Skip to main content
Top

2016 | OriginalPaper | Chapter

Modifications of Selected Clay Minerals Due to Activity of Filamentous Alkaline Cyanobacteria

Authors : Andery O. Alekseev, Tatiana V. Alekseeva, Lyudmila M. Gerasimenko, Vladimir. K. Orleanskiy, Galina T. Ushatinskaya

Published in: Biogenic—Abiogenic Interactions in Natural and Anthropogenic Systems

Publisher: Springer International Publishing

Activate our intelligent search to find suitable subject content or patents.

search-config
loading …

Abstract

The aim of the study was to investigate the transformations of clay minerals at the laboratory experiments under the growth and fossilization of alkaline cyanobacteria. The clays incubation with cyanobacteria resulted in different trends of their transformations. The direction and intensity of transformation depends on type of clay mineral. The observed processes were fast and completed within the first 10–60 days of experiments. Cyanobacteria most actively influenced the processes of mineral dissolution and the transformations during the stage of their photosynthesis. Formation of carbonate in the experiments with palygorskite, bentonite, and kaolinite was observed at the stage of cyanobacteria fossilization.

Dont have a licence yet? Then find out more about our products and how to get one now:

Springer Professional "Wirtschaft+Technik"

Online-Abonnement

Mit Springer Professional "Wirtschaft+Technik" erhalten Sie Zugriff auf:

  • über 102.000 Bücher
  • über 537 Zeitschriften

aus folgenden Fachgebieten:

  • Automobil + Motoren
  • Bauwesen + Immobilien
  • Business IT + Informatik
  • Elektrotechnik + Elektronik
  • Energie + Nachhaltigkeit
  • Finance + Banking
  • Management + Führung
  • Marketing + Vertrieb
  • Maschinenbau + Werkstoffe
  • Versicherung + Risiko

Jetzt Wissensvorsprung sichern!

Springer Professional "Technik"

Online-Abonnement

Mit Springer Professional "Technik" erhalten Sie Zugriff auf:

  • über 67.000 Bücher
  • über 390 Zeitschriften

aus folgenden Fachgebieten:

  • Automobil + Motoren
  • Bauwesen + Immobilien
  • Business IT + Informatik
  • Elektrotechnik + Elektronik
  • Energie + Nachhaltigkeit
  • Maschinenbau + Werkstoffe




 

Jetzt Wissensvorsprung sichern!

Literature
go back to reference Alekseeva T, Gerasimenko L, Sapova E, Alekseev A (2008) Transformational changes of clays due to cyanobacteria (Chap. 17). In: Dobretsov N et al (eds) Biosphere: origin and evolution. Springer, Berlin, pp 227–238 Alekseeva T, Gerasimenko L, Sapova E, Alekseev A (2008) Transformational changes of clays due to cyanobacteria (Chap. 17). In: Dobretsov N et al (eds) Biosphere: origin and evolution. Springer, Berlin, pp 227–238
go back to reference Alekseeva T, Sapova E, Gerasimenko L, Alekseev A (2009) Transformation of clay minerals caused by an alkaliphilic cyanobacterial community. Microbiology 78(6):776–784CrossRef Alekseeva T, Sapova E, Gerasimenko L, Alekseev A (2009) Transformation of clay minerals caused by an alkaliphilic cyanobacterial community. Microbiology 78(6):776–784CrossRef
go back to reference Banfield JP, Barker WW, Welch SA, Taunton A (1999) Biological impact on mineral dissolution: application of the lichen model to understanding mineral weathering in the rhizosphere. Proc Nat Acad Sci USA 96:3404–3411CrossRef Banfield JP, Barker WW, Welch SA, Taunton A (1999) Biological impact on mineral dissolution: application of the lichen model to understanding mineral weathering in the rhizosphere. Proc Nat Acad Sci USA 96:3404–3411CrossRef
go back to reference Barker WW, Welch SA, Chu S, Banfield JF (1998) Experimental observations of the effects of bacteria on aluminosilicate weathering. Am Mineral 83:1551–1563CrossRef Barker WW, Welch SA, Chu S, Banfield JF (1998) Experimental observations of the effects of bacteria on aluminosilicate weathering. Am Mineral 83:1551–1563CrossRef
go back to reference Bennett PC, Hiebert FK, Choi WJ (1996) Microbial colonization and weathering of silicates in a petroleum-contaminated groundwater. Chem Geol 132:45–53CrossRef Bennett PC, Hiebert FK, Choi WJ (1996) Microbial colonization and weathering of silicates in a petroleum-contaminated groundwater. Chem Geol 132:45–53CrossRef
go back to reference Bennett PC, Rogers JR, Choi WJ, Hiebert FK (2001) Silicates, silicate weathering, and microbial ecology. Geomicrobiol J 18:3–19CrossRef Bennett PC, Rogers JR, Choi WJ, Hiebert FK (2001) Silicates, silicate weathering, and microbial ecology. Geomicrobiol J 18:3–19CrossRef
go back to reference Dong H (2012) Clay–microbe interactions and implications for environmental mitigation. Elements 8:113–118CrossRef Dong H (2012) Clay–microbe interactions and implications for environmental mitigation. Elements 8:113–118CrossRef
go back to reference Dubinin AV, Gerasimenko LM, Gusev MV (1992) Physiological characteristics of Microcoleus chthonoplastes from hyper saline lake. Microbiology 61(1):63–69 (in Russian) Dubinin AV, Gerasimenko LM, Gusev MV (1992) Physiological characteristics of Microcoleus chthonoplastes from hyper saline lake. Microbiology 61(1):63–69 (in Russian)
go back to reference Ehrlich HL, Newman DK (2009) Geomicrobiology, 5th edn. CRC Press, Taylor & Francis, Boca Raton, FL Ehrlich HL, Newman DK (2009) Geomicrobiology, 5th edn. CRC Press, Taylor & Francis, Boca Raton, FL
go back to reference Gadd GM (2010) Metals, minerals and microbes: geomicrobiology and bioremediation. Microbiology 156:609–643CrossRef Gadd GM (2010) Metals, minerals and microbes: geomicrobiology and bioremediation. Microbiology 156:609–643CrossRef
go back to reference Geptner AR, Ivanovskaya TA (1998) Biochemogenic genesis of the glauconite-nontronite series minerals in present-day sediments of the Pacific ocean. Lithol Min Resour 33(6):503–517 Geptner AR, Ivanovskaya TA (1998) Biochemogenic genesis of the glauconite-nontronite series minerals in present-day sediments of the Pacific ocean. Lithol Min Resour 33(6):503–517
go back to reference Geptner A, Kristmannsdottir H, Kristjansson J, Marteinsson V (2002) Biogenic saponite from an active submarine hot spring, Iceland. Clays Clay Miner 50(2):174–185 Geptner A, Kristmannsdottir H, Kristjansson J, Marteinsson V (2002) Biogenic saponite from an active submarine hot spring, Iceland. Clays Clay Miner 50(2):174–185
go back to reference Gerasimenko LM, Nekrasova VK, Orleansky VK, Venetskaya SL, Zavarzin GA (1989) The primary production of halophilic Cyanobacterium cenoses. Microbiology 58(3):507–514 (in Russian) Gerasimenko LM, Nekrasova VK, Orleansky VK, Venetskaya SL, Zavarzin GA (1989) The primary production of halophilic Cyanobacterium cenoses. Microbiology 58(3):507–514 (in Russian)
go back to reference Gerasimenko LM, Dubinin AV, Zavarzin GA (1996) Alkaliphilic cyanobacteria from soda lakes of Tuva and their ecophysiology. Microbiology 65(6):736–740 Gerasimenko LM, Dubinin AV, Zavarzin GA (1996) Alkaliphilic cyanobacteria from soda lakes of Tuva and their ecophysiology. Microbiology 65(6):736–740
go back to reference Gerbersdorf SU, Wieprecht S (2015) Biostabilization of cohesive sediments: revisiting the role of abiotic conditions, physiology and diversity of microbes, polymeric secretion, and biofilm architecture. Geobiology 13:68–97CrossRef Gerbersdorf SU, Wieprecht S (2015) Biostabilization of cohesive sediments: revisiting the role of abiotic conditions, physiology and diversity of microbes, polymeric secretion, and biofilm architecture. Geobiology 13:68–97CrossRef
go back to reference Gionis V, Kacandes GH, Kastritis ID, Chryssikos GD (2006) On the structure of palygorskite by mid- and near-infrared spectroscopy. Am Mineral 91(7):1125–1133CrossRef Gionis V, Kacandes GH, Kastritis ID, Chryssikos GD (2006) On the structure of palygorskite by mid- and near-infrared spectroscopy. Am Mineral 91(7):1125–1133CrossRef
go back to reference Grantham MC, Dove PM (1996) Investigation of bacterial–mineral interactions using fluid tapping mode atomic force microscopy. Geochim Cosmochim Acta 60:2473–2480CrossRef Grantham MC, Dove PM (1996) Investigation of bacterial–mineral interactions using fluid tapping mode atomic force microscopy. Geochim Cosmochim Acta 60:2473–2480CrossRef
go back to reference Harrison J, Turner RJ, Marques L, Ceri H (2005) A new understanding of these mcirobial communities is driving a revolution that may transform the science of microbiology. Am Sci 93:508–515CrossRef Harrison J, Turner RJ, Marques L, Ceri H (2005) A new understanding of these mcirobial communities is driving a revolution that may transform the science of microbiology. Am Sci 93:508–515CrossRef
go back to reference Hiebert FK, Bennett PC (1992) Microbial control of silicate weathering in organic-rich ground water. Science 258:278–281CrossRef Hiebert FK, Bennett PC (1992) Microbial control of silicate weathering in organic-rich ground water. Science 258:278–281CrossRef
go back to reference Kalinowski BE, Liermann LJ, Brantley SL, Barnes A, Pantano CG (2000) X-ray photoelectron evidence for bacteria enhanced dissolution of hornblende. Geochim Cosmochim Acta 64:1331–1343CrossRef Kalinowski BE, Liermann LJ, Brantley SL, Barnes A, Pantano CG (2000) X-ray photoelectron evidence for bacteria enhanced dissolution of hornblende. Geochim Cosmochim Acta 64:1331–1343CrossRef
go back to reference Kawano M, Tomita K (2002) Microbiotic formation of silicate minerals in the weathering environment of a pyroclastic deposit. Clays Clay Miner 50(1):99–110CrossRef Kawano M, Tomita K (2002) Microbiotic formation of silicate minerals in the weathering environment of a pyroclastic deposit. Clays Clay Miner 50(1):99–110CrossRef
go back to reference Konhauser KO, Urrutia MM (1999) Bacterial clay authigenesis: a common biogeochemical process. Chem Geol 161: 399–413 Konhauser KO, Urrutia MM (1999) Bacterial clay authigenesis: a common biogeochemical process. Chem Geol 161: 399–413
go back to reference Kuang W, Glenn AF, Detellier C (2004) Dehydration and rehydration of Palygorskite and the influence of water on the nanopores. Clays Clay Miner 52: 635–642 Kuang W, Glenn AF, Detellier C (2004) Dehydration and rehydration of Palygorskite and the influence of water on the nanopores. Clays Clay Miner 52: 635–642
go back to reference Likhoshway EV, Sorokovikova EG, Bel’kova NL, Belykh OI, Titov AT, Sakirko MV, Parfenova VV (2006) Silicon mineralization in the culture of cyanobacteria from hot springs. Doklady Biol Sci 407:201–205 Likhoshway EV, Sorokovikova EG, Bel’kova NL, Belykh OI, Titov AT, Sakirko MV, Parfenova VV (2006) Silicon mineralization in the culture of cyanobacteria from hot springs. Doklady Biol Sci 407:201–205
go back to reference Madejová J, Jankovič L, Pentrák M, Komadel P (2011) Benefits of near-infrared spectroscopy for characterization of selected organo-montmorillonites. Vib Spectrosc 57(1):8–14 Madejová J, Jankovič L, Pentrák M, Komadel P (2011) Benefits of near-infrared spectroscopy for characterization of selected organo-montmorillonites. Vib Spectrosc 57(1):8–14
go back to reference Phoenix VR, Adams DG, Konhauser KO (2000) Cyanonacterial viability during hydrothermal biomineralisation. Chem Geol 169:329–338CrossRef Phoenix VR, Adams DG, Konhauser KO (2000) Cyanonacterial viability during hydrothermal biomineralisation. Chem Geol 169:329–338CrossRef
go back to reference Ransom B, Bennet RH, Baerwald R, Hulbert MH, Burkett P-J (1999) In situ conditions and interactions between microbes and minerals in fine-grained marine sediments: a TEM microfabric perspective. Am Mineral 84:183–192CrossRef Ransom B, Bennet RH, Baerwald R, Hulbert MH, Burkett P-J (1999) In situ conditions and interactions between microbes and minerals in fine-grained marine sediments: a TEM microfabric perspective. Am Mineral 84:183–192CrossRef
go back to reference Rozanov AY (2003) Fossil bacteria, sedimentogenesis, and the early biospheric evolution. Paleontol Zh 39(6):41–49 [Paleontol J (Engl. Transl.) 39(6):600–609] Rozanov AY (2003) Fossil bacteria, sedimentogenesis, and the early biospheric evolution. Paleontol Zh 39(6):41–49 [Paleontol J (Engl. Transl.) 39(6):600–609]
go back to reference Singer A (1989) Palygorskite and sepiolite group minerals, in Dixon JB , Weed SB (eds.) Minerals in soil environments, Soil Science Society of America, Madison, WI, 2nd Ed., p. 829–872 Singer A (1989) Palygorskite and sepiolite group minerals, in Dixon JB , Weed SB (eds.) Minerals in soil environments, Soil Science Society of America, Madison, WI, 2nd Ed., p. 829–872
go back to reference Schultze-Lam S, Forris FG, Konhauser KO, Wiese RG (1995) In situ silicification of an Icelandic hot spring microbial mat: implications for microfossil formation. Can J Earth Sci 32:2021–2026CrossRef Schultze-Lam S, Forris FG, Konhauser KO, Wiese RG (1995) In situ silicification of an Icelandic hot spring microbial mat: implications for microfossil formation. Can J Earth Sci 32:2021–2026CrossRef
go back to reference Tazaki K (1998) A New world in the science of biomineralization—environmental biomineralization in microbial mats in Japan. The Science Reports of Kanazawa University, Japan. XLII (N 1, 2) Tazaki K (1998) A New world in the science of biomineralization—environmental biomineralization in microbial mats in Japan. The Science Reports of Kanazawa University, Japan. XLII (N 1, 2)
go back to reference Tazaki K, Okrugin V, Okuno M, Belkova N, Islam AR, Chaerun SK, Wakimoto R, Sato K, Moriichi S (2003) Heavy metallic concentration in microbial mats found at hydrothermal systems, Kamchatka, Russia. Science reports of Kanazawa University, Japan. 47 (N 1–2) Tazaki K, Okrugin V, Okuno M, Belkova N, Islam AR, Chaerun SK, Wakimoto R, Sato K, Moriichi S (2003) Heavy metallic concentration in microbial mats found at hydrothermal systems, Kamchatka, Russia. Science reports of Kanazawa University, Japan. 47 (N 1–2)
go back to reference Thorseth IH, Furnes H, Tumyr O (1995) Textural and chemical effects of bacterial activity on basaltic glass: an experimental approach. Chem Geol 119:139–160CrossRef Thorseth IH, Furnes H, Tumyr O (1995) Textural and chemical effects of bacterial activity on basaltic glass: an experimental approach. Chem Geol 119:139–160CrossRef
go back to reference Trebst A (1980) Inhibitors in electron flow: tools for the functional and structural localization of carriers and energy conversation sites. Methods Enzymol 69:675–715CrossRef Trebst A (1980) Inhibitors in electron flow: tools for the functional and structural localization of carriers and energy conversation sites. Methods Enzymol 69:675–715CrossRef
go back to reference Ueshima M, Tazaki K (2001) Possible role of microbial polysaccharides in nontronite formation. Clays Clay Miner 49(4):292–299CrossRef Ueshima M, Tazaki K (2001) Possible role of microbial polysaccharides in nontronite formation. Clays Clay Miner 49(4):292–299CrossRef
go back to reference Ushatinskaya GT, Zaitseva LV, Orleansky VK, Gerasimenko LM (2006) Significance of bacteria in natural and experimental sedimentation of carbonates, phosphates and silicates. Paleontol J 40(Suppl 4):524–531CrossRef Ushatinskaya GT, Zaitseva LV, Orleansky VK, Gerasimenko LM (2006) Significance of bacteria in natural and experimental sedimentation of carbonates, phosphates and silicates. Paleontol J 40(Suppl 4):524–531CrossRef
go back to reference Vandevivere P, Welch SA, Ullman WJ, Kirchman DL (1994) Enhanced dissolution of silicate minerals by bacteria at near-neutral pH. Microb Ecol 27:241–251CrossRef Vandevivere P, Welch SA, Ullman WJ, Kirchman DL (1994) Enhanced dissolution of silicate minerals by bacteria at near-neutral pH. Microb Ecol 27:241–251CrossRef
go back to reference Zavarzin GA (1993) Development of microbial community in the history of Earth. In: Problems of before anthropogenic evolution of biosphere. Nauka, Moscow, pp 212–222 (in Russian) Zavarzin GA (1993) Development of microbial community in the history of Earth. In: Problems of before anthropogenic evolution of biosphere. Nauka, Moscow, pp 212–222 (in Russian)
Metadata
Title
Modifications of Selected Clay Minerals Due to Activity of Filamentous Alkaline Cyanobacteria
Authors
Andery O. Alekseev
Tatiana V. Alekseeva
Lyudmila M. Gerasimenko
Vladimir. K. Orleanskiy
Galina T. Ushatinskaya
Copyright Year
2016
DOI
https://doi.org/10.1007/978-3-319-24987-2_4