Visualization of soil microbial processes with a light microscope. Part 1. The ratio of fungi and bacteria in microbial landscapes as an indicator of the state of soil organic matter
The aim of the study is to investigate location features of fungi and bacteria on glass slides exposed to arable and virgin soils. Location and time of the study. The studies were carried out in 2018-2021. Objects of study: 1. Leached chernozem (Luvic Chernozem, the forest-steppe of the Ob region, 5...
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ФГБУН Институт почвоведения и агрохимии СО РАН
2022
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ftjsoils:oai:https://soils-journal.ru/index.php/POS/oai:article/168 2023-05-15T17:58:24+02:00 Visualization of soil microbial processes with a light microscope. Part 1. The ratio of fungi and bacteria in microbial landscapes as an indicator of the state of soil organic matter Опыт визуализации почвенно-микробиологических процессов в световом микроскопе. Сообщение 1. Соотношение грибов и бактерий в пейзажах как отражение состояния почвенного органического вещества Данилова, Альбина Афанасьевна 2022-03-02 application/pdf https://soils-journal.ru/index.php/POS/article/view/168 rus rus ФГБУН Институт почвоведения и агрохимии СО РАН https://soils-journal.ru/index.php/POS/article/view/168/232 https://soils-journal.ru/index.php/POS/article/view/168 Copyright (c) 2022 Почвы и окружающая среда https://creativecommons.org/licenses/by/4.0/ CC-BY The Journal of Soils and Environment; Vol. 5 No. 1 (2022): The Journal of Soils and Environment; e168 Почвы и окружающая среда; Том 5 № 1 (2022): Почвы и окружающая среда; e168 2618-6802 чернозем выщелоченный мерзлотные аласные почвы пахотные и целинные почвы бактериальная пленка на гифах грибов бактериальные отпечатки гиф «горячие точки» leached chernozem alas soils arable and virgin soils bacterial biofilm on fungal hyphae bacterial imprints of hyphae hotspots info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion The reviewed article Original article Рецензируемая статья Оригинальная статья 2022 ftjsoils 2022-12-20T17:41:32Z The aim of the study is to investigate location features of fungi and bacteria on glass slides exposed to arable and virgin soils. Location and time of the study. The studies were carried out in 2018-2021. Objects of study: 1. Leached chernozem (Luvic Chernozem, the forest-steppe of the Ob region, 54° 53' 13.5 "N and 82° 59' 36.7" E). Observation options: (1) permanent steam field (300 mg mortmass C/kg, 50 mg N-NO3/kg); (2) wheat cultivation, annual removal of straw from the field + bare fallow (440, 10); (3) long-term fallow field (virgin soil; 2500, 0). 2. A complex of permafrost alas soils (Cryosols) of varying degrees of pasture digression (Lena-Amga interfluve, 62° 33' 24.3" N and 130° 54' 01.4" E). Methodology. The duration of glass slide exposure in field conditions ranged from a growing season to a year. To decipher landscapes obtained in the field, glass slides were exposed in laboratory conditions in samples of the same soils with disturbed and undisturbed (monolith) structure. To study microbial succession during decomposition of plant residues 30-60 days incubation experiments were carried out. In some cases, to obtain a microbial imprint of decomposition of organic matter, glass slides were previously wrapped in cotton cloth. After exposure, the glass slides were dried, fixed, stained with carbolic erythrosine (5%), and examined microscopically at magnification of ×40-×1000. We studied 50 fields of vision on one glass slide (3 slides on each variant). The snapshots were taken using Primo Star Zeiss microscope with an Axiocam 105 color video camera. Results. The size and localization of bacterial cells on a microbial landscape depend on the amount and state of soil organic matter. We outline a schematic representation of change in the fungi to bacteria ratio in landscapes during decomposition of plant residues. In contrast to arable soil, in virgin soil a bacterial biofilm was formed on the surface of hyphae. Conclusions. A visual series of microbial succession during the decomposition of plant ... Article in Journal/Newspaper permafrost The Journal of Soils and Environment Monolith ENVELOPE(163.283,163.283,-66.950,-66.950) |
institution |
Open Polar |
collection |
The Journal of Soils and Environment |
op_collection_id |
ftjsoils |
language |
Russian |
topic |
чернозем выщелоченный мерзлотные аласные почвы пахотные и целинные почвы бактериальная пленка на гифах грибов бактериальные отпечатки гиф «горячие точки» leached chernozem alas soils arable and virgin soils bacterial biofilm on fungal hyphae bacterial imprints of hyphae hotspots |
spellingShingle |
чернозем выщелоченный мерзлотные аласные почвы пахотные и целинные почвы бактериальная пленка на гифах грибов бактериальные отпечатки гиф «горячие точки» leached chernozem alas soils arable and virgin soils bacterial biofilm on fungal hyphae bacterial imprints of hyphae hotspots Данилова, Альбина Афанасьевна Visualization of soil microbial processes with a light microscope. Part 1. The ratio of fungi and bacteria in microbial landscapes as an indicator of the state of soil organic matter |
topic_facet |
чернозем выщелоченный мерзлотные аласные почвы пахотные и целинные почвы бактериальная пленка на гифах грибов бактериальные отпечатки гиф «горячие точки» leached chernozem alas soils arable and virgin soils bacterial biofilm on fungal hyphae bacterial imprints of hyphae hotspots |
description |
The aim of the study is to investigate location features of fungi and bacteria on glass slides exposed to arable and virgin soils. Location and time of the study. The studies were carried out in 2018-2021. Objects of study: 1. Leached chernozem (Luvic Chernozem, the forest-steppe of the Ob region, 54° 53' 13.5 "N and 82° 59' 36.7" E). Observation options: (1) permanent steam field (300 mg mortmass C/kg, 50 mg N-NO3/kg); (2) wheat cultivation, annual removal of straw from the field + bare fallow (440, 10); (3) long-term fallow field (virgin soil; 2500, 0). 2. A complex of permafrost alas soils (Cryosols) of varying degrees of pasture digression (Lena-Amga interfluve, 62° 33' 24.3" N and 130° 54' 01.4" E). Methodology. The duration of glass slide exposure in field conditions ranged from a growing season to a year. To decipher landscapes obtained in the field, glass slides were exposed in laboratory conditions in samples of the same soils with disturbed and undisturbed (monolith) structure. To study microbial succession during decomposition of plant residues 30-60 days incubation experiments were carried out. In some cases, to obtain a microbial imprint of decomposition of organic matter, glass slides were previously wrapped in cotton cloth. After exposure, the glass slides were dried, fixed, stained with carbolic erythrosine (5%), and examined microscopically at magnification of ×40-×1000. We studied 50 fields of vision on one glass slide (3 slides on each variant). The snapshots were taken using Primo Star Zeiss microscope with an Axiocam 105 color video camera. Results. The size and localization of bacterial cells on a microbial landscape depend on the amount and state of soil organic matter. We outline a schematic representation of change in the fungi to bacteria ratio in landscapes during decomposition of plant residues. In contrast to arable soil, in virgin soil a bacterial biofilm was formed on the surface of hyphae. Conclusions. A visual series of microbial succession during the decomposition of plant ... |
format |
Article in Journal/Newspaper |
author |
Данилова, Альбина Афанасьевна |
author_facet |
Данилова, Альбина Афанасьевна |
author_sort |
Данилова, Альбина Афанасьевна |
title |
Visualization of soil microbial processes with a light microscope. Part 1. The ratio of fungi and bacteria in microbial landscapes as an indicator of the state of soil organic matter |
title_short |
Visualization of soil microbial processes with a light microscope. Part 1. The ratio of fungi and bacteria in microbial landscapes as an indicator of the state of soil organic matter |
title_full |
Visualization of soil microbial processes with a light microscope. Part 1. The ratio of fungi and bacteria in microbial landscapes as an indicator of the state of soil organic matter |
title_fullStr |
Visualization of soil microbial processes with a light microscope. Part 1. The ratio of fungi and bacteria in microbial landscapes as an indicator of the state of soil organic matter |
title_full_unstemmed |
Visualization of soil microbial processes with a light microscope. Part 1. The ratio of fungi and bacteria in microbial landscapes as an indicator of the state of soil organic matter |
title_sort |
visualization of soil microbial processes with a light microscope. part 1. the ratio of fungi and bacteria in microbial landscapes as an indicator of the state of soil organic matter |
publisher |
ФГБУН Институт почвоведения и агрохимии СО РАН |
publishDate |
2022 |
url |
https://soils-journal.ru/index.php/POS/article/view/168 |
long_lat |
ENVELOPE(163.283,163.283,-66.950,-66.950) |
geographic |
Monolith |
geographic_facet |
Monolith |
genre |
permafrost |
genre_facet |
permafrost |
op_source |
The Journal of Soils and Environment; Vol. 5 No. 1 (2022): The Journal of Soils and Environment; e168 Почвы и окружающая среда; Том 5 № 1 (2022): Почвы и окружающая среда; e168 2618-6802 |
op_relation |
https://soils-journal.ru/index.php/POS/article/view/168/232 https://soils-journal.ru/index.php/POS/article/view/168 |
op_rights |
Copyright (c) 2022 Почвы и окружающая среда https://creativecommons.org/licenses/by/4.0/ |
op_rightsnorm |
CC-BY |
_version_ |
1766167005016096768 |