Microbiota as a linking axis of the macroecosystem involving soil-plant-human. Potential interactions and perspectives for study
During analyzing morbidity data, it is obvious that the ratio of infections has decreased significantly since the beginning of the 20th century, but the proportion of metabolic and inflammatory diseases has increased. This may be related to the degradation of soils. At the same time, mobilization...
Saved in:
| Main Authors: | , , , , , , , |
|---|---|
| Format: | Article |
| Language: | English |
| Published: |
ResearchersLinks, Ltd
2024-11-01
|
| Series: | Novel Research in Microbiology Journal |
| Subjects: | |
| Online Access: | https://nrmj.journals.ekb.eg/article_391201_5675f34d8d4840c4836355caa8290027.pdf |
| Tags: |
Add Tag
No Tags, Be the first to tag this record!
|
| _version_ | 1849471088551002112 |
|---|---|
| author | Artem V. Lyamin Lyudmila V. Orlova Vladimir I. Platonov Natalia M. Troz Aleksey S. Sustretov Elena A. Zakharova Karim A. Kaiumov Dmitriy V. Alekseev |
| author_facet | Artem V. Lyamin Lyudmila V. Orlova Vladimir I. Platonov Natalia M. Troz Aleksey S. Sustretov Elena A. Zakharova Karim A. Kaiumov Dmitriy V. Alekseev |
| author_sort | Artem V. Lyamin |
| collection | DOAJ |
| description | During analyzing morbidity data, it is obvious that the ratio of infections has decreased
significantly since the beginning of the 20th century, but the proportion of metabolic and
inflammatory diseases has increased. This may be related to the degradation of soils. At the
same time, mobilization of nutrient elements primarily depends on the activity of soil
microbiota, which is subjected to negative anthropogenic impact. Although plant nutritional
value has a direct impact on human health; however, modern agricultural practices that aimed
at deep cultivation are causing disturbances in the soil microbiota composition. Subsequently,
this resulted in maladaptation of the human immune system, as contacts with xenobiotics
occur instead of evolutionarily calibrated interactions; potentially endangering the gut
microbiota. This review aims to represent recent data on the relationships among human
intestinal, soil, and plant microbiota. Nowadays, it is evident that there is a broad range of
influences on human health not only from intestinal microbiota but also from its connection
with the environmental microbiota (i.e., soil microorganisms in particular). Today, with
respect to the background of active use of modern technologies, including genetical ones, we
have the opportunity to examine such volumes of data that will allow us to fully analyze
microbiological diversity of the different ecological niches in terms of their common features,
differences, and mutual influences. Such studies will make it possible to identify potential
factors determining the composition of microbiota in different loci, assess their potential impact on human health, and adjust methods to diagnose and restore the optimal composition
of human, plant, and soil microbiota. |
| format | Article |
| id | doaj-art-d72f55eb4d1f48e4a58cab4d99abd2f8 |
| institution | Kabale University |
| issn | 2537-0286 2537-0294 |
| language | English |
| publishDate | 2024-11-01 |
| publisher | ResearchersLinks, Ltd |
| record_format | Article |
| series | Novel Research in Microbiology Journal |
| spelling | doaj-art-d72f55eb4d1f48e4a58cab4d99abd2f82025-08-20T03:24:56ZengResearchersLinks, LtdNovel Research in Microbiology Journal2537-02862537-02942024-11-01862683269310.21608/NRMJ.2024.326165.1740Microbiota as a linking axis of the macroecosystem involving soil-plant-human. Potential interactions and perspectives for studyArtem V. Lyamin0Lyudmila V. Orlova1Vladimir I. Platonov2Natalia M. Troz3Aleksey S. Sustretov4Elena A. Zakharova5Karim A. Kaiumov6Dmitriy V. Alekseev7Professional Center for Education and Research in Genetic and Laboratory Technologies, FSBEI HE Samara State Medical University of Ministry of Health of Russian Federation, Chapayevskaya street 89, Samara, Russian FederationNational Movement for Conservation Agriculture in Russia, Kuibyshev street 88, Samara, Russian FederationEcology Department, Samara National Research University, Moscow highway 34, Samara, Russian FederationAgronomy Department, FSBEI HE Samara State Agrarian University, Uchebnaya street 2, Kinel, Russian FederationProfessional Center for Education and Research in Genetic and Laboratory Technologies, FSBEI HE Samara State Medical University of Ministry of Health of Russian Federation, Chapayevskaya street 89, Samara, Russian FederationProfessional Center for Education and Research in Genetic and Laboratory Technologies, FSBEI HE Samara State Medical University of Ministry of Health of Russian Federation, Chapayevskaya street 89, Samara, Russian FederationProfessional Center for Education and Research in Genetic and Laboratory Technologies, FSBEI HE Samara State Medical University of Ministry of Health of Russian Federation, Chapayevskaya street 89, Samara, Russian FederationProfessional Center for Education and Research in Genetic and Laboratory Technologies, FSBEI HE Samara State Medical University of Ministry of Health of Russian Federation, Chapayevskaya street 89, Samara, Russian FederationDuring analyzing morbidity data, it is obvious that the ratio of infections has decreased significantly since the beginning of the 20th century, but the proportion of metabolic and inflammatory diseases has increased. This may be related to the degradation of soils. At the same time, mobilization of nutrient elements primarily depends on the activity of soil microbiota, which is subjected to negative anthropogenic impact. Although plant nutritional value has a direct impact on human health; however, modern agricultural practices that aimed at deep cultivation are causing disturbances in the soil microbiota composition. Subsequently, this resulted in maladaptation of the human immune system, as contacts with xenobiotics occur instead of evolutionarily calibrated interactions; potentially endangering the gut microbiota. This review aims to represent recent data on the relationships among human intestinal, soil, and plant microbiota. Nowadays, it is evident that there is a broad range of influences on human health not only from intestinal microbiota but also from its connection with the environmental microbiota (i.e., soil microorganisms in particular). Today, with respect to the background of active use of modern technologies, including genetical ones, we have the opportunity to examine such volumes of data that will allow us to fully analyze microbiological diversity of the different ecological niches in terms of their common features, differences, and mutual influences. Such studies will make it possible to identify potential factors determining the composition of microbiota in different loci, assess their potential impact on human health, and adjust methods to diagnose and restore the optimal composition of human, plant, and soil microbiota. https://nrmj.journals.ekb.eg/article_391201_5675f34d8d4840c4836355caa8290027.pdfhuman microbiotaplant microbiotasoil microbiotaecological microbiology |
| spellingShingle | Artem V. Lyamin Lyudmila V. Orlova Vladimir I. Platonov Natalia M. Troz Aleksey S. Sustretov Elena A. Zakharova Karim A. Kaiumov Dmitriy V. Alekseev Microbiota as a linking axis of the macroecosystem involving soil-plant-human. Potential interactions and perspectives for study Novel Research in Microbiology Journal human microbiota plant microbiota soil microbiota ecological microbiology |
| title | Microbiota as a linking axis of the macroecosystem involving soil-plant-human. Potential interactions and perspectives for study |
| title_full | Microbiota as a linking axis of the macroecosystem involving soil-plant-human. Potential interactions and perspectives for study |
| title_fullStr | Microbiota as a linking axis of the macroecosystem involving soil-plant-human. Potential interactions and perspectives for study |
| title_full_unstemmed | Microbiota as a linking axis of the macroecosystem involving soil-plant-human. Potential interactions and perspectives for study |
| title_short | Microbiota as a linking axis of the macroecosystem involving soil-plant-human. Potential interactions and perspectives for study |
| title_sort | microbiota as a linking axis of the macroecosystem involving soil plant human potential interactions and perspectives for study |
| topic | human microbiota plant microbiota soil microbiota ecological microbiology |
| url | https://nrmj.journals.ekb.eg/article_391201_5675f34d8d4840c4836355caa8290027.pdf |
| work_keys_str_mv | AT artemvlyamin microbiotaasalinkingaxisofthemacroecosysteminvolvingsoilplanthumanpotentialinteractionsandperspectivesforstudy AT lyudmilavorlova microbiotaasalinkingaxisofthemacroecosysteminvolvingsoilplanthumanpotentialinteractionsandperspectivesforstudy AT vladimiriplatonov microbiotaasalinkingaxisofthemacroecosysteminvolvingsoilplanthumanpotentialinteractionsandperspectivesforstudy AT nataliamtroz microbiotaasalinkingaxisofthemacroecosysteminvolvingsoilplanthumanpotentialinteractionsandperspectivesforstudy AT alekseyssustretov microbiotaasalinkingaxisofthemacroecosysteminvolvingsoilplanthumanpotentialinteractionsandperspectivesforstudy AT elenaazakharova microbiotaasalinkingaxisofthemacroecosysteminvolvingsoilplanthumanpotentialinteractionsandperspectivesforstudy AT karimakaiumov microbiotaasalinkingaxisofthemacroecosysteminvolvingsoilplanthumanpotentialinteractionsandperspectivesforstudy AT dmitriyvalekseev microbiotaasalinkingaxisofthemacroecosysteminvolvingsoilplanthumanpotentialinteractionsandperspectivesforstudy |