Record Details

Micromorphology, clay mineralogy, and geochemistry of calcic-soils from western Thar Desert: Implications for origin of palygorskite and southwestern monsoonal fluctuations over the last 30 ka

KRISHI: Publication and Data Inventory Repository

View Archive Info
 
 
Field Value
 
Title Micromorphology, clay mineralogy, and geochemistry of calcic-soils from western Thar Desert: Implications for origin of palygorskite and southwestern monsoonal fluctuations over the last 30 ka
Not Available
 
Creator A. Hameeda,
P. Rajab,
M. Alia,
N. Upretia
N. Kumara,
J.K. Tripathic
. P. Srivastavaa
 
Subject Western Thar Pedogenic calcrete Palygorskite Aridisols Late Quaternary
 
Description Not Available
The Thar desert with intense aeolian activity and calcrete formation is one of the hottest arid regions of the
world. Little is known about the formation of calcic soils with a large amount of palygorskite in the western Thar.
In this study, we have used microscopy, sub-microscopy, clay mineralogy, and geochemistry of three calcic soils
from western Thar to understand the pedogenesis in response to fluctuating southwestern monsoon over the last
30 ka. Thin sections of the soils show a dominance of weakly developed pedofeatures with powdery to wellindurated
pedogenic calcium carbonate that influenced weathering of primary mineral grains. Sub-microscopy
of the calcretes shows a large amount of fibrous palygorskite in pore spaces of micritic and sparitic nodules. XRD
of the total clay (< 2 μm) and fine clay (< 0.2 μm) fractions of the soils shows the dominance of smectite,
palygorskite, chlorite, mica, kaolinite, and small amounts of quartz and feldspar. Palygorskite occurring in Bw,
Bss, Bwk, and BC horizons of these calcic-soils is related to non-pedogenic processes. Presence of only weak
pedogenesis, lithological discontinuities, varying geochemical composition, and silt size palygorskite suggest its
inheritance from marine sedimentary rocks of the area. It is attributed to rapid aggradation of palygorskite
bearing aeolian sedimentary flux during increased aridity and weakening of the southwestern monsoon over the
last 30 ka. A decrease or complete absence of palygorskite in Btk horizon and sediments is related to intervening
wetter conditions during MIS3-MIS1 stages. The present study of the palygorskite bearing calcic soils from
western Thar could be useful to explain the possible mechanism for ongoing desertification and formation of
calcrete in other arid tracts of the world.
Not Available
 
Date 2020-06-12T09:33:40Z
2020-06-12T09:33:40Z
2017-12-26
 
Type Research Paper
 
Identifier Not Available
Not Available
http://krishi.icar.gov.in/jspui/handle/123456789/37117
 
Language English
 
Relation Not Available;
 
Publisher Not Available