SELECTIVE-INHIBITION OF AMMONIUM OXIDATION AND NITRIFICATION-LINKED N2O FORMATION BY METHYL-FLUORIDE AND DIMETHYL ETHER

被引：37

作者：

MILLER, LG ^{[1
]}

COUTLAKIS, MD ^{[1
]}

OREMLAND, RS ^{[1
]}

WARD, BB ^{[1
]}

机构：

[1] UNIV CALIF SANTA CRUZ,INST MARINE SCI,SANTA CRUZ,CA 95064

来源：

APPLIED AND ENVIRONMENTAL MICROBIOLOGY | 1993年 / 59卷 / 08期

关键词：

D O I：

10.1128/AEM.59.8.2457-2464.1993

中图分类号：

Q81 [生物工程学（生物技术）]; Q93 [微生物学];

学科分类号：

071005 ; 0836 ; 090102 ; 100705 ;

摘要：

Methyl fluoride (CH3F) and dimethyl ether (DME) inhibited nitrification in washed-cell suspensions of Nitrosomonas europaea and in a variety of oxygenated soils and sediments. Headspace additions of CHF (10% [vol/vol]) and DME (25% [vol/vol]) fully inhibited NO2- and N2O production from NH4+ in incubations of N. europaea, while lower concentrations of these gases resulted in partial inhibition. Oxidation of hydroxylamine (NH2OH) by N. europaea and oxidation of NO2- by a Nitrobacter sp. were unaffected by CHF or DME. In nitrifying soils, CH3F and DME inhibited N2O production. In field experiments with surface flux chambers and intact cores, CH3F reduced the release of N2O from soils to the atmosphere by 20- to 30-fold. Inhibition by CH3F also resulted in decreased NO3- + NO2- levels and increased NH4+ levels in soils. CH3F did not affect patterns of dissimilatory nitrate reduction to ammonia in cell suspensions of a nitrate-respiring bacterium, nor did it affect N2O metabolism in denitrifying soils. CHF and DME will be useful in discriminating N2O production via nitrification and denitrification when both processes occur and in decoupling these processes by blocking NO2- and NO3- production.

引用

页码：2457 / 2464

页数：8

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