Shamar Chin scite author profile

Understanding the stability of Antarctic Ice Sheets is a key to understanding past climates and the response of ice-sheets to warming. In this thesis, I examined the middle through upper Miocene marine sedimentological and geochemical record in the Weddell Sea. Sediments were recovered at Ocean Drilling Program (ODP) Site 694 located in 4653 m of water in the northern Weddell Sea Abyssal Plain, but recovery was poor and many of the recovered sediments were disturbed. Seven lithological units were identified based on composition and sedimentary structures. Preliminary ages were assigned based on diatom datums. Turbidites are present throughout most of the section. Between about 17 and 14.3 m.y. diatoms formed 10 to 40% of the sediment ice-rafted detritus (IRD) was rare. After an interval of glacialmarine sediment with few diatoms, IRD is common. Between 14.2 and 9 m.y. diatoms are absent or present in lower abundance. The Mid-Miocene Climatic Optimum (MMCO) occurred between ~17 and 14.5 Ma, when d 18 O o / oo lightened to 1.6. From the late Oligocene through the MMCO, the EAIS is assumed to have been ephemeral based on the light isotope values. After the late MMCO, d 18 O values got heavier by ~0.8 o / oo and by13.5 m.y. the EAIS became a permanent covered by ice. We postulate that diatomaceous sediments were deposited in the warmer interval of the MMCO, that the glacial marine dominated sediment (Lithologic Unit VI) marked the end of the MMCO, and that the sediments above it were deposited after the EAIS became a permanent feature of the crysophere. During this time sediments of a mixed provenance of clays, silts and gravels were observed for sediments with ages 10.44, 11.35, 12.51, 14.08, 14.14 and 14.23 Ma. Considerable work was expended on geochemical proxies to determine provenance and its compositional characteristics. The primary analytical method that was chosen is XRF core scanning. This method is nondestructive, relatively inexpensive, and provides high-resolution data. Data is expressed as elemental intensity. Two different methods were used to convert elemental intensity to weight percent oxide, the Data Reduction Method and the Log Ratio Calibration Equation (LRCE) model. Both methods require actual sample analysis for ground truthing and gave similar weight percent oxide results. In addition to the XRF core scanner, select samples were analyzed for major, minor, trace and rare earth elements. The geochemical proxies were used to assess the composition, tectonic activity, elemental enrichment and the degree of chemical weathering. All of these proxies indicate a felsic provenance with zircon enrichment most likely due to sediment recycling. The samples displayed similar Upper Continental Crust and Chondrite patterns, which indicates that these sediments have similar compositions and possibly share the same provenance, this being geologically varied regions within East Antarctic. This is expected because the West Antarctic Ice Sheet had not form until ~ 8 m.y.

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Revised Upper Albian-Lower Cenomanian Calcareous Nannofossil Biostratigraphy of the Proto-North Atlantic

Chin¹,

Watkins²

2016

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Collapse and Recovery of an Upwelling-Productive-Ecosystem Across the Cretaceous-Paleogene Mass Extinction

Rosenberg¹,

Ashckenazi-Polivoda²,

Chin³

et al. 2019

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Paleoecological Response of Calcareous Nannofossils During the Albian–Cenomanian Boundary and Early Cenomanian Events at Deep Sea Drilling Project Hole 547A, Northwestern African Margin

Chin¹,

Watkins²

2019

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Shamar Chin

Calcareous nannofossil response to Late Cretaceous climate change in the eastern Tethys (Zagros Basin, Iran)

Depositional History of Miocene-Age Sediments from the Weddell Sea, Antarctica, Using Sedimentological and Geochemical Proxies

Revised Upper Albian-Lower Cenomanian Calcareous Nannofossil Biostratigraphy of the Proto-North Atlantic

Collapse and Recovery of an Upwelling-Productive-Ecosystem Across the Cretaceous-Paleogene Mass Extinction

Paleoecological Response of Calcareous Nannofossils During the Albian–Cenomanian Boundary and Early Cenomanian Events at Deep Sea Drilling Project Hole 547A, Northwestern African Margin

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