Basalts with Back-Arc MORB Affinity from the South Andaman Ophiolite Belt, India

The Andaman Ophiolite of south-eastern India is located on the outer arc of the Andaman-Java subduction zone. It is represented by thrust slices formed in the Mesozoic Neo-Tethyan Ocean. Lithologically, it consists of dismembered mafic and ultramafic rocks and associated oceanic pelagic sediments. The present study focuses on the mafic cumulate rocks of the Andaman Ophiolite preserved in the Kodiaghat and the Mundapahar area of the South Andaman Island. The mafic cumulates are represented by olivine-bearing and olivine-free gabbros. The sequence of crystallisation in the gabbros is olivines (Fo~80) ± chromian spinels (Cr# 59 - 57), plagioclases (An95−61), clinopyroxenes (Mg# = 89 - 82) and amphiboles (Mg-hornblende, edenite and pargasite). Major oxide and trace element whole rock geochemistry and mineral compositions are consistent with a hybrid signature of Island Arc Tholeiite (IAT) - Mid Oceanic Ridge Basalt (MORB). Geochemical modelling shows that trapped melt fractions of 0 – 20 % can produce the observed trace element signatures of these gabbros. Our findings suggest that the gabbroic cumulates of the Andaman ophiolite were formed in an oceanic back-arc and oceanic arc setting developed in the Neo-Tethyan oceanic domain between the Indian and the Burmese plates during Late Cretaceous age.

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Merremia umbellata ssp. orientalis (Hallier f.) Ooststr. - A New Addition to Indian Convolvulaceae from Andaman Islands, India

Indian Journal of Forestry ◽

10.54207/bsmps1000-2019-k0uvf9 ◽

2019 ◽

Vol 42 (2) ◽

pp. 119-122

Author(s):

Lal Ji Singh ◽

◽

Mudavath Chennakesavulu Naik ◽

Keyword(s):

Andaman Islands ◽

The South ◽

Flora Of India ◽

South Andaman

Merremia umbellata subsp. Orientalis (Hallier f.) Ooststr. is reported as new distributional record for the flora of India from the South Andaman Islands. Updated nomenclature, brief description, phenology, distribution along with field photographs and illustrations are provided.

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Chapter 3.2b Bransfield Strait and James Ross Island: petrology

Geological Society London Memoirs ◽

10.1144/m55-2018-37 ◽

2021 ◽

pp. M55-2018-37 ◽

Cited By ~ 1

Author(s):

Karsten M. Haase ◽

Christoph Beier

Keyword(s):

Antarctic Peninsula ◽

South Shetland Island ◽

The South ◽

Bransfield Strait ◽

Geodynamic Processes ◽

James Ross Island ◽

South Shetland Trench ◽

Low Degrees ◽

Back Arc ◽

The Antarctic

AbstractYoung volcanic centres of the Bransfield Strait and James Ross Island occur along back-arc extensional structures parallel to the South Shetland island arc. Back-arc extension was caused by slab rollback at the South Shetland Trench during the past 4 myr. The variability of lava compositions along the Bransfield Strait results from varying degrees of mantle depletion and input of a slab component. The mantle underneath the Bransfield Strait is heterogeneous on a scale of approximately tens of kilometres with portions in the mantle wedge not affected by slab fluids. Lavas from James Ross Island east of the Antarctic Peninsula differ in composition from those of the Bransfield Strait in that they are alkaline without evidence for a component from a subducted slab. Alkaline lavas from the volcanic centres east of the Antarctic Peninsula imply variably low degrees of partial melting in the presence of residual garnet, suggesting variable thinning of the lithosphere by extension. Magmas in the Bransfield Strait form by relatively high degrees of melting in the shallow mantle, whereas the magmas some 150 km further east form by low degrees of melting deeper in the mantle, reflecting the diversity of mantle geodynamic processes related to subduction along the South Shetland Trench.

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The Origin of Back-Arc Spreading in The Eastern Edge of Scotia Plate

BULETIN OSEANOGRAFI MARINA ◽

10.14710/buloma.v5i1.11292 ◽

2016 ◽

Vol 5 (1) ◽

pp. 21

Author(s):

Indra Budi Prasetyawan

Keyword(s):

Subduction Zones ◽

Sandwich Plate ◽

Magnetic Anomalies ◽

South American ◽

The South ◽

Origin And Evolution ◽

Bathymetric Data ◽

Scotia Ridge ◽

Back Arc ◽

Eastern Edge

The origin and evolution of back-arc spreading in the eastern edge of Scotia Plate will be discussed in this paper. The Scotia Plate is a tectonicplate on the edge of the South Atlantic and Southern Ocean, located between the South American and Antartic plates. The East Scotia Ridge (ESR) in the eastern edge of Scotia Plate, forned due to subduction of the South American plate beneath the South Sandwich plate along the South Sandwich Island arc. The methods and techniques of data acquisition used were data from absolution motions and data from magnetic anomalies and bathymetric data. Magnetic anomalies and bathymetric data that used in this paper consist of two sets data. First, magnetic anomalies and bathymetric data which were obtained by aboard HMS Endurance in the 1969-70 austral summer, and the second, magnetic anomalies and bathymetric data which were obtained after removal of the International Geomagnetic Reference Field (IGRF). Absolution motion analyses in the subduction zones of Sandwich plate results that form back-arc spreading in East Scotia Ridge showing high deformation for slow moving upper plates. Where back-arc spreading is associated with upper plate retreat that reaches 26.9 mm/year and have back-arc deformation style consistent with upper plate absolute. Key Words: Geological oceanography, Scotia plate, back-arc spreading

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The 26 December 2004 Sumatra-Andaman Tsunami at the South Andaman Island: 5 years later

The Journal of the Geological Society of Japan ◽

10.5575/geosoc.116.5.v_vi ◽

2010 ◽

Vol 116 (5) ◽

pp. V-VI ◽

Cited By ~ 1

Author(s):

Tomoaki Morishita ◽

Biswajit Ghosh

Keyword(s):

The South ◽

Andaman Island ◽

South Andaman

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Changing trend in the seroprevalence and risk factors of human leptospirosis in the South Andaman Island, India

Zoonoses and Public Health ◽

10.1111/zph.12478 ◽

2018 ◽

Vol 65 (6) ◽

pp. 683-689 ◽

Cited By ~ 5

Author(s):

Ratchagadasse Vimal Raj ◽

Kirubakaran Vinod Kumar ◽

Chandan Lall ◽

Kumaresan Vedhagiri ◽

Attayur Purushothaman Sugunan ◽

...

Keyword(s):

Risk Factors ◽

The South ◽

Andaman Island ◽

Human Leptospirosis ◽

Changing Trend ◽

South Andaman

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Subduction polarity of the Ailaoshan Ocean (eastern Paleotethys): Constraints from detrital zircon U-Pb and Hf-O isotopes for the Longtan Formation

Geological Society of America Bulletin ◽

10.1130/b35294.1 ◽

2019 ◽

Vol 132 (5-6) ◽

pp. 987-996

Author(s):

Xiao-Ping Xia ◽

Jian Xu ◽

Chao Huang ◽

Xiaoping Long ◽

Meiling Zhou

Keyword(s):

South China ◽

Detrital Zircon ◽

South China Block ◽

The South ◽

Forearc Basin ◽

Isotopic Signatures ◽

Northeastern Japan ◽

O Isotopes ◽

A Minor ◽

Back Arc

Abstract The Paleotethys Ailaoshan Ocean separated the South China and Indochina blocks during the late Paleozoic. Uncertainty remains regarding subduction of this ocean—whether it was subducted eastward beneath the South China block or westward beneath the Indochina block. In this study, we present new detrital zircon U-Pb age, and Hf and O isotope data from the Longtan Formation, which was recognized to be deposited before the ocean closed. Our results show that the formation can be divided into three units: Unit 1 is distributed west of the suture and dominates the area; it contains major age peaks at 290–250 Ma and minor multiple old age peaks. Unit 2 consists of a minor distribution west of the suture, and it shows a dominant 250 Ma age peak; old zircons are very few or not present. Their Hf and O isotopic signatures are similar to those of unit 1. Unit 3 is distributed east of the suture and is characterized by a single distinct ca. 240 Ma age peak with almost no Precambrian zircons. We interpret that units 1 and 2 were likely deposited in a back-arc and forearc basin, respectively, and a volcanic arc developed on the eastern margin of the Indochina block, similar to the present-day northeastern Japan arc. Meanwhile, unit 3 was likely deposited in a forearc basin on the western margin of the South China block. Therefore, the Ailaoshan Ocean may undergone bipolar subduction both westward and eastward beneath the Indochina and South China blocks, respectively.

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