Evolution of sandy soils within deflation hollows in shifting areas of sand - a case study from the Błędów Desert (Poland)

Areas of shifting sand are important places for testing the effects of abiotic and biotic factors on soil morphology and evolution, where aeolian processes cause dynamic changes in the natural environment. The main aim of the study was to determine the evolution of soils within deflation hollows in...

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Bibliographic Details
Published inSoil and water research Vol. 12; no. 3; pp. 161 - 169
Main Authors GUS, Magdalena, DREWNIK, Marek
Format Journal Article
LanguageEnglish
Published Prague Czech Academy of Agricultural Sciences (CAAS) 01.01.2017
Czech Academy of Agricultural Sciences
Subjects
Accumulation
aeolian processes
Biotic factors
Chemical properties
Deflation
Developmental stages
drift sand
Eolian processes
Evolution
Morphology
Organic matter
Organic soils
ortstein
podzolization
Reforestation
Sand
Sandy soils
soil development
Soil dynamics
Soil erosion
Soil morphology
Soil organic matter
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Summary:Areas of shifting sand are important places for testing the effects of abiotic and biotic factors on soil morphology and evolution, where aeolian processes cause dynamic changes in the natural environment. The main aim of the study was to determine the evolution of soils within deflation hollows in shifting sands. In the context of this purpose, representative study areas were selected: (1) a reference surface in a plantation forest with soils undisturbed by aeolian processes – one pedon, (2) an active deflation hollow – two pedons, (3) a deflation hollow stabilized by reforestation (forest planting ca. 30 and ca. 100 years ago – two pedons). Soil morphology and micromorphology as well as several physical and chemical properties were analyzed. In a deflation hollow, the studied soils are found at various stages of development, mostly characterized by a relatively rapid accumulation of soil organic matter. A well-developed buried illuvial B horizon as an ‘ortstein’ material can limit aeolian erosion to a certain depth, while above these horizons aeolian erosion and accumulation remain active. History of changes in the environment is to a substantial degree reflected in morphology and micromorphology of the studied soils.
ISSN:1801-5395
1805-9384
DOI:10.17221/36/2016-SWR