Nitrous oxide distribution in soil and surface flux

Nitrous oxide distribution in soil and surface flux

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The N2O surface emission and profile redistribution in a silty clay soil was investigated with 4 cropping systems (alfalfa, summerfallow, wheat and native grass during spring thaw. The relationship between gas concentration profiles and surface flux was also explored. There is little information in...

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Main Author: Kagan, Michael William
Language:en_US
Published: 2007
Online Access:http://hdl.handle.net/1993/2261
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spelling ndltd-MANITOBA-oai-mspace.lib.umanitoba.ca-1993-22612014-01-31T03:31:13Z Nitrous oxide distribution in soil and surface flux Kagan, Michael William The N2O surface emission and profile redistribution in a silty clay soil was investigated with 4 cropping systems (alfalfa, summerfallow, wheat and native grass during spring thaw. The relationship between gas concentration profiles and surface flux was also explored. There is little information in the literature reporting the efficiency of current storage methods for N2O samples collected in the field. One of the most common methods is storage in a syringe with subsequent manual injection into a gas chromatograph for analysis. Four methods of storage are investigated: the syringe method, the vacutainer method, and autosampler both with and without a liquid diffusion barrier. Many N2O flux studies focus on the inputs into the N 2O-forming processes and the timing of significant flux events, while little has been done specifically comparing N2O movement through different soil textures. Thus a laboratory method was developed to compare the effects of soil textureon permeability and redistribution of N2O in three different soils (sandy clay, clay loam and clay. (Abstract shortened by UMI.) 2007-06-01T19:18:59Z 2007-06-01T19:18:59Z 2000-03-01T00:00:00Z http://hdl.handle.net/1993/2261 en_US
collection NDLTD
language en_US
sources NDLTD
description The N2O surface emission and profile redistribution in a silty clay soil was investigated with 4 cropping systems (alfalfa, summerfallow, wheat and native grass during spring thaw. The relationship between gas concentration profiles and surface flux was also explored. There is little information in the literature reporting the efficiency of current storage methods for N2O samples collected in the field. One of the most common methods is storage in a syringe with subsequent manual injection into a gas chromatograph for analysis. Four methods of storage are investigated: the syringe method, the vacutainer method, and autosampler both with and without a liquid diffusion barrier. Many N2O flux studies focus on the inputs into the N 2O-forming processes and the timing of significant flux events, while little has been done specifically comparing N2O movement through different soil textures. Thus a laboratory method was developed to compare the effects of soil textureon permeability and redistribution of N2O in three different soils (sandy clay, clay loam and clay. (Abstract shortened by UMI.)
author Kagan, Michael William
spellingShingle Kagan, Michael William
Nitrous oxide distribution in soil and surface flux
author_facet Kagan, Michael William
author_sort Kagan, Michael William
title Nitrous oxide distribution in soil and surface flux
title_short Nitrous oxide distribution in soil and surface flux
title_full Nitrous oxide distribution in soil and surface flux
title_fullStr Nitrous oxide distribution in soil and surface flux
title_full_unstemmed Nitrous oxide distribution in soil and surface flux
title_sort nitrous oxide distribution in soil and surface flux
publishDate 2007
url http://hdl.handle.net/1993/2261
work_keys_str_mv AT kaganmichaelwilliam nitrousoxidedistributioninsoilandsurfaceflux
_version_ 1716628437305655296

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