Gaseous hydrocarbons associated with black layer induced by the interaction of cyanobacteria and Desulfovibrio desulfuricans

Black layer is a condition of high-sand-content golf greens that results in a subsurface blackened layer in the sand produced by sulfate-reducing bacteria. Black layer can be the product of an interaction of cyanobacteria and sulfate-reducing bacteria and may or may not be toxic to the grass growing...

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Veröffentlicht in:	Plant and soil 1998-08, Vol.205 (1), p.77-83
Hauptverfasser:	Hodges, C.F. (Iowa State Univ., Ames, IA (USA). Dept. of Horticulture), Campbell, D.A
Format:	Artikel
Sprache:	eng
Schlagworte:	ACETILENO ACETYLENE Agronomy. Soil science and plant productions ANOXIA ANOXIE Bacteria Biochemistry and biology Biological and medical sciences Chemical, physicochemical, biochemical and biological properties Cyanobacteria CYANOPHYTA Desulfovibrio Desulfovibrio desulfuricans Ethane ETHYLENE ETILENO Evolution Fundamental and applied biological sciences. Psychology Gases Golf courses GRASSLAND SOILS Hydrocarbons METANO METHANE Microbiology Nostoc Oscillatoria Physics, chemistry, biochemistry and biology of agricultural and forest soils Propylene Sand Sedimentary soils Soil science SOL D'HERBAGES SUELO DE PRADERAS Sulfate reducing bacteria Sulfate reduction Sulfates
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creator	Hodges, C.F. (Iowa State Univ., Ames, IA (USA). Dept. of Horticulture) Campbell, D.A
description	Black layer is a condition of high-sand-content golf greens that results in a subsurface blackened layer in the sand produced by sulfate-reducing bacteria. Black layer can be the product of an interaction of cyanobacteria and sulfate-reducing bacteria and may or may not be toxic to the grass growing on the sand. The organic byproducts of the cyanobacteria coat and plug the sand thereby creating an anoxic environment for development of the sulfatereducing bacteria. The present study was initiated to determine the range of gaseous hydrocarbons evolved from black layered sand produced by the interaction of two genera of cyanobacteria, Nostoc and Oscillatoria, and Desulfovibrio desulfuricans. The gaseous hydrocarbons measured included methane, ethane, ethylene, and propylene. In nonblackened sand, Nostoc evolved the highest levels of these gases, Oscillatoria evolved relatively low levels except for propylene, and D. desulfuricans evolved the smallest quantities of the gases. When the cyanobacteria and D. desulfuricans were combined to develop black layered sand some changes occurred in the evolution of the gases. Evolution of the gases from Nostoc + D. desulfuricans decreased or remained the same relative to Nostoc alone, and increased relative to D. desulfuricans alone. Except for propylene evolution, gases from Oscillatoria + D. desulfuricans increased relative to Oscillatoria or D. desulfuricans alone. Propylene evolution from Oscillatoria + D. desulfuricans remained unchanged relative to Oscillatoria alone, but increased relative to D. desulfuricans alone. The gases measured are discussed relative to the organisms observed and the conditions of the study.
doi_str_mv	10.1023/A:1004361407061
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(Iowa State Univ., Ames, IA (USA). Dept. of Horticulture) ; Campbell, D.A</creator><creatorcontrib>Hodges, C.F. (Iowa State Univ., Ames, IA (USA). Dept. of Horticulture) ; Campbell, D.A</creatorcontrib><description>Black layer is a condition of high-sand-content golf greens that results in a subsurface blackened layer in the sand produced by sulfate-reducing bacteria. Black layer can be the product of an interaction of cyanobacteria and sulfate-reducing bacteria and may or may not be toxic to the grass growing on the sand. The organic byproducts of the cyanobacteria coat and plug the sand thereby creating an anoxic environment for development of the sulfatereducing bacteria. The present study was initiated to determine the range of gaseous hydrocarbons evolved from black layered sand produced by the interaction of two genera of cyanobacteria, Nostoc and Oscillatoria, and Desulfovibrio desulfuricans. The gaseous hydrocarbons measured included methane, ethane, ethylene, and propylene. In nonblackened sand, Nostoc evolved the highest levels of these gases, Oscillatoria evolved relatively low levels except for propylene, and D. desulfuricans evolved the smallest quantities of the gases. When the cyanobacteria and D. desulfuricans were combined to develop black layered sand some changes occurred in the evolution of the gases. Evolution of the gases from Nostoc + D. desulfuricans decreased or remained the same relative to Nostoc alone, and increased relative to D. desulfuricans alone. Except for propylene evolution, gases from Oscillatoria + D. desulfuricans increased relative to Oscillatoria or D. desulfuricans alone. Propylene evolution from Oscillatoria + D. desulfuricans remained unchanged relative to Oscillatoria alone, but increased relative to D. desulfuricans alone. 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(Iowa State Univ., Ames, IA (USA). Dept. of Horticulture)</creatorcontrib><creatorcontrib>Campbell, D.A</creatorcontrib><title>Gaseous hydrocarbons associated with black layer induced by the interaction of cyanobacteria and Desulfovibrio desulfuricans</title><title>Plant and soil</title><description>Black layer is a condition of high-sand-content golf greens that results in a subsurface blackened layer in the sand produced by sulfate-reducing bacteria. Black layer can be the product of an interaction of cyanobacteria and sulfate-reducing bacteria and may or may not be toxic to the grass growing on the sand. The organic byproducts of the cyanobacteria coat and plug the sand thereby creating an anoxic environment for development of the sulfatereducing bacteria. The present study was initiated to determine the range of gaseous hydrocarbons evolved from black layered sand produced by the interaction of two genera of cyanobacteria, Nostoc and Oscillatoria, and Desulfovibrio desulfuricans. The gaseous hydrocarbons measured included methane, ethane, ethylene, and propylene. In nonblackened sand, Nostoc evolved the highest levels of these gases, Oscillatoria evolved relatively low levels except for propylene, and D. desulfuricans evolved the smallest quantities of the gases. When the cyanobacteria and D. desulfuricans were combined to develop black layered sand some changes occurred in the evolution of the gases. Evolution of the gases from Nostoc + D. desulfuricans decreased or remained the same relative to Nostoc alone, and increased relative to D. desulfuricans alone. Except for propylene evolution, gases from Oscillatoria + D. desulfuricans increased relative to Oscillatoria or D. desulfuricans alone. Propylene evolution from Oscillatoria + D. desulfuricans remained unchanged relative to Oscillatoria alone, but increased relative to D. desulfuricans alone. 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(Iowa State Univ., Ames, IA (USA). Dept. of Horticulture)</au><au>Campbell, D.A</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Gaseous hydrocarbons associated with black layer induced by the interaction of cyanobacteria and Desulfovibrio desulfuricans</atitle><jtitle>Plant and soil</jtitle><date>1998-08-01</date><risdate>1998</risdate><volume>205</volume><issue>1</issue><spage>77</spage><epage>83</epage><pages>77-83</pages><issn>0032-079X</issn><eissn>1573-5036</eissn><coden>PLSOA2</coden><abstract>Black layer is a condition of high-sand-content golf greens that results in a subsurface blackened layer in the sand produced by sulfate-reducing bacteria. Black layer can be the product of an interaction of cyanobacteria and sulfate-reducing bacteria and may or may not be toxic to the grass growing on the sand. The organic byproducts of the cyanobacteria coat and plug the sand thereby creating an anoxic environment for development of the sulfatereducing bacteria. The present study was initiated to determine the range of gaseous hydrocarbons evolved from black layered sand produced by the interaction of two genera of cyanobacteria, Nostoc and Oscillatoria, and Desulfovibrio desulfuricans. The gaseous hydrocarbons measured included methane, ethane, ethylene, and propylene. In nonblackened sand, Nostoc evolved the highest levels of these gases, Oscillatoria evolved relatively low levels except for propylene, and D. desulfuricans evolved the smallest quantities of the gases. When the cyanobacteria and D. desulfuricans were combined to develop black layered sand some changes occurred in the evolution of the gases. Evolution of the gases from Nostoc + D. desulfuricans decreased or remained the same relative to Nostoc alone, and increased relative to D. desulfuricans alone. Except for propylene evolution, gases from Oscillatoria + D. desulfuricans increased relative to Oscillatoria or D. desulfuricans alone. Propylene evolution from Oscillatoria + D. desulfuricans remained unchanged relative to Oscillatoria alone, but increased relative to D. desulfuricans alone. The gases measured are discussed relative to the organisms observed and the conditions of the study.</abstract><cop>Dordrecht</cop><pub>Kluwer Academic Publishers</pub><doi>10.1023/A:1004361407061</doi><tpages>7</tpages></addata></record>
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subjects	ACETILENO ACETYLENE Agronomy. Soil science and plant productions ANOXIA ANOXIE Bacteria Biochemistry and biology Biological and medical sciences Chemical, physicochemical, biochemical and biological properties Cyanobacteria CYANOPHYTA Desulfovibrio Desulfovibrio desulfuricans Ethane ETHYLENE ETILENO Evolution Fundamental and applied biological sciences. Psychology Gases Golf courses GRASSLAND SOILS Hydrocarbons METANO METHANE Microbiology Nostoc Oscillatoria Physics, chemistry, biochemistry and biology of agricultural and forest soils Propylene Sand Sedimentary soils Soil science SOL D'HERBAGES SUELO DE PRADERAS Sulfate reducing bacteria Sulfate reduction Sulfates
title	Gaseous hydrocarbons associated with black layer induced by the interaction of cyanobacteria and Desulfovibrio desulfuricans
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