Stratigraphy, structure and volcanology of the SE Deccan continental flood basalt province: implications for eruptive extent and volumes

Jay, A. E.; Widdowson, Mike

doi:10.1144/0016-76492006-062

Cited by 216 publications

(129 citation statements)

References 53 publications

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“…between eruptions, consistent with the compositional uniformity exhibited by the thick (c. 500 m), uncontaminated MORB-like Ambenali Formation, which is widespread across the Main Deccan Province (MDP; Jay and Widdowson, 2008). By contrast, the Chhindwara area was peripheral to the MDP, possibly more distal from the eruptive source, and accordingly received flows only from the largest, most voluminous outpourings; this episodic arrival of lavas would allow for a greater degree of magmatic evolution and contamination between successive eruptions.…”

Section: Accepted M Manuscriptsupporting

confidence: 65%

A combined Y/Ho, high field strength element (HFSE) and Nd isotope perspective on basalt weathering, Deccan Traps, India

et al. 2015

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Please cite this article as: Babechuk, M.G., Widdowson, M., Murphy, M., Kamber, B.S., A combined Y/Ho, high field strength element (HFSE) and Nd isotope perspective on basalt weathering, Deccan Traps, India, Chemical Geology (2014), doi: 10.1016/j.chemgeo.2014 This is a PDF file of an unedited manuscript that has been accepted for publication. As a service to our customers we are providing this early version of the manuscript. The manuscript will undergo copyediting, typesetting, and review of the resulting proof before it is published in its final form. Please note that during the production process errors may be discovered which could affect the content, and all legal disclaimers that apply to the journal pertain. The chemical fingerprints of dust were identified in a paleo-flow top of the saprolite profile, A C C E P T E D M A N U S C R I P T ACCEPTED MANUSCRIPTsuggesting that dust accumulation occurred during periods of quiescence between basaltic eruptions. During protracted exposure and laterite development, the magnitude to which dust overprints the basalt chemistry increases substantially as evident from much less radiogenic Nd isotope ratios and higher Th/Nb ratios in the Bidar profile relative to the protolith basalt. A C C E P T E D M A N U S C R I P T ACCEPTED MANUSCRIPTAttempts at quantifying the magnitude of dust accumulation in the laterite based on Th enrichment indicate a mass fraction of greater than 0.5 when the dust is assumed to have the chemistry of average upper continental crust. Although mixing models between the basalt and assumed dust composition cannot unambiguously constrain the dust source, the Nd isotope mixture preserved in the laterite points to a relatively young crustal dust source (e.g., similar to loess in composition) rather than the Precambrian shield rocks in the vicinity of the

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Section: Accepted M Manuscriptsupporting

confidence: 65%

A combined Y/Ho, high field strength element (HFSE) and Nd isotope perspective on basalt weathering, Deccan Traps, India

et al. 2015

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“…To put this into perspective, 3 million km 3 would bury an area equivalent to the entire UK beneath a layer of basalt some 12 km thick, or an area the size of China beneath a layer about 300 m thick. However, even the minimum estimate is significantly larger than recent estimates for the Deccan Traps (~1.3×10 6 km 3 ) [21] .…”

Section: Extent and Volume Of The Siberian Trapscontrasting

confidence: 56%

The Siberian Traps and the End-Permian mass extinction: a critical review

2009

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The association between the Siberian Traps, the largest continental flood basalt province, and the largest-known mass extinction event at the end of the Permian period, has been strengthened by recently-published high-precision 40 Ar/ 39 Ar dates from widespread localities across the Siberian province [1] . We argue that the impact of the volcanism was amplified by the prevailing late Permian environmental conditions-in particular, the hothouse climate, with sluggish oceanic circulation, that was leading to widespread oceanic anoxia. Volcanism released large masses of sulphate aerosols and carbon dioxide, the former triggering short-duration volcanic winters, the latter leading to long-term warming. Whilst the mass of CO 2 released from individual eruptions was small compared with the total mass of carbon in the atmosphere-ocean system, the long 'mean lifetime' of atmospheric CO 2 , compared with the eruption flux and duration, meant that significant accumulation could occur over periods of 10 5 years. Compromise of the carbon sequestration systems (by curtailment of photosynthesis, destruction of biomass, and warming and acidification of the oceans) probably led to rapid atmospheric CO 2 build-up, warming, and shallow-water anoxia, leading ultimately to mass extinction.continental flood basalts, oceanic anoxia, radiometric dating, CO 2 , SO 2

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“…This has been confi rmed by magnetostratigraphy and geochemical similarities with the main Deccan volcanic province to the west (Lightfoot et al 1990;Subbarao and Pathak 1993;Banerjee et al 1996;Baksi 2001;Jay and Widdowson 2008;Jay et al 2009). The Rajahmundry traps, which reach 1000 km across India, are thus the longest lava fl ows known in Earth history (Self et al 2008a) and may represent the volcanic acme of phase 2 ending at or near the KT mass extinction (Keller et al 2008a).…”

Section: Palaeomagnetic and Radiometric Agesmentioning

confidence: 80%

“…In the past few years, signifi cant advancements have been made with respect to the age of volcanic eruptions based on 40 K/ 40 Ar and 40 Ar/ 39 Ar dating (e.g. Knight et al 2003Knight et al , 2005Pande et al 2004;Baksi 2005;Chenet et al 2007Chenet et al , 2008 and geochemical characterization of different eruptions (Jerram and Widdowson 2005;Jay and Widdowson 2008;Jay et al 2009). …”

Section: Deccan Volcanic Province: Age Of Main Eruption Phasesmentioning

confidence: 99%

Deccan volcanism, the KT mass extinction and dinosaurs

2009

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Recent advances in Deccan volcanic studies indicate three volcanic phases with the phase-1 at 67.5 Ma followed by a 2 m.y. period of quiescence. Phase-2 marks the main Deccan volcanic eruptions in Chron 29r near the end of the Maastrichtian and accounts for approximately 80% of the entire 3500 m thick Deccan lava pile. At least four of the world's longest lava flows spanning 1000 km across India and out into the Gulf of Bengal mark phase-2. The final phase-3 was smaller, coincided with the early Danian Chron 29n and also witnessed several of the longest lava flows. The KT boundary and mass extinction was first discovered based on planktic foraminifera from shallow marine intertrappean sediments exposed in Rajahmundry quarries between the longest lava flows of the main volcanic phase-2 and smaller phase-3. At this locality early Danian (zone P1a) planktic foraminiferal assemblages directly overlie the top of phase-2 eruptions and indicate that the masse extinction coincided with the end of this volcanic phase. Planktic foraminiferal assemblages also mark the KT boundary in intertrappean sediments at Jhilmili, Chhindwara, where freshwater to estuarine conditions prevailed during the early Danian and indicate the presence of a marine seaway across India at KT time. Dinosaur bones, nesting sites with complete eggs and abundant eggshells are known from central India surrounding the hypothesized seaway through the Narmada-Tapti rift zone. A Maastrichtian age is generally assigned to these dinosaur remains. Age control may now be improved based on marine microfossils from sequences deposited in the seaway and correlating these strata to nearby terrestrial sequences with dinosaur remains.

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Stratigraphy, structure and volcanology of the SE Deccan continental flood basalt province: implications for eruptive extent and volumes

Cited by 216 publications

References 53 publications

A combined Y/Ho, high field strength element (HFSE) and Nd isotope perspective on basalt weathering, Deccan Traps, India

A combined Y/Ho, high field strength element (HFSE) and Nd isotope perspective on basalt weathering, Deccan Traps, India

The Siberian Traps and the End-Permian mass extinction: a critical review

Deccan volcanism, the KT mass extinction and dinosaurs

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