Micromorphological and physico-chemical characteristics of soil crust types in northwestern Alberta, Canada

The micromorphology and submicroscopy of naturally-formed surface crusts in several soils from the Peace River region, Alberta were studied in order to understand the types and mechanisms of crust formation. Although the soils studied contained stable aggregates in the dry state, these aggregates al...

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Bibliographic Details
Published inSoil Science Society of America journal Vol. 52; no. 3
Main Authors Arshad, M.A, Mermut, A.R
Format Journal Article
LanguageEnglish
Published 01.05.1988
Subjects
ALBERTA
CARACT MORFOLOGICAS (SUELOS)
CLASIFICACION DE SUELOS
CLASSIFICATION DES SOLS
GENESIS DEL SUELO
MICROSCOPIA
MICROSCOPIE
PEDOGENESE
PROPIEDADES FISICO-QUIMICAS (SUELO)
PROPRIETE PHYSICO-CHIMIQUE DU SOL
TRAIT MORPHOLOGIQUE DU SOL
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Summary:The micromorphology and submicroscopy of naturally-formed surface crusts in several soils from the Peace River region, Alberta were studied in order to understand the types and mechanisms of crust formation. Although the soils studied contained stable aggregates in the dry state, these aggregates almost completely broke down when wet, leading to the crusting tendency of the soils. Other soil characteristics that likely induced the structural deterioration were high silt contents, exchangeable Na and Mg, and low organic matter contents. Three morphological types of surface crusts were identified, including (i) lamellar, (ii) sedimentational, and (iii) disruptional. Lamellar crusts were typical of soils high in clay and exchangable Na and Mg. Sedimentational crusts were found in areas which were subject to large amounts of surface runoff and subsequent sedimentation of suspended materials. Disruptional crusts were formed by direct raindrop detachment of soil aggregates, subsequent disruption of aggregates, and a reduction of volume within the crust. Disruptional crust was the most common crust formed in the silty soils of the Peace River region. One characteristic, very common to all crust types, was the presence of 2 to 5 micron thick layers within the immediate surface that caused the complete sealing of the soil surface. The moisture content of the immediate surface layer determines the strength of the crust. Hence, water management and mulching is crucial for crust prone soils
Bibliography:8856214
P32
ISSN:0361-5995
1435-0661
DOI:10.2136/sssaj1988.03615995005200030024x