Ocean - Cal State LA - Instructional Web Server
... Pacific Ocean—The largest and has the greatest depth Atlantic Ocean—About half the size of the Pacific and not quite as deep Indian Ocean—Slightly smaller than the Atlantic, largely a Southern ...
... Pacific Ocean—The largest and has the greatest depth Atlantic Ocean—About half the size of the Pacific and not quite as deep Indian Ocean—Slightly smaller than the Atlantic, largely a Southern ...
Modes of seafloor generation at a melt-poor ultraslow
... Violaine Combier 75252 Paris cedex 05, France Mohamad Baala Institut de Physique du Globe, 5 rue Descartes, 67084 Strasbourg cedex, France ABSTRACT We report on extensive off-axis bathymetry, gravity, and magnetic data that provide a 26-m.y.-long record of axial tectonic and magmatic processes ove ...
... Violaine Combier 75252 Paris cedex 05, France Mohamad Baala Institut de Physique du Globe, 5 rue Descartes, 67084 Strasbourg cedex, France ABSTRACT We report on extensive off-axis bathymetry, gravity, and magnetic data that provide a 26-m.y.-long record of axial tectonic and magmatic processes ove ...
ferrari answers
... a detached slab initially produce more or less seismicity as it continued to descend into the mantle, and are there any other proposed active detachments where this might be studied? Not only the detached part of the slab is aseismic (and hence only seen by seismic tomography) but also the leading e ...
... a detached slab initially produce more or less seismicity as it continued to descend into the mantle, and are there any other proposed active detachments where this might be studied? Not only the detached part of the slab is aseismic (and hence only seen by seismic tomography) but also the leading e ...
amphibious experiments spoc (subduction processes off chile)
... Convergent continental margins are the Earth's principal locus of important earthquake hazards. Some 90% of global seismicity and nearly all interplate megathrust earthquakes with magnitudes >8 occur in the seismogenic coupling zone between the converging plates. Despite the societal, economic, and ...
... Convergent continental margins are the Earth's principal locus of important earthquake hazards. Some 90% of global seismicity and nearly all interplate megathrust earthquakes with magnitudes >8 occur in the seismogenic coupling zone between the converging plates. Despite the societal, economic, and ...
Earthquake Mechanisms and Plate Tectonics
... Earthquakes occur to greater depths than elsewhere because the slab is colder than the surrounding mantle. The mechanisms of earthquakes within the slab similarly re¯ect this phenomenon. The thermal evolution of the downgoing plate and its surroundings is controlled by the relation between the rate ...
... Earthquakes occur to greater depths than elsewhere because the slab is colder than the surrounding mantle. The mechanisms of earthquakes within the slab similarly re¯ect this phenomenon. The thermal evolution of the downgoing plate and its surroundings is controlled by the relation between the rate ...
Earth Structure
... composed mainly of a nickel-iron alloy, while the inner core is almost entirely composed of solid iron. Earth's magnetic field is believed to be controlled by the liquid outer core. The Earth is separated into layers based on mechanical properties in addition to composition. The topmost layer is the ...
... composed mainly of a nickel-iron alloy, while the inner core is almost entirely composed of solid iron. Earth's magnetic field is believed to be controlled by the liquid outer core. The Earth is separated into layers based on mechanical properties in addition to composition. The topmost layer is the ...
"lost Inca Plateau": cause of flat subduction - Archimer
... chains is difficult to reconcile with the single hotspot model often proposed for the Marquesas [5,11]. The Marquesas swell and archipelagic apron, however, are oriented parallel to the Emperor direction suggesting this broader structure formed before 43 Ma. New kinematic reconstructions were made u ...
... chains is difficult to reconcile with the single hotspot model often proposed for the Marquesas [5,11]. The Marquesas swell and archipelagic apron, however, are oriented parallel to the Emperor direction suggesting this broader structure formed before 43 Ma. New kinematic reconstructions were made u ...
Convergent-Boundary Mountains
... – Seafloor structures, such as seamounts, must also be in isostatic equilibrium with the mantle. – Elevation of Earth’s crust depends upon the thickness of the crust as well as its density. – Mountain roots can be many times as deep as a mountain is high. ...
... – Seafloor structures, such as seamounts, must also be in isostatic equilibrium with the mantle. – Elevation of Earth’s crust depends upon the thickness of the crust as well as its density. – Mountain roots can be many times as deep as a mountain is high. ...
Important Oceanography Stuff
... older continental lithosphere no denser than young continental-continental no subduction, high mountains result trench earthquakes occur in succession subducting plate can be traced below surface by measuring seismic activity by depth factors of convergent boundary earthquakes: -lithospheric slabs o ...
... older continental lithosphere no denser than young continental-continental no subduction, high mountains result trench earthquakes occur in succession subducting plate can be traced below surface by measuring seismic activity by depth factors of convergent boundary earthquakes: -lithospheric slabs o ...
A Sea Change in Ocean Drilling
... But the use of drilling for paleoceanographic studies has been held back by the limitations of the Resolution. It cannot drill in water much shallower than 100 meters, ruling out the inner continental shelves and coral reefs that hold long records of climate and sea-level change. And it can’t handle ...
... But the use of drilling for paleoceanographic studies has been held back by the limitations of the Resolution. It cannot drill in water much shallower than 100 meters, ruling out the inner continental shelves and coral reefs that hold long records of climate and sea-level change. And it can’t handle ...
mantleplumes template.indd
... 2003a). What seems certain is that a Hawaii-style model for plate motion over a deeplyrooted and fixed plume is now untenable as an explanation for both the NAIP and Iceland. It appears possible to interpret the melting anomaly associated with formation of the NEA volcanic passive margin and present ...
... 2003a). What seems certain is that a Hawaii-style model for plate motion over a deeplyrooted and fixed plume is now untenable as an explanation for both the NAIP and Iceland. It appears possible to interpret the melting anomaly associated with formation of the NEA volcanic passive margin and present ...
deep-ocean basin
... Continental Slope and Continental Rise • * called a continental slope. • The continental shelf and continental slope may be cut by deep V-shaped valleys. These deep valleys are called submarine canyons. ...
... Continental Slope and Continental Rise • * called a continental slope. • The continental shelf and continental slope may be cut by deep V-shaped valleys. These deep valleys are called submarine canyons. ...
GEOL_2_mid_term_I
... (45) 1 pt. The half-life of carbon-14 is about 6000 years. Assume that a sample of charcoal formed by burning of living wood 15,000 years ago. How much of the original carbon-14 would remain today? A) between 33% and 50% B) between 25% and 50% C) more than 50% D) between 12.5% and 25% (46) 4 pts. In ...
... (45) 1 pt. The half-life of carbon-14 is about 6000 years. Assume that a sample of charcoal formed by burning of living wood 15,000 years ago. How much of the original carbon-14 would remain today? A) between 33% and 50% B) between 25% and 50% C) more than 50% D) between 12.5% and 25% (46) 4 pts. In ...
Mantle downwelling Modes of mantle convection
... Physics and chemistry of the Earth’s interior – Mantle downwelling ...
... Physics and chemistry of the Earth’s interior – Mantle downwelling ...
NH_4e_CRS_Ch02
... a) Trick question: there are four types of plate boundaries. b) Divergent, convergent, and thrust c) Transform, convergent, and thrust d) Divergent, convergent, and transform e) Divergent, transform, and thrust ...
... a) Trick question: there are four types of plate boundaries. b) Divergent, convergent, and thrust c) Transform, convergent, and thrust d) Divergent, convergent, and transform e) Divergent, transform, and thrust ...
Visio-Sub-idea A 11x17.vsd
... The fact that the locations rock results in earthquakes. on different plates can Thus, the occurrence of move closer together or We know that the continents earthquakes at plate farther away from each are the top parts of plates. boundaries provides New rock is forming at the other indicates that pl ...
... The fact that the locations rock results in earthquakes. on different plates can Thus, the occurrence of move closer together or We know that the continents earthquakes at plate farther away from each are the top parts of plates. boundaries provides New rock is forming at the other indicates that pl ...
Chapter Overview Plate Tectonics Evidence for Continental Drift
... • Plant and animal fossils indicate different climate than today © 2011 Pearson Education, Inc. ...
... • Plant and animal fossils indicate different climate than today © 2011 Pearson Education, Inc. ...
Orogenesis.
... Suture zones usually have symmetrical patterns of rock types (folded sedimentary, metamorphic, granite) and the high rugged mountains resulting from orogenesis are subject to intense erosion, shedding sediment to both sides of the mountain range. ...
... Suture zones usually have symmetrical patterns of rock types (folded sedimentary, metamorphic, granite) and the high rugged mountains resulting from orogenesis are subject to intense erosion, shedding sediment to both sides of the mountain range. ...
U4-T2.8-Geology of Newfoundland
... Over the next 150 million years (350 million years ago), forces within Earth’s mantle slowly carried these continents on a collision course. As the continents drifted together and collided, the ocean floor (a volcanic island arc) was squeezed and then pushed upward to form the Appalachian Mountain ...
... Over the next 150 million years (350 million years ago), forces within Earth’s mantle slowly carried these continents on a collision course. As the continents drifted together and collided, the ocean floor (a volcanic island arc) was squeezed and then pushed upward to form the Appalachian Mountain ...
Plate Tectonics - Academic Computer Center
... forces. Convergence leads to subduction of one plate under another Oceanic crust may go under continental crust generating a trench and causing mountain building ...
... forces. Convergence leads to subduction of one plate under another Oceanic crust may go under continental crust generating a trench and causing mountain building ...
Quiz 3 Study Guide
... a) a wave amplitude of 1 mm was experienced at a distance of 400 km? b) a wave amplitude of 200 mm was experienced at a distance of 700 km? c) a wave amplitude of .1 mm was experienced at a distance of 60 km? d) a wave amplitude of 10 mm was experienced at a distance of 20 km? e) a wave amplitude of ...
... a) a wave amplitude of 1 mm was experienced at a distance of 400 km? b) a wave amplitude of 200 mm was experienced at a distance of 700 km? c) a wave amplitude of .1 mm was experienced at a distance of 60 km? d) a wave amplitude of 10 mm was experienced at a distance of 20 km? e) a wave amplitude of ...
Plate tectonics
Plate tectonics (from the Late Latin tectonicus, from the Greek: τεκτονικός ""pertaining to building"") is a scientific theory that describes the large-scale motion of Earth's lithosphere. This theoretical model builds on the concept of continental drift which was developed during the first few decades of the 20th century. The geoscientific community accepted the theory after the concepts of seafloor spreading were later developed in the late 1950s and early 1960s.The lithosphere, which is the rigid outermost shell of a planet (on Earth, the crust and upper mantle), is broken up into tectonic plates. On Earth, there are seven or eight major plates (depending on how they are defined) and many minor plates. Where plates meet, their relative motion determines the type of boundary; convergent, divergent, or transform. Earthquakes, volcanic activity, mountain-building, and oceanic trench formation occur along these plate boundaries. The lateral relative movement of the plates typically varies from zero to 100 mm annually.Tectonic plates are composed of oceanic lithosphere and thicker continental lithosphere, each topped by its own kind of crust. Along convergent boundaries, subduction carries plates into the mantle; the material lost is roughly balanced by the formation of new (oceanic) crust along divergent margins by seafloor spreading. In this way, the total surface of the globe remains the same. This prediction of plate tectonics is also referred to as the conveyor belt principle. Earlier theories (that still have some supporters) propose gradual shrinking (contraction) or gradual expansion of the globe.Tectonic plates are able to move because the Earth's lithosphere has greater strength than the underlying asthenosphere. Lateral density variations in the mantle result in convection. Plate movement is thought to be driven by a combination of the motion of the seafloor away from the spreading ridge (due to variations in topography and density of the crust, which result in differences in gravitational forces) and drag, with downward suction, at the subduction zones. Another explanation lies in the different forces generated by the rotation of the globe and the tidal forces of the Sun and Moon. The relative importance of each of these factors and their relationship to each other is unclear, and still the subject of much debate.