1-20 OF 58 RESULTS FOR

Chanda Limestone

Results shown limited to content with bounding coordinates.
Follow your search
Access your saved searches in your account

Would you like to receive an alert when new items match your search?
Close Modal
Sort by
Journal Article
Published: 01 January 1996
Journal of Sedimentary Research (1996) 66 (1): 223–230.
...Joydip Mukhopadhyay; S. K. Chanda; M. Fukuoka; Asru K. Chaudhuri Abstract The middle to upper Proterozoic Penganga Group of the Pranhita-Godavari valley, South India, contains a thick slope-to-basin limestone-shale succession. The limestone, the Chanda Limestone, is well bedded and micritic...
Journal Article
Journal: GSA Bulletin
Published: 01 January 2011
GSA Bulletin (2011) 123 (1-2): 158–167.
... Sandstone, two units in the western belt of Proterozoic sequences in Pranhita-Godavari Valley. Glauconite from the Chanda Limestone, in the upper part of this sequence, contains inherited 40 Ar but is interpreted to reflect an age of ca. 1200 Ma. Glauconite from the Somanpalli Group in the eastern belt...
FIGURES | View All (4)
Image
( A ) The medium-to-thick-bedded lime-mudstone deposits of deep-water ramp ...
Published: 01 June 2006
Figure 5. ( A ) The medium-to-thick-bedded lime-mudstone deposits of deep-water ramp depositional setting from the Chanda Limestone, Penganga Group, PG Valley. ( B ) Autoclastic limeclast conglomerates of mass-flow origin from the Chanda Limestone, Penganga Group. ( C ) The crudely stratified
Image
Scatter plots of δ 13 C carbonates  and δ 18 O carbonates  compositions fro...
Published: 01 June 2024
Figure 2. Scatter plots of δ 13 C carbonates and δ 18 O carbonates compositions from the proximal and distal profiles of the Penganga platform. Note δ 13 C and δ 18 O compositions in the siliceous gray limestone interval from the distal transects of the Chanda Limestone show considerable
Journal Article
Published: 01 June 2024
South African Journal of Geology (2024) 127 (2): 521–536.
...Figure 2. Scatter plots of δ 13 C carbonates and δ 18 O carbonates compositions from the proximal and distal profiles of the Penganga platform. Note δ 13 C and δ 18 O compositions in the siliceous gray limestone interval from the distal transects of the Chanda Limestone show considerable...
FIGURES | View All (6)
Journal Article
Journal: Clay Minerals
Published: 01 December 2007
Clay Minerals (2007) 42 (4): 471–485.
.... Stratigraphic succession of the Penganga Group around Adilabad. Formations Lithology Internal structure Deccan Traps
 -Unconformity- Penganga Group Sat Nala Shale ∼ 1000 m thick Purple and reddish brown shale and calcareous shale Very persistent thin laminations Chanda Limestone...
FIGURES | View All (7)
Journal Article
Published: 01 June 2006
South African Journal of Geology (2006) 109 (1-2): 183–192.
...Figure 5. ( A ) The medium-to-thick-bedded lime-mudstone deposits of deep-water ramp depositional setting from the Chanda Limestone, Penganga Group, PG Valley. ( B ) Autoclastic limeclast conglomerates of mass-flow origin from the Chanda Limestone, Penganga Group. ( C ) The crudely stratified...
FIGURES | View All (5)
Journal Article
Published: 01 March 1980
Journal of Sedimentary Research (1980) 50 (1): 83–89.
...S. Sarkar; A. Bhattacharyya; S. K. Chanda Abstract Prelithification overburden stress does not normally exceed the load-bearing capacity of allochems (fossils or such other elements); therefore, compaction-deformation is an exception in limestones. In the presence of rigid bodies or surfaces...
Series: Geological Society, London, Memoirs
Published: 01 January 2015
DOI: 10.1144/M43.12
EISBN: 9781862397194
... of carbonate rocks. The carbonates in the Mallampalli, Somanpalli and Mulug successions are dolomitic, and include abundant intercalated siliciclastic beds and shoal-bars. The Penganga succession, in contrast, comprises a major carbonate platform, designated as the Chanda limestone, which grades up to a red...
FIGURES | View All (15)
Journal Article
Published: 01 January 2024
Jour. Geol. Soc. India (2024) 100 (1): 5–8.
..., Chanda (1967) independently discovered extensive textural evidence of neomorphism of micritic sediments as they recrystallized into limestones. Combining field and microscopic observations, he also advocated burial diagenesis and soft-sediment compaction of carbonate mud before complete induration (e.g...
Journal Article
Journal: Geology
Published: 01 April 1978
Geology (1978) 6 (4): 198.
...S. K. Chanda Abstract No Abstract Available. Geological Society of America 1978 ...
Journal Article
Published: 01 June 1967
Journal of Sedimentary Research (1967) 37 (2): 688–690.
...S. K. Chanda Abstract In microcrystalline allochemical limestones and biolithites, sharp fabric discontinuities or boundaries may be anticipated as a result of an aggrading neomorphism. Such discontinuities are commonly caused by structural discontinuities in the initial fabric, that is, boundaries...
Journal Article
Published: 01 June 1967
Journal of Sedimentary Research (1967) 37 (2): 425–437.
...S. K. Chanda Abstract The calcareous constituents of the Lower Limestone and the Upper Sandy Limestone of the Lameta Group of Central India are largely of algal origin. These rocks were deposited under intertidal to inner-neritic marine waters. Tidal recession at times exposed the intertidal...
Journal Article
Journal: GSA Bulletin
Published: 01 November 1977
GSA Bulletin (1977) 88 (11): 1577–1585.
...S. K. CHANDA; AJIT BHATTACHARYYA; SOUMEN SARKAR Abstract Nodules of silicified oomicrite (chert) occur in the upper part of the shallow-water Precambrian Bhander Limestone of central India. The nodules characteristically are surrounded by aureoles, elongated parallel to bedding, of plastically...
Journal Article
Published: 01 May 1999
Journal of Sedimentary Research (1999) 69 (3): 738–746.
...Joydip Mukhopadhyay; Asru K. Chaudhuri; S. K. Chanda Abstract Laterally persistent horizons of interstratified chert-limestone-manganese ores within a siliceous micritic limestone are interpreted to have been deposited on a distally steepened deep carbonate ramp in the Proterozoic Penganga Group...
Journal Article
Published: 01 September 1963
Journal of Sedimentary Research (1963) 33 (3): 728–738.
...S. K. Chanda Abstract The process of cementation of the Lameta beds (Cretaceous) is considered to have involved contemporaneous precipitation of calcite and clastic particles, replacement of calcite by secondary silica derived from overlying Deccan trap, perhaps followed by precipitation...
Journal Article
Published: 01 April 2024
Jour. Geol. Soc. India (2024) 100 (4): 543–553.
... of the basin. Tuff, volcanic rocks and tuffaceous sediments are previously reported and well studied from other Purana Basins of India viz. the Proterozoic basin of Pranhita Godavari valley ( Saha and Ghosh, 1987 , 1998; Chaudhuri and Chanda, 1991 ; Patranabis-Deb et al., 2003 ), Vindhyan basin ( Auden, 1933...
FIGURES | View All (9)
Journal Article
Published: 01 March 1982
Journal of Sedimentary Research (1982) 52 (1): 95–107.
...Soumen Sarkar; S. K. Chanda; Ajit Bhattacharya Abstract Chertified oolite in the lower part of the Precambrian Bhander Limestones, around Maihar, Madhya Pradesh, India, shows extensive compaction-deformation of ooids into oblate bodies, lying preferably parallel to bedding. Chertification, though...
Journal Article
Published: 19 November 2020
Geological Magazine (2022) 159 (2): 269–278.
... Eriksson ), pp. 29 – 54 . Geological Society of London, Memoir no. 43. Mukhopadhyay J and Chaudhuri AK ( 2003 ) Stratigraphy of the Chanda Limestone from the Proterozoic Penganga Group, Adilabad, Andhra Pradesh, India: Implications for understanding depositional setting...
FIGURES | View All (7)
Journal Article
Published: 23 November 2020
Geological Magazine (2022) 159 (2): 247–268.
... Supergroup exposed at the Son Valley highlighting the studied shale intervals (bright green) with physical characteristics, operative processes, palaeogeography and available isotopic dates. Lst. – limestone; MC-ICPMS – multicollector inductively coupled plasma mass spectrometry; Sh. – shale; Sst...
FIGURES | View All (10)