Add to ORKGNot AvailableThis study documents the coupling of provenance and climate change over the last 100 ka manifested in clay mineralogy of sediments from two cores (~50 m deep) in the Ganga–Yamuna interfluve in the Himalayan Foreland Basin, India. Depth distribution of the texture and clay mineral assemblage in the two cores show notable differences on account of pedogenesis and sediment supply over the last 100 ka. Core sediments from the northern part of the interfluve (IITK core) are micaceous and dominated by hydroxyl-interlayered dioctahedral low-charge smectitea (LCS) in fine clay fraction but by trioctahedral high-charge smectite (HCS) in silt and coarse clay fractions. In contrast, core sediments from the southern part of the inter...
Mineralogical (X-ray diffraction, differential thermal analysis), geochemical [microprobe, inductive...
The Monsoon is one of the most powerful climatic phenomena on Earth and controls environments in Sou...
The clay mineral assemblages and geochemical compositions of the Permian Talchir and Barakar mudston...
Not AvailableThis study documents the coupling of provenance and climate change over the last 100 ka...
The purpose of this study is to clarify the sedimentary history and chemical characteristics of clay...
International audienceMineralogical and geochemical analyses conducted on cores located on the activ...
In order to reconstruct the variations in the intensity of summer monsoon precipitation during the l...
Clay mineral assemblages of the Neogene Himalayan foreland basin are studied to decipher their signi...
The clay mineralogy of the Late Pliocene-Early Pleistocene Pinjor Formation of the type area, northw...
24-28Texturally, the samples are silty-clay to clayey-silt. The clay mineral assemblage is predomi...
Mineralogy and Sr-Nd isotopic composition of the <2-μm fraction of the Holocene and late Ple...
Calcretes are abundant in Late Quaternary channel and floodplain strata of the southern Ganga plains...
International audience[1] A high-resolution study of mineralogy and major element geochemistry combi...
Late Cainozoic environmental changes in Kashmir (33°30' to 34°30' N: 74°10' to 75°30' E) have been r...
Mineralogical (X-ray diffraction, differential thermal analysis), geochemical [microprobe, inductive...
The Monsoon is one of the most powerful climatic phenomena on Earth and controls environments in Sou...
The clay mineral assemblages and geochemical compositions of the Permian Talchir and Barakar mudston...
Not AvailableThis study documents the coupling of provenance and climate change over the last 100 ka...
The purpose of this study is to clarify the sedimentary history and chemical characteristics of clay...
International audienceMineralogical and geochemical analyses conducted on cores located on the activ...
In order to reconstruct the variations in the intensity of summer monsoon precipitation during the l...
Clay mineral assemblages of the Neogene Himalayan foreland basin are studied to decipher their signi...
The clay mineralogy of the Late Pliocene-Early Pleistocene Pinjor Formation of the type area, northw...
24-28Texturally, the samples are silty-clay to clayey-silt. The clay mineral assemblage is predomi...
Mineralogy and Sr-Nd isotopic composition of the <2-μm fraction of the Holocene and late Ple...
Calcretes are abundant in Late Quaternary channel and floodplain strata of the southern Ganga plains...
International audience[1] A high-resolution study of mineralogy and major element geochemistry combi...
Late Cainozoic environmental changes in Kashmir (33°30' to 34°30' N: 74°10' to 75°30' E) have been r...
Mineralogical (X-ray diffraction, differential thermal analysis), geochemical [microprobe, inductive...
The Monsoon is one of the most powerful climatic phenomena on Earth and controls environments in Sou...
The clay mineral assemblages and geochemical compositions of the Permian Talchir and Barakar mudston...