Journal ArticleDOI
Gaseous products of nitrite decomposition in soils
D.W. Nelson,J. M. Bremner +1 more
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In this paper, it was shown that organic soil constituents are responsible for the reduction of nitrite to N 2 and N 2 O and for the fixation of Nitrite N observed on treatment of soils with nitrite and that inorganic soil constituents were not involved in these reactions.Abstract:
Studies of the gaseous products formed by chemical decomposition of nitrite in soils showed that substantial amounts of N 2 and NO 2 and small amounts of N 2 O were evolved on treatment of neutral and acidic soils with nitrite, the largest amount of N 2 being formed in an acidic soil having a high organic matter content. The amount of NO 2 produced was inversely related to soil pH, but significant amounts of NO 2 were evolved from soils having pH values above 7. The failure of some investigators to detect NO 2 as a product of nitrite decomposition in acidic soils can be attributed to use of closed experimental systems that promoted sorption of this gas by moist soil and conversion of NO 2 to nitrate. A study of the selfdecomposition reaction of nitrous acid showed that this reaction does not proceed according to the classical equation 3HNO 2 = HNO 3 + 2NO + H 2 O and is better represented by the equation 2HNO 2 = NO + NO 2 + H 2 O. Evidence was obtained that organic soil constituents are responsible for the reduction of nitrite to N 2 and N 2 O and for the fixation of nitrite N observed on treatment of soils with nitrite and that inorganic soil constituents are not involved in these reactions. Several experiments indicated that most of the NO 2 evolved on treatment of soils with nitrite is formed by self-decomposition of nitrous acid and by atmospheric oxidation of NO produced by this reaction.read more
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Book ChapterDOI
Biochemical Ecology of Nitrification and Denitrification
W. Verstraete,D. D. Focht +1 more
TL;DR: In terms of the global fluxes between aerial and terrestrial-aquatic systems, the simplified nitrogen cycle can be envisioned as a triangle where the only biologically reversible reaction occurs between ammonium and nitrate.
Journal ArticleDOI
Sources of nitrous oxide in soils
TL;DR: In this article, it was shown that Nitrosomonas europaea contributes significantly to the production of N2O in soils treated with ammonium or ammonium-yielding fertilizers such as urea.
Journal ArticleDOI
NOx And N2O Emissions From Soil
TL;DR: In this paper, a review of the atmospheric and ecological implications of NOx and N2O emissions from soils is presented, with particular emphasis placed on the atmospheric, ecological, and economic implications of this source.
Journal ArticleDOI
Nitrous oxide production by nitrification and denitrification in soil aggregates as affected by O2 concentration
TL;DR: In this article, the influence of O2 concentration on N2O production by nitrification and denitrification in an arable Orthic Luvisol was investigated, and it was shown that O2 concentrations greater than 0.4 were highly correlated with O2 consumption rates.
Journal ArticleDOI
Production of NO and N2O by soil nitrifying bacteria
F. Lipschultz,Steven C. Wofsy,Michael B. McElroy,Oliver C. Zafiriou,Frederica W. Valois,Stanley W. Watson +5 more
Abstract: The composition of the atmosphere is influenced both directly and indirectly by biological activity. Evidence is presented here to suggest that nitrification in soil is a potentially significant source of both NO and N2O. Between 0.3 and 10% of the ammonium oxidized by cultures of the soil bacterium Nitrosomonas europaea is converted to these gases. The global source for NO associated with nitrification could be as large as 15,000,000 tonnes N/yr, with a source for N2O of 5,000,000-10,000,000 tonnes N/yr. Nitric oxide has a key role in tropospheric chemistry, participating in a complex set of reactions regulating OH and O3. Nitrous oxide is a dominant source of stratospheric NO and has a significant influence on climate.
References
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Journal ArticleDOI
Determination and Isotope-Ratio Analysis of Different Forms of Nitrogen in Soils: 3. Exchangeable Ammonium, Nitrate, and Nitrite by Extraction-Distillation Methods1
J. M. Bremner,D. R. Keeney +1 more
TL;DR: In this article, a method for determining exchangeable ammonium, nitrate, and nitrite in soils is described, which involves extraction of the soil sample with 2M KCl (10 ml/g of soil) and analysis of the extract by steam-distillation methods in which magnesium oxide is used for distillation of ammonium.
Book
Soil-plant relationships
TL;DR: Soil-plant relationships as mentioned in this paper have been studied in the context of Soil-Plant relationships, where the relationship between plants and soil is based on the concept of soil plant relationships.
Journal ArticleDOI
Investigations on Denitrification in Soil
TL;DR: In this paper, investigations on denitrification in Soil Acta Agriculturae Scandinavica: Vol 6, No 2, pp 195-228 are presented. But they do not consider the use of artificial soil.