1-20 OF 76 RESULTS FOR

Berinag Formation

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 1985
Jour. Geol. Soc. India (1985) 26 (1): 1–9.
... (1260 - 1000 m.y.) is assigned to these dolomites because of the presence of Colonnella and Baicalia baicalica. In the present structural superposition, the Gangolihat Dolomites are discordantly succeeded by quartzites and chlorite schist of Berinag Formation which have given a radiometric age of 725...
Journal Article
Journal: GSA Bulletin
Published: 16 August 2024
GSA Bulletin (2024)
... Indian cratonic margin. Granitoids within the Baijnath klippen yield crystallization ages varying from ca. 1870 Ma to ca. 1850 Ma, while the supracrustal sequence preserves a prominent age signature of ca. 1855 Ma. The metasediments of the Berinag Formation at the klippe footwall yield a detrital age...
Image
(A) Geological cross section along the Kali River valley. Plots 1, 2, and 3...
Published: 25 January 2018
Figure 3. (A) Geological cross section along the Kali River valley. Plots 1, 2, and 3 represent lower-hemisphere equal-area projection of mesoscopic foliation trends of the Munsiari Formation, the Tejam Group along with the Berinag Formation, and the Chiplakot Crystalline Belt, respectively
Image
Representative examples of facing direction indicators and transitions in m...
Published: 01 September 2009
Figure 7 Representative examples of facing direction indicators and transitions in macroscopic deformation styles observed in the study area. (A) Undeformed stromatolites in Deoban Formation dolomites of the Berinag Thrust footwall (29°54′52.8″, 79°24′34.0″). (B) Cross beds in undeformed Nagthat
Image
Representative photomicrographs of quartz microstructure evolution in Kumau...
Published: 01 September 2009
Figure 5 Representative photomicrographs of quartz microstructure evolution in Kumaun and Garwhal Lesser Himalayan Berinag Formation quartzites. (A) Undeformed quartzite displaying rounded detrital quartz grains typical of Regime-1 quartz dislocation creep. (B) Flattened, highly strained
Series: Geological Society, London, Special Publications
Published: 25 September 2019
DOI: 10.1144/SP481-2018-81
EISBN: 9781786204264
... brings the Chandpur Formation over the Rautgara Formation. The Tons Thrust is an assemblage of SW-dipping shear zones displaying an overall top-to-the-NE shear (field evidence of asymmetrical drag folds are given by Célérier et al. 2009 ). Inside the Inner Lesser Himalaya, the Berinag Thrust...
FIGURES | View All (7)
Journal Article
Published: 01 April 1979
Jour. Geol. Soc. India (1979) 20 (4): 145–157.
... (=Nagthat Formation) and penecontemporaneous basic volcanics. This Berinag Nappe is the base-cut and beheaded northern extension of stupendous Krol Nappe that imbricately underlies the Ramgarh and/or Almora nappes of the outer Lesser Himalaya. The synclinorial Krol Nappe comprises, in addition...
Journal Article
Journal: GSA Bulletin
Published: 03 April 2018
GSA Bulletin (2018) 130 (9-10): 1519–1539.
... consists of three key stratigraphic units, described across the broader Garhwal Himalaya by Valdiya (1980) . In the south, the Deoban and Berinag Formations (also referred to as the combined Mandhali Formation) represent the Lesser Himalayan Sequence footwall and consist of Proterozoic quartzites...
FIGURES | View All (9)
Series: Geological Society, London, Special Publications
Published: 25 September 2019
DOI: 10.1144/SP481-2018-117
EISBN: 9781786204264
... this area. The geology of the area comprises the Berinag Formation, a Lesser Himalayan metasedimentary sequence, which forms the footwall of the MCT and is thrust over by the Higher Himalayan Crystallines (HHC) that form the hanging wall of the MCT. The MCT is the southward-propagating thrust system whereby...
FIGURES | View All (11)
Journal Article
Journal: GSA Bulletin
Published: 01 September 2009
GSA Bulletin (2009) 121 (9-10): 1262–1280.
...Figure 7 Representative examples of facing direction indicators and transitions in macroscopic deformation styles observed in the study area. (A) Undeformed stromatolites in Deoban Formation dolomites of the Berinag Thrust footwall (29°54′52.8″, 79°24′34.0″). (B) Cross beds in undeformed Nagthat...
FIGURES | View All (14)
Journal Article
Published: 01 February 2011
Quarterly Journal of Engineering Geology and Hydrogeology (2011) 44 (1): 17–22.
... are characterized by Higher Himalayan Crystallines and Lesser Himalayan sediments. The higher Himalayan Crystallines are thrust over the Berinag Formation of the Lesser Himalaya along the Main Central Thrust. The Berinag Formation is underlain by the Damta Group of rocks ( Valdiya 1980 ). The area is sandwiched...
FIGURES | View All (10)
Journal Article
Journal: GSA Bulletin
Published: 25 January 2018
GSA Bulletin (2018) 130 (7-8): 1164–1176.
...Figure 3. (A) Geological cross section along the Kali River valley. Plots 1, 2, and 3 represent lower-hemisphere equal-area projection of mesoscopic foliation trends of the Munsiari Formation, the Tejam Group along with the Berinag Formation, and the Chiplakot Crystalline Belt, respectively...
FIGURES | View All (9)
Journal Article
Published: 01 March 1992
Jour. Geol. Soc. India (1992) 39 (3): 245–253.
... metamorphics of the Great Himalayan Joshimath Formation (Vaikrita Group) (Valdiya and Goel, 1983). The sedimentaries (of the Rautgara, Deoban, Mandhali and Berinag Formations) and the metamorphics (of the Munsiari Formation) have all been polyphasedly deformed. At least three phases of folding and various...
Image
( continued on following pages ). Field photographs of the Main Central thr...
Published: 01 August 2011
. (E) Folding of Shimla Formation rocks with preserved S 0 , shortening estimate. (F) Cross-bedding preserved in Berinag Group quartzites. (G) Tight to isoclinal folds in Berinag Group quartzites, same site as F. (H) Kink folds of Jeori paragneiss. (I) Wangtu gneiss foliation crosscut by undeformed
Image
( continued on following pages ). Field photographs of the Main Central thr...
Published: 01 August 2011
. (E) Folding of Shimla Formation rocks with preserved S 0 , shortening estimate. (F) Cross-bedding preserved in Berinag Group quartzites. (G) Tight to isoclinal folds in Berinag Group quartzites, same site as F. (H) Kink folds of Jeori paragneiss. (I) Wangtu gneiss foliation crosscut by undeformed
Image
( continued on following pages ). Field photographs of the Main Central thr...
Published: 01 August 2011
. (E) Folding of Shimla Formation rocks with preserved S 0 , shortening estimate. (F) Cross-bedding preserved in Berinag Group quartzites. (G) Tight to isoclinal folds in Berinag Group quartzites, same site as F. (H) Kink folds of Jeori paragneiss. (I) Wangtu gneiss foliation crosscut by undeformed
Image
( continued on following pages ). Field photographs of the Main Central thr...
Published: 01 August 2011
. (E) Folding of Shimla Formation rocks with preserved S 0 , shortening estimate. (F) Cross-bedding preserved in Berinag Group quartzites. (G) Tight to isoclinal folds in Berinag Group quartzites, same site as F. (H) Kink folds of Jeori paragneiss. (I) Wangtu gneiss foliation crosscut by undeformed
Image
( continued on following pages ). Field photographs of the Main Central thr...
Published: 01 August 2011
. (E) Folding of Shimla Formation rocks with preserved S 0 , shortening estimate. (F) Cross-bedding preserved in Berinag Group quartzites. (G) Tight to isoclinal folds in Berinag Group quartzites, same site as F. (H) Kink folds of Jeori paragneiss. (I) Wangtu gneiss foliation crosscut by undeformed
Image
( continued on following pages ). Field photographs of the Main Central thr...
Published: 01 August 2011
. (E) Folding of Shimla Formation rocks with preserved S 0 , shortening estimate. (F) Cross-bedding preserved in Berinag Group quartzites. (G) Tight to isoclinal folds in Berinag Group quartzites, same site as F. (H) Kink folds of Jeori paragneiss. (I) Wangtu gneiss foliation crosscut by undeformed
Image
( continued on following pages ). Field photographs of the Main Central thr...
Published: 01 August 2011
. (E) Folding of Shimla Formation rocks with preserved S 0 , shortening estimate. (F) Cross-bedding preserved in Berinag Group quartzites. (G) Tight to isoclinal folds in Berinag Group quartzites, same site as F. (H) Kink folds of Jeori paragneiss. (I) Wangtu gneiss foliation crosscut by undeformed