The character and genesis of calcrete in Late Quaternary alluvial deposits, Gujarat, western India, and its bearing on the interpretation of ancient climates
As. Khadkikar et al., The character and genesis of calcrete in Late Quaternary alluvial deposits, Gujarat, western India, and its bearing on the interpretation of ancient climates, PALAEOGEO P, 162(3-4), 2000, pp. 239-261
Late Quaternary deposits in Mainland Gujarat contain sediments deposited in
subhumid and semi-arid climates. The 30-35 m succession shows the presence
of Vertisols at the base and a red-bed horizon (ferric Calcisol when pedog
enic in origin) that roughly bisects the succession. A widespread developme
nt of calcretes is observed throughout the succession. The various varietie
s of calcrete include pedogenic calcrete, groundwater calcrete, calcrete co
nglomerate (transported calcrete) and rhizogenic calcrete. Pedogenic calcre
te nodules associated with Vertisols and the red-soil show marked differenc
es in morphology, dimensions and the distribution of microscopic features.
These differences arise due to contrasting climate-controlled physicochemic
al environs under which they formed. Pedogenic calcrete nodules associated
with Vertisols acquire large (5-10 cm) dimensions and are characterised by
either showing the presence of a nucleus of soil-matter or showing a dense
micritic groundmass cut by thick sparitic veins. In contrast, calcrete nodu
les that formed in the red-soil are <3 cm in size and do not exhibit dense
networks of sparitic veins. Calcretes associated with Vertisols and the fer
ric Calcisol also exhibit differences in the morphology of rhizoliths. Thes
e differences also show up in the distribution of microfabrics of calcretes
. Grain coats are present in rhizogenic and pedogenic calcretes, but absent
in groundwater calcretes and less profuse in hydromorphic soil calcretes.
Clotted micrite is present in all types except groundwater calcretes. Spari
tic veins, however, are observed in each type, but are relatively less deve
loped in groundwater calcretes. A similar distribution of displacive and re
placive textures is also seen, although some grains in groundwater calcrete
s showed signs of corrosion. The Vertisol-associated calcretes represent a
subhumid (500-700 mm) climate, whereas the red-soil calcretes suggest a sem
i-arid (100-500 mm) climate. Calcretes from the Vertisol association show a
range in delta(13)C composition constrained between -9 parts per thousand
and -5 parts per thousand, whereas the red-soil calcretes exhibit the whole
spectrum of Values from -9 parts per thousand to -1 parts per thousand. Ba
sed on mineralogical associations, calcretes, usually taken to reflect semi
-arid episodes in the Earth's history, may be classified further. Calcretes
, when associated with sepiolite/palygorskite, suggest an arid climate (mea
n annual rainfall = 50 - 100 mm), when associated with smectite, haematite
and the absence of hydromorphism, a semi-arid climate (mean annual rainfall
= 100-500 mm), and when found in smectitic Vertisols, subhumid climates (m
ean annual rainfall = 500-700 mm). (C) 2000 Elsevier Science B.V. All right
s reserved.