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The Evolving continents : understanding processes of continental growth (2010)

Kusky, Timothy M. [Hrsg.] ; Zhai, Mingguo [Hrsg.] ; Xiao, Wenjiao [Hrsg.]

London : The Geological Society

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Call number: 9/M 07.0421(338)

In: Geological Society special publication

Description / Table of Contents: This volume honours the career of Brian F. Windley, who has been hugely influential in helping to achieve our current understanding of the evolution of the continental crust, and who has inspired many students and scientists to pursue studies on the evolution of the continents. Brian has studied processes of continental formation and evolution on most continents and of all ages, and has educated and inspired two generations of geologists to undertake careers in studies of continental evolution. The volume is organized into six sections, including: oceanic and island arc systems and continental growth; tectonics of accretionary orogens and continental growth; growth and stabilization of continental crust; collisions and intraplate processes; Precambrian tectonics and the birth of continents; and active tectonics and geomorphology of continental collision and growth zones.

Type of Medium: Monograph available for loan

Pages: viii, 414 S.

ISBN: 9781862393035

Series Statement: Geological Society special publication 338

URL: http://sp.lyellcollection.org/content/vol338/issue1/

Classification:

Tectonics

Location: Reading room

Branch Library: GFZ Library

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Mesozoic Sub-Continental Lithospheric Thinning Under Eastern Asia (2007)

Geological Society (London, U.K.) ; Zhai, Mingguo ; Windley, Brian F. ; [et al.]

London : The Geological Society

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Description / Table of Contents: The North China craton is the only known place where an Archaean craton with a thick tectospheric root lost half of that root in younger tectonism by processes such as delamination, convection, hydration-weakening, compositional change or some other mechanism. In this volume, authors provide data constraining the geometry and timing of root loss, aimed at understanding why and how continental roots are lost in general. Modelling how often this process may have occurred in the geological past, and how much lithospheric material has been recycled to the convecting mantle through this mechanism, could drastically change our current understanding of crustal growth rates and processes. Possible triggering mechanisms for root loss include collision of the South China (Yangtze) and North China cratons in the Triassic, the India–Asia collision, closure of the Solonker and Monhgol–Okhotsk oceans, Mesozoic subduction of the Pacific Plate beneath eastern China, impingement of mantle plumes, mantle hydration from long-term subduction and several rifting events. In this volume, we link studies of crustal tectonics with investigations aimed at determining the nature of and timing of the formation and loss of the root, in order to better-understand mechanisms of continental root formation, evolution and recycling/removal.

Pages: Online-Ressource (VII, 352 Seiten)

ISBN: 9781862392250

URL: http://sp.lyellcollection.org/content/vol280/issue1/

Language: English

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The Evolving Continents: Understanding Processes of Continental Growth (2010)

Geological Society (London, U.K.) ; Kusky, Timothy M. ; Zhai, Mingguo ; [et al.]

London : The Geological Society

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Description / Table of Contents: This volume honours the career of Brian F. Windley, who has been hugely influential in helping to achieve our current understanding of the evolution of the continental crust, and who has inspired many students and scientists to pursue studies on the evolution of the continents. Brian has studied processes of continental formation and evolution on most continents and of all ages, and has educated and inspired two generations of geologists to undertake careers in studies of continental evolution. The volume is organized into six sections, including: oceanic and island arc systems and continental growth; tectonics of accretionary orogens and continental growth; growth and stabilization of continental crust; collisions and intraplate processes; Precambrian tectonics and the birth of continents; and active tectonics and geomorphology of continental collision and growth zones.

Pages: Online-Ressource (VIII, 414 Seiten)

ISBN: 9781862393035

URL: http://sp.lyellcollection.org/content/vol338/issue1/

Language: English

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Accretionary orogens through Earth history (2009)

Cawood, Peter A. ; Kroner, Alfred ; Collins, William J. ; [et al.]

In: Geological Society Special Publication 318: 1-36.

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Publication Date: 2009-06-26

Description: Accretionary orogens form at intraoceanic and continental margin convergent plate boundaries. They include the supra-subduction zone forearc, magmatic arc and back-arc components. Accretionary orogens can be grouped into retreating and advancing types, based on their kinematic framework and resulting geological character. Retreating orogens (e.g. modern western Pacific) are undergoing long-term extension in response to the site of subduction of the lower plate retreating with respect to the overriding plate and are characterized by back-arc basins. Advancing orogens (e.g. Andes) develop in an environment in which the overriding plate is advancing towards the downgoing plate, resulting in the development of foreland fold and thrust belts and crustal thickening. Cratonization of accretionary orogens occurs during continuing plate convergence and requires transient coupling across the plate boundary with strain concentrated in zones of mechanical and thermal weakening such as the magmatic arc and back-arc region. Potential driving mechanisms for coupling include accretion of buoyant lithosphere (terrane accretion), flat-slab subduction, and rapid absolute upper plate motion overriding the downgoing plate. Accretionary orogens have been active throughout Earth history, extending back until at least 3.2 Ga, and potentially earlier, and provide an important constraint on the initiation of horizontal motion of lithospheric plates on Earth. They have been responsible for major growth of the continental lithosphere through the addition of juvenile magmatic products but are also major sites of consumption and reworking of continental crust through time, through sediment subduction and subduction erosion. It is probable that the rates of crustal growth and destruction are roughly equal, implying that net growth since the Archaean is effectively zero.

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The evolving continents: understanding processes of continental growth - introduction (2010)

Kusky, Timothy M. ; Zhai, Mingguo ; Xiao, Wenjiao

In: Geological Society Special Publication 338: 1-6.

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Publication Date: 2010-09-28

Description: We have organized and edited this Special Publication of the Geological Society of London to honour the career of Brian F. Windley, who has been hugely influential in helping to achieve our current understanding of the evolution of the continental crust, and who has inspired many students and scientists to pursue studies on the evolution of the continents. Brian has studied processes of continental formation and evolution on most continents and of all ages, and has educated and inspired two generations of geologists to undertake careers in studies of continental evolution. The contributions in this volume represent only a small percentage of studies that Brian has influenced, yet the scope and significance of these papers are clear, and stand as a testimony to Brian's contributions to understanding processes of continental evolution, growth, and stabilization. The volume is organized into six sections: oceanic and island arc systems and continental growth; tectonics of accretionary orogens and continental growth; growth and stabilization of continental crust: collisions and intraplate processes; Precambrian tectonics and the birth of continents; active tectonics and geomorphology of continental collision and growth zones. The first section, oceanic and island arc systems and continental growth, begins with a paper by Stern, who summarizes the current state of knowledge about intra-oceanic arc systems from petrological, geophysical, and tectonic viewpoints and emphasizes that these systems have been the most important sites of juvenile continental crust formation for as long as plate tectonics has operated (the time of the start of plate tectonics...

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Neoproterozoic dextral faulting on the Najd Fault System, Saudi Arabia, preceded sinistral faulting and escape tectonics related to closure of the Mozambique Ocean (2003)

Kusky, Timothy M. ; Matsah, Mohamed I.

In: Geological Society Special Publication 206: 327-361.

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Publication Date: 2003-01-01

Description: The Neoproterozoic Najd Fault System extends for 2000km across the East African Orogen, yet its history of motion and tectonic significance are widely debated. The Halaban-Zarghat Fault is the northeastern-most of the major NW-striking Najd faults in the Arabian Shield. Several sedimentary basins of the Neoproterozoic Jibalah Group are bounded by strands of the Halaban-Zarghat Fault and other Najd faults, particularly along right steps in the fault trace. Among the largest of the basins is the Jifn. The geometry of the Jifn Basin and the sedimentary facies of Jibalah Group indicate that it is a dextral pull-apart basin between strands of the Halaban-Zarghat Fault. A zone of high-grade mylonitic gneiss is located along a left step in the fault zone and may be a deeply eroded pop-up structure related to dextral transpression. Analysis of structural data from around and within the Jifn Basin, the position of other pull-apart basins and high-grade mylonite zones along the Halaban-Zarghat Fault are all consistent with early dextral movement along the Halaban-Zarghat Fault. Offsets of distinctive older rock units and transection of the Jifn Basin by sinistral faults, however, show that the latest and most significant sense of offset on the Halaban-Zarghat Fault and other Najd faults was sinistral. A U-Pb zircon date of 624.9 {+/-} 4.2 Ma from rhyolitic basement of the Jifn Basin gives a lower limit for the formation of the basin and initiation of dextral movement along the Halaban-Zarghat Fault. This age is interpreted as the earliest age for the collision of East and West Gondwana. A 621 {+/-} 7 Ma pluton is offset 10 km dextrally along the Halaban-Zarghat Fault, showing that dextral motions continued for some time past 621 Ma, before switching to sinistral motions, and accreted terranes caught between the two continents were forced toward an oceanic-free face to the north. A 576.6 {+/-} 5.3 Ma U-Pb zircon date from an undeformed felsite dyke that intrudes the Jibalah Group gives an upper time limit for movement along the Halaban-Zarghat Fault. This may mark the time that collision and escape tectonics ended, or it may reflect the time that displacements were transferred to other Najd faults in more interior parts of the East African Orogen.

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Review of Lithospheric Destruction in the North China, North Atlantic, and Tanzanian Cratons (2016)

Wang, Zhensheng ; Kusky, Timothy M. ; Fu, Jianmin ; [et al.]

University of Chicago Press

In: The Journal of Geology. 2016; 124(6): 699-721. Published 2016 Nov 01. doi: 10.1086/688608.

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Publication Date: 2016-11-01

Print ISSN: 0022-1376

Electronic ISSN: 1537-5269

Topics: Geosciences

Published by University of Chicago Press

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Geologic Evidence for Rate of Plate Convergence during the Taconic Arc-Continent Collision (1986)

Bradley, Dwight C. ; Kusky, Timothy M.

University of Chicago Press

In: The Journal of Geology. 1986; 94(5): 667-681. Published 1986 Sep 01. doi: 10.1086/629073.

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Publication Date: 1986-09-01

Print ISSN: 0022-1376

Electronic ISSN: 1537-5269

Topics: Geosciences

Published by University of Chicago Press

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Neoarchean seafloor hydrothermal metamorphism of basalts in the Zanhuang ophiolitic mélange, North China Craton (2020)

Jiang, Kang ; Wang, Junpeng ; Kusky, Timothy ; [et al.]

Elsevier

In: Precambrian Research. 2020; 347: 105832. 105832. Published 2020 Sep 01. doi: 10.1016/j.precamres.2020.105832.

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Publication Date: 2020-09-01

Print ISSN: 0301-9268

Electronic ISSN: 1872-7433

Topics: Geosciences

Published by Elsevier

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Neogene to Quaternary uplift history along the passive margin of the northeastern Arabian Peninsula, eastern Al Hajar Mountains, Oman (2018)

Moraetis, Daniel, Mattern, Frank, Scharf, Andreas, Frijia, Gianluca, Kusky, Timothy M., Yuan, Ye, El-Hussain, Issa

Cambridge University Press

In: Quaternary Research

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Publication Date: 2018

Description: 〈div data-abstract-type="normal"〉〈p〉This work explores the uplift history of the best exposed marine terraces in the northeastern Arabian Peninsula (eastern Al Hajar Mountains). A multidisciplinary approach was employed, including a topographic survey, 〈span〉14〈/span〉C dating, thin section studies, and scanning electron microscopy analyses. Six distinctive marine terraces with widths ranging from tenth of meters to kilometers and elevations from 5 to ~400 m were studied. These terraces record an along-strike heterogeneous uplift history, while they show temporally variable uplift rates ranging between 0.9 to 6.7 mm/yr, which correlates well with other published uplift rates of marine terraces of the eastern Arabian Peninsula. We attribute the variable uplift along strike of the terraces, to a combination of uplift mechanisms: (1) during early to mid-Miocene along deep-rooted reverse faults that bound large crustal-scale blocks, (2) Pliocene or post-Pliocene uplift on the outer wall of the forebulge of the lower Arabian Plate as it bends to enter the Zagros-Makran subduction zone, and (3) a possible slowdown of subduction for the past ~40 ka.〈/p〉〈/div〉

Print ISSN: 0033-5894

Electronic ISSN: 1096-0287

Topics: Geography , Geosciences

Published by Cambridge University Press

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