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Dynamics of the Earth System : Contributions from Scientific Ocean Drilling. (2020)

Pandey, Dhananjai K.

Cham :Springer International Publishing AG,

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Keywords: Marine geophysics. ; Electronic books.

Type of Medium: Online Resource

Pages: 1 online resource (290 pages)

Edition: 1st ed.

ISBN: 9783030406592

Series Statement: Society of Earth Scientists Series

URL: https://ebookcentral.proquest.com/lib/geomar/detail.action?docID=6172795

DDC: 353.00823200000002

Language: English

Note: Intro -- Series Editor Foreword -- Foreword -- Preface -- Contents -- About the Editors -- Introduction-Scientific Drilling in the Indian Ocean: An Earth System Process Perspective -- 1 Himlayan-Tibetan Orogeny and Long Term Climate Evolution -- 1.1 Indian Monsoon Rainfall (IODP Expedition 353) -- 1.2 Bengal Fan -- 1.3 Indus Fan -- 2 The Indonesian Throughflow Expedtion -- 2.1 Indonesian Throughflow (ITF) and the Australian Monsoon -- 3 Maldives and Equatorial Indian Ocean -- 3.1 Maldives Monsoon and Sea Level -- 4 South African Climates -- 4.1 The South African Climates and Agulhas Current Density Profile -- 5 Plate Deformation Zones -- 5.1 "The Nature of the Lower Crust and Moho at Slower Spreading Ridges"-SloMo -- 5.2 To Understand the Role of Input Materials in the Northern Sumatra Subduction -- 6 Concluding Remarks -- References -- Morphological and Chemical Properties of Microtektite Grains from Bay of Bengal (IODP Expedition 354) -- 1 Introduction -- 2 Materials and Methods -- 3 Results and Discussion -- 4 Morphological Characteristics of the Microtektites -- 5 Shapes, Size and Color -- 6 Surface Sculpturing -- 7 Compositional Characteristics of Microtektites -- 8 Evidence of Extraterrestrial Materials Within the Microtektite Layer -- 9 Conclusions -- References -- Assessing Mid-pleistocene to Holocene Sea-Ice Extent and Carbonate Compensation Depth Fluctuations in the Japan Sea: A Multiproxy Approach -- 1 Introduction -- 2 Location, Lithology, and Hydrography of Japan Sea -- 2.1 Material and Methods -- 3 Results -- 3.1 Distribution of IRD and Detrital -- 3.2 Distribution of Foraminifera -- 3.3 Environmental Preferences of Dominant Planktic Species -- 4 Discussion -- 5 Conclusion -- References -- Modern Radiolarians Recovered from the Mudline Samples at IODP-341 Sites in the South Alaska Basin, North East Pacific Ocean -- 1 Introduction. , 2 Radiolarians from Mudline Samples -- 3 Results -- 3.1 Radiolarians in the Mudline, Hole U1417D -- 3.2 Radiolarians in the Mudline, Hole U1418C -- 3.3 Radiolarians in the Mudline Hole U1419A -- 3.4 Radiolarians in the Mudline, Hole U1421A -- 4 Conclusion -- References -- Carbon Stable Isotope Source Signature of Bulk Organic Matter in Middle Bengal Fan Sediment Collected During IODP Expedition 354 -- 1 Introduction -- 2 Site -- 3 Materials and Method -- 4 Results -- 4.1 TOC, N, C/N Ratio and δ13C of Sedimentary OM -- 5 Discussion -- 5.1 Preservation of OM -- 5.2 Source of OM -- 6 Conclusion -- References -- Geochemistry of Marine Carbonates from Hole 1394, off the Coast of Montserrat, IODP Expedition-340 -- Implications on Provenance, Paleoenvironment and Lesser Antilles Arc Migration -- 1 Introduction -- 2 Materials and Methods -- 3 Stratigraphy and Nature of Sediments -- 4 Results -- 4.1 Geochemistry -- 5 Discussion -- 5.1 Europium Anomalies (Eu/Eu*) -- 5.2 Cerium Anomalies (Ce/Ce*) -- 5.3 Er/Nd Ratios -- 5.4 Age of the Carbonates -- 5.5 Depth Wise Variation in Geochemical Parameters -- 5.6 Source Weathering and Alteration Characteristics -- 5.7 Contamination and Diagenetic Alterations -- 5.8 Temperate (Cool Water) Versus Tropical (Warm Water) Carbonates -- 5.9 Th/U Ratios -- 5.10 Paleo-redox Characteristics -- 5.11 Total Carbon and Carbonate Content -- 5.12 Shifting of Platformal Carbonates to Deep Ocean: Evidence from Ce and La (Pr/Pr*) Anomalies -- 5.13 Tectonic Setting -- 6 Conclusions -- References -- Morpho-taxonomy of Corycaeid Cyclopoids from Lakshadweep Sea, South Eastern Arabian Sea-A Part of the Indian Ocean -- 1 Introduction -- 2 Materials and Methods -- 3 Results -- 4 Discussion and Conclusion -- References. , Sedimentological Attributes and Quartz Microtexture in the Levee Sediments of a Submarine Channel in Context of the East Antarctic Ice Sheet Fluctuations: A Study from Site U-1359 of IODP-318 Expedition -- 1 Introduction -- 2 Site U1359 -- 3 Materials and Methods -- 4 Results -- 4.1 Grain Size Analysis -- 4.2 Quartz Grain Microtextures -- 5 Discussion -- 5.1 Sedimentary Processes -- 5.2 Depositional Environment -- 6 Conclusions -- References -- Late Quaternary Sedimentation and Slope Failure Events on the Costa Rican Margin -- 1 Introduction -- 2 Materials and Methods -- 2.1 Samples and Data -- 2.2 Sample Processing for XRD Analysis -- 2.3 Quantification of Clay Minerals -- 2.4 Sample Processing for XRF Analysis -- 2.5 Sample Processing for IRMS Analysis -- 2.6 Age Model -- 3 Results and Discussion -- 3.1 Clay Minerals -- 3.2 Quantification of Major Elements -- 3.3 Carbon and Nitrogen Isotopes -- 4 Summary and Conclusions -- References -- mtCOI Sequence-Based Barcoding of Calanoid Copepods from Lagoon Waters of Lakshadweep, South-west Coast of India -- 1 Introduction -- 2 Materials and Methods -- 3 Results -- 3.1 Molecular Records and Systematics of the Calanoid Copepods -- 3.2 Barcode Library Developed for the Calanoid Copepods -- 4 Discussion -- References -- A Summary of the South China Sea Evolution -- 1 Introduction -- 2 Regional Geological Setting -- 3 Evolution History -- 4 Dynamics of the South China Sea -- 4.1 The Tectonic Extrusion Model -- 4.2 Backarc Extension Model -- 4.3 Two-Stage Rifting Model -- 4.4 Proto-SCS Dragging Model -- 4.5 Models that Involve Extension Induced by Mantle Plume -- 4.6 Combined Model -- References -- Microbial Community Profile of Deep-Sea Sediment from Eastern Arabian Sea (IODP 355) -- 1 Introduction -- 2 Materials and Methods -- 2.1 Deep Sea Sediment Cores IODP -- 2.2 DNA Extraction. , 2.3 16S rRNA Gene Sequencing -- 3 Quality Control, Taxonomic Assignment, Diversity Estimation and Total Cell Counts -- 4 Result and Discussion -- 4.1 Total Cell Counts -- 4.2 Taxonomic Assignment and Microbial Diversity -- References.

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Moored observations of the surface meteorology and air-sea fluxes in the Northern Bay of Bengal in 2015 (2019)

Weller, Robert A. ; Farrar, J. Thomas ; Seo, Hyodae ; [et al.]

American Meteorological Society

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Publication Date: 2022-05-26

Description: Author Posting. © American Meteorological Society, 2019. This article is posted here by permission of American Meteorological Society for personal use, not for redistribution. The definitive version was published in Journal of Climate 32(2), (2019): 549-573. doi: 10.1175/JCLI-D-18-0413.1.

Description: Time series of surface meteorology and air–sea fluxes from the northern Bay of Bengal are analyzed, quantifying annual and seasonal means, variability, and the potential for surface fluxes to contribute significantly to variability in surface temperature and salinity. Strong signals were associated with solar insolation and its modulation by cloud cover, and, in the 5- to 50-day range, with intraseasonal oscillations (ISOs). The northeast (NE) monsoon (DJF) was typically cloud free, with strong latent heat loss and several moderate wind events, and had the only seasonal mean ocean heat loss. The spring intermonsoon (MAM) was cloud free and had light winds and the strongest ocean heating. Strong ISOs and Tropical Cyclone Komen were seen in the southwest (SW) monsoon (JJA), when 65% of the 2.2-m total rain fell, and oceanic mean heating was small. The fall intermonsoon (SON) initially had moderate convective systems and mean ocean heating, with a transition to drier winds and mean ocean heat loss in the last month. Observed surface freshwater flux applied to a layer of the observed thickness produced drops in salinity with timing and magnitude similar to the initial drops in salinity in the summer monsoon, but did not reproduce the salinity variability of the fall intermonsoon. Observed surface heat flux has the potential to cause the temperature trends of the different seasons, but uncertainty in how shortwave radiation is absorbed in the upper ocean limits quantifying the role of surface forcing in the evolution of mixed layer temperature.

Description: The deployment of the Woods Hole Oceanographic Institution (WHOI) mooring and RW and JTF were supported by the U.S. Office of Naval Research, Grant N00014-13-1-0453. DS acknowledges support from the Ministry of Earth Sciences under India’s National Monsoon Mission. HS acknowledges support from the Office of Naval Research Grants N00014-13-1-0453 and N00014-17-12398. The deployment of the WHOI mooring was done by RV Sagar Nidhi and the recovery by RV Sagar Kanya; the help of the crew and science parties is gratefully acknowledged as is the ongoing support at NIOT in Chennai and by other colleagues in India of this mooring work. The work of the staff of the WHOI Upper Ocean Process Group in the design, building, deployment, and recovery of the mooring and in processing the data is gratefully acknowledged. The software for the wavelet analysis was provided by Torrence and Compo (1998). Feedback on the paper by Dr. Amit Tandon and two anonymous reviewers is gratefully acknowledged. This paper is dedicated to Dr. Frank Bradley.

Description: 2019-06-28

Keywords: Atmosphere-ocean interaction ; Monsoons ; Air-sea interaction ; Surface fluxes

Repository Name: Woods Hole Open Access Server

Type: Article

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