Scholarly record
MICROMORPHOLOGICAL INVESTIGATION OF VESICULAR SOIL HORIZONS AND DESERT VARNISH IN THE MOJAVE (USA) AND TRANS-ALTAI GOBI (MONGOLIA) DESERTS
Abstract
Due to the global problem of desertification, the demand in the diagnostics of the soil forming in the desert conditions is increased. The desert varnish and the vesicular (porous) crust horizon are distinctive morphological features of desert landscapes and, at the same time, generally recognized features of desert soil formation, being commonly referred to as the yermic horizons in different sub-groups within reference groups of desert soils. The objects of the present study were the surface horizons of vesicular crust and desert pavement in extremely arid soils of the Mojave (USA) and Trans-Altai Gobi (Mongolia) Deserts. The study methods included tomographic c analyses (using a Bruker SkyScan 1172 microtomograph), micromorphological analyses (using an Olympus B?51 polarizing microscope equipped with an Olympus DP26 digital camera) and submicromorphological analyses (using a JEOL JSM-6610LV scanning electron microscope with an INCA Energy X-Ray analyser) with determination of the elemental composition of pedofeatures and minerals in different parts of desert varnish cross-sections. Our research on the surface horizons of extremely arid soils developed within the ancient piedmont plains has revealed a large complex of similar elements of microfabrics. The microchemical composition of the darkest and thickest varnish from deserts of different continents is similar and does not depend on the bedrock composition. Thin varnish films have deferent composition depending on the microrelief of rock fragment surface. Combining the data of micromorphological and microchemical analyses of numerous samples has allowed us to suggest that desert varnish development is a polygenetic and polychronic process. We believe that the formation of desert varnish as well as light-coloured vesicular porous surface crust horizons of desert soils can be interconnected and predetermined by hydrophysical-biochemical processes with a leading role of water movements within moisture films and an explosive character of microbiological activity.
Publication Impact Profile
Publication details
References0
Structured references will appear here after the reference import pass. The count is preserved now so the scholarly record is not incomplete.
Citing literature
Number of times cited according to Crossref: 1
View or Download full articleAccess options
SWS access login
Login as SWS Scientific CommitteeLogin as SWS Scientific PartnerLogin as SWS AuthorAuthors and approved SWS contributors will read and export their own linked papers after identity matching by SWS profile, email and SGEM GlobalID.
For librarian assistance: [email protected]
Purchase Instant Access
- Article can be downloaded after successful payment.
- Article may be used according to SWS library access terms.
- Article cannot be redistributed.

