. https://doi.org/10.3897/oneeco.7.e83756

Author

Kimeklis, Anastasiia, primary, Gladkov, Grigory, additional, Tembotov, Rustam, additional, Kichko, Arina, additional, Pinaev, Alexander, additional, Hosid, Sergey, additional, Andronov, Evgeny, additional, and Abakumov, Evgeny, additional

Published
2022
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23. Supplementary material 1 from: Kimeklis AK, Gladkov GV, Tembotov RH, Kichko AA, Pinaev AG, Hosid SL, Andronov EE, Abakumov EV (2022) Microbiome composition of disturbed soils from sandy-gravel mining complexes with different reclamation approaches. One Ecosystem 7: e83756. https://doi.org/10.3897/oneeco.7.e83756

Author

Kimeklis, Anastasiia, primary, Gladkov, Grigory, additional, Tembotov, Rustam, additional, Kichko, Arina, additional, Pinaev, Alexander, additional, Hosid, Sergey, additional, Andronov, Evgeny, additional, and Abakumov, Evgeny, additional

Published
2022
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26. Microbiomes Of Differently Aged Soils of a Podzol Chronosequence

Author

Evdokimova, Elizaveta Vladimirovna, primary, Ivanova, Ekaterina, additional, Gladkov, Grigory, additional, Zverev, Alexey, additional, Kimeklis, Anastasiya, additional, Serikova, Elena, additional, Pinaev, Alexander, additional, Kichko, Arina, additional, Aksenova, Tatyana, additional, Andronov, Evgeny, additional, and Abakumov, Evgeny, additional

Published
2022
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36. The Role of Symbiotic Microorganisms, Nutrient Uptake and Rhizosphere Bacterial Community in Response of Pea (Pisum sativum L.) Genotypes to Elevated Al Concentrations in Soil

Author

Belimov, Andrey A., primary, Shaposhnikov, Alexander I., additional, Syrova, Darya S., additional, Kichko, Arina A., additional, Guro, Polina V., additional, Yuzikhin, Oleg S., additional, Azarova, Tatiana S., additional, Sazanova, Anna L., additional, Sekste, Edgar A., additional, Litvinskiy, Vladimir A., additional, Nosikov, Vladimir V., additional, Zavalin, Aleksey A., additional, Andronov, Evgeny E., additional, and Safronova, Vera I., additional

Published
2020
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