Biogeochemical factors of formation ferriferous biominerals

Biogeochemical factors of formation ferriferous biominerals

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In the paper we report experimental study of biomineralization processes occurring on biogeochemical barriers involving community of bacteria from natural groundwater . After 2-years experiment, the formation of a crystalline iron-containing mineral occurred in the contact zone of zeolite-sand with...

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Main Authors: E. M. Golubeva, L. M. Kondrat′yeva, V. S. Komarova, A. V. Abragevitch
Format: Article
Language:English
Published: A.N. Zavaritsky Institute of Geology and Geochemistry 2017-04-01
Series:Литосфера
Subjects:
биогеохимические процессы
биоминерализация
железомарганцевые бактерии
гетит
biogeochemical process
biomineralization iron-manganese bacteria
gethite
Online Access:https://www.lithosphere.ru/jour/article/view/84
id doaj-6dee4760eaaa4c9caaae2273f1c0e0f3
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spelling doaj-6dee4760eaaa4c9caaae2273f1c0e0f32020-11-25T03:05:31ZengA.N. Zavaritsky Institute of Geology and GeochemistryЛитосфера1681-90042500-302X2017-04-010211512484Biogeochemical factors of formation ferriferous biomineralsE. M. Golubeva0L. M. Kondrat′yeva1V. S. Komarova2A. V. Abragevitch3Institute of Tectonics and Geophysics FEB RASInstitute of Water and Ecological problems FEB RASInstitute of Tectonics and Geophysics FEB RASInstitute of Tectonics and Geophysics FEB RASIn the paper we report experimental study of biomineralization processes occurring on biogeochemical barriers involving community of bacteria from natural groundwater . After 2-years experiment, the formation of a crystalline iron-containing mineral occurred in the contact zone of zeolite-sand with the introduction of biomass of iron bacteria. The experimental samples were examined using scanning electron microscopy and X-ray diffractometry. Analysis of the magnetic properties of biomineral shown presence of various structures of the iron hydroxides, including goethite and lepidocrocite. It is established that the formation of the structure of biominerals depends on the nature of the development of bacterial biofilms in the pore space and the intensity of accumulation of different elements in their polymer matrix.https://www.lithosphere.ru/jour/article/view/84биогеохимические процессыбиоминерализацияжелезомарганцевые бактериигетитbiogeochemical processbiomineralization iron-manganese bacteriagethite
collection DOAJ
language English
format Article
sources DOAJ
author E. M. Golubeva
L. M. Kondrat′yeva
V. S. Komarova
A. V. Abragevitch
spellingShingle E. M. Golubeva
L. M. Kondrat′yeva
V. S. Komarova
A. V. Abragevitch
Biogeochemical factors of formation ferriferous biominerals
Литосфера
биогеохимические процессы
биоминерализация
железомарганцевые бактерии
гетит
biogeochemical process
biomineralization iron-manganese bacteria
gethite
author_facet E. M. Golubeva
L. M. Kondrat′yeva
V. S. Komarova
A. V. Abragevitch
author_sort E. M. Golubeva
title Biogeochemical factors of formation ferriferous biominerals
title_short Biogeochemical factors of formation ferriferous biominerals
title_full Biogeochemical factors of formation ferriferous biominerals
title_fullStr Biogeochemical factors of formation ferriferous biominerals
title_full_unstemmed Biogeochemical factors of formation ferriferous biominerals
title_sort biogeochemical factors of formation ferriferous biominerals
publisher A.N. Zavaritsky Institute of Geology and Geochemistry
series Литосфера
issn 1681-9004
2500-302X
publishDate 2017-04-01
description In the paper we report experimental study of biomineralization processes occurring on biogeochemical barriers involving community of bacteria from natural groundwater . After 2-years experiment, the formation of a crystalline iron-containing mineral occurred in the contact zone of zeolite-sand with the introduction of biomass of iron bacteria. The experimental samples were examined using scanning electron microscopy and X-ray diffractometry. Analysis of the magnetic properties of biomineral shown presence of various structures of the iron hydroxides, including goethite and lepidocrocite. It is established that the formation of the structure of biominerals depends on the nature of the development of bacterial biofilms in the pore space and the intensity of accumulation of different elements in their polymer matrix.
topic биогеохимические процессы
биоминерализация
железомарганцевые бактерии
гетит
biogeochemical process
biomineralization iron-manganese bacteria
gethite
url https://www.lithosphere.ru/jour/article/view/84
work_keys_str_mv AT emgolubeva biogeochemicalfactorsofformationferriferousbiominerals
AT lmkondratyeva biogeochemicalfactorsofformationferriferousbiominerals
AT vskomarova biogeochemicalfactorsofformationferriferousbiominerals
AT avabragevitch biogeochemicalfactorsofformationferriferousbiominerals
_version_ 1724678134990635008

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