The microporous structure of organic and mineral soil materials

Microporous properties of soil materials are considered important to the physical sequestration processes of contaminants and the influence on risk assessment for chemicals in the environment. The authors studied the microporous properties of five organic soil materials and two agricultural topsoils...

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Veröffentlicht in:	Soil science 2000-02, Vol.165 (2), p.99-108
Hauptverfasser:	DE JONGE, H, DE JONGE, L. W, MITTELMEIJER-HAZELEGER, M. C
Format:	Artikel
Sprache:	eng
Schlagworte:	ACETYLENE CARBON DIOXIDE Earth sciences Earth, ocean, space Engineering and environment geology. Geothermics ENVIRONMENTAL SCIENCES ENVIRONMENTAL TRANSPORT ETHANE ETHERS ETHYLENE Exact sciences and technology NITRATES ORGANIC COMPOUNDS Pollution, environment geology POROSITY SOIL CHEMISTRY SOILS SORPTION Surficial geology
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creator	DE JONGE, H DE JONGE, L. W MITTELMEIJER-HAZELEGER, M. C
description	Microporous properties of soil materials are considered important to the physical sequestration processes of contaminants and the influence on risk assessment for chemicals in the environment. The authors studied the microporous properties of five organic soil materials and two agricultural topsoils and their size separates. The methods used were gas adsorption with N{sub 2}, CO{sub 2}, C{sub 2}H{sub 6}, C{sub 2}H{sub 4}, and C{sub 2}H{sub 2}, as well as retention of the polar liquid EGME (ethylene-glycol-dimethyl-ether). measured surface areas and micropore volumes determined with gas adsorption were strongly dependent on the molecular dimensions of the adsorbent, revealing that dried organic and mineral soil materials behave like rigid structures in the micropore range. A precipitated humic acid behaved differently, revealing a more open and/or homogeneous micropore structure. The EGME-derived surface areas of organic soil materials had a magnitude similar to the CO{sub 2}-derived surface areas. The microporous structure of the more rigid soil organic matter (SOM) materials does not seem to be affected strongly by EGME penetration. The SOM rigidity seems to be positively correlated to SOM polarity and negatively correlated to sorption coefficients of naphthalene under wet conditions. The surface areas of mineral soils and size-separates measured with CO{sub 2} and EGME were of comparable size in the absence of swelling clay minerals.
doi_str_mv	10.1097/00010694-200002000-00001
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A precipitated humic acid behaved differently, revealing a more open and/or homogeneous micropore structure. The EGME-derived surface areas of organic soil materials had a magnitude similar to the CO{sub 2}-derived surface areas. The microporous structure of the more rigid soil organic matter (SOM) materials does not seem to be affected strongly by EGME penetration. The SOM rigidity seems to be positively correlated to SOM polarity and negatively correlated to sorption coefficients of naphthalene under wet conditions. 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W</au><au>MITTELMEIJER-HAZELEGER, M. C</au><aucorp>Danish Inst. of Agricultural Sciences, Tjele (DK)</aucorp><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>The microporous structure of organic and mineral soil materials</atitle><jtitle>Soil science</jtitle><date>2000-02-01</date><risdate>2000</risdate><volume>165</volume><issue>2</issue><spage>99</spage><epage>108</epage><pages>99-108</pages><issn>0038-075X</issn><eissn>1538-9243</eissn><coden>SOSCAK</coden><abstract>Microporous properties of soil materials are considered important to the physical sequestration processes of contaminants and the influence on risk assessment for chemicals in the environment. The authors studied the microporous properties of five organic soil materials and two agricultural topsoils and their size separates. The methods used were gas adsorption with N{sub 2}, CO{sub 2}, C{sub 2}H{sub 6}, C{sub 2}H{sub 4}, and C{sub 2}H{sub 2}, as well as retention of the polar liquid EGME (ethylene-glycol-dimethyl-ether). measured surface areas and micropore volumes determined with gas adsorption were strongly dependent on the molecular dimensions of the adsorbent, revealing that dried organic and mineral soil materials behave like rigid structures in the micropore range. A precipitated humic acid behaved differently, revealing a more open and/or homogeneous micropore structure. The EGME-derived surface areas of organic soil materials had a magnitude similar to the CO{sub 2}-derived surface areas. The microporous structure of the more rigid soil organic matter (SOM) materials does not seem to be affected strongly by EGME penetration. The SOM rigidity seems to be positively correlated to SOM polarity and negatively correlated to sorption coefficients of naphthalene under wet conditions. The surface areas of mineral soils and size-separates measured with CO{sub 2} and EGME were of comparable size in the absence of swelling clay minerals.</abstract><cop>Baltimore, MD</cop><pub>Lippincott Williams & Wilkins</pub><doi>10.1097/00010694-200002000-00001</doi><tpages>10</tpages></addata></record>
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source	Periodicals Index Online; Journals@Ovid Complete
subjects	ACETYLENE CARBON DIOXIDE Earth sciences Earth, ocean, space Engineering and environment geology. Geothermics ENVIRONMENTAL SCIENCES ENVIRONMENTAL TRANSPORT ETHANE ETHERS ETHYLENE Exact sciences and technology NITRATES ORGANIC COMPOUNDS Pollution, environment geology POROSITY SOIL CHEMISTRY SOILS SORPTION Surficial geology
title	The microporous structure of organic and mineral soil materials
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