ICAR Research Data Repository for Knowledge Management
THE RELATIONSHIP BETWEEN CARBON, SULFUR, AND PYRITIC IRON IN THE AMJHORE DEPOSIT, BIHAR, INDIA
DSpace at IIT Bombay
View Archive Info| Field | Value | |
| Title |
THE RELATIONSHIP BETWEEN CARBON, SULFUR, AND PYRITIC IRON IN THE AMJHORE DEPOSIT, BIHAR, INDIA
|
|
| Creator |
PANDALAI, HS
CHANGKAKOTI, A KROUSE, HR GUNALAN, N |
|
| Subject |
rohtas district
organic-matter sediments isotope sulfate sulfide shales ores |
|
| Description |
Low C/S ratios have been generally observed in pyritiferous black shales of the lower Paleozoic and late Proterozoic (Berner and Raiswell, 1983). In addition to factors such as high rates of bacterial sulfate reduction which might have existed during these early periods due to the low oxygen content of ocean water, availability and quality of organic matter, or lack of bioturbation and availability of reactive iron, low C/S ratios may also reflect low sedimentation rates. Three distinct situations within a single vertical stratigraphic column in the mid-Proterozoic Amjhore pyrite deposit reflect the effect of anoxic levels and sedimentation rates on pyrite formation. In the first (lower shale with a mean C/S ratio of 2.03), pyrite formation was diagenetic, whereas in the second (massive pyrite ore with a negligible carbon content) and the third (upper shale with a low C/S ratio of 0.27), pyrite formation took place under euxinic conditions. In environments where anoxic levels are high and the sedimentation rate low, low mean C/S ratios may occur. In such environments variations in total sulfate reduction per unit column of sediment deposited (resulting from variation in sedimentation rates or anoxic levels) are reflected in the slope of the carbon-sulfur plot by a greater slope. This may also result in lower intercepts on the sulfur axis. For upper shale samples the carbon-sulfur regression line has a very high slope of 3.73 and a low intercept on the sulfur axis of 0.21. Consistency of anoxic levels during deposition of upper shales is, however, indicated by the low standard deviation (0.051) of C/S data and a dominant control of the sedimentation rate on the sulfur content of the sediments is inferred. Sulfur isotope data on pyrite samples indicate an environment closed to SO4(-2) which was initially open to H2S (or HS-) and later during deposition of upper shale became closed to it due to a limited supply of reactive iron. This confirms that the pyrite bed and upper shales were laid down in a restricted environment and substantiates the interpretation of the carbon-sulfur relationships observed in them.
|
|
| Publisher |
ECONOMIC GEOLOGY PUBL CO
|
|
| Date |
2011-07-21T12:30:06Z
2011-12-26T12:52:00Z 2011-12-27T05:38:53Z 2011-07-21T12:30:06Z 2011-12-26T12:52:00Z 2011-12-27T05:38:53Z 1991 |
|
| Type |
Article
|
|
| Identifier |
ECONOMIC GEOLOGY AND THE BULLETIN OF THE SOCIETY OF ECONOMIC GEOLOGISTS, 86(4), 862-869
0361-0128 http://dspace.library.iitb.ac.in/xmlui/handle/10054/5866 http://hdl.handle.net/10054/5866 |
|
| Language |
en
|
|