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CORE-VTRCC Cruise Report: Geophysical Acquisition and Seafloor Sampling along the Vitória-Trindade Ridge. [PDF]
Sci DataTagliaro G +16 more
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Episodic intensification of marine phosphorus burial over the last 80 million years. [PDF]
Nat CommunPeng J +6 more
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Bilateral Loa-Kea trends of the Hawaiian Islands caused by the bottom-up splitting of plume conduit. [PDF]
Sci AdvZhang J, Hu J, Wang K.
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Spatial ecology of two emblematic deep-sea crustaceans in the Salas y Gómez, Nazca and Juan Fernández ridges Southeast Pacific. [PDF]
Sci RepFernández-Zúñiga M +4 more
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Spatiotemporal Variation in Marine Mammal Antipredator Behaviors Resulting From a Predation Pinch Point. [PDF]
Ecol EvolHale CM +6 more
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Proceedings of the Integrated Ocean Drilling Program, 2012 Koppers A.A.P. +3 more
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2022
Sea mountains are arguably the most common large geomorphological features on Earth. Most seamounts are volcanic in origin and vary in shape with size. Small volcanic seamounts are simple, typically truncated cones, whereas seamounts taller than 3km have more diverse forms due to multiple volcanic centers, flank rift zones and landsliding.
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Sea mountains are arguably the most common large geomorphological features on Earth. Most seamounts are volcanic in origin and vary in shape with size. Small volcanic seamounts are simple, typically truncated cones, whereas seamounts taller than 3km have more diverse forms due to multiple volcanic centers, flank rift zones and landsliding.
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Age of Kōko Seamount, Emperor Seamount chain
Earth and Planetary Science Letters, 1973K Ar ages obtained by the conventional isotope-dilution and the 40Ar/39Ar techniques on two sanidine trachytes, four basalts, and a phonolite dredged from the top of Ko¯ko Seamount, 300 km north of the Hawaiian-Emperor bend, show that the seamount is 46.4 ± 1.1 my old.
David A. Clague, G. Brent Dalrymple
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Atlas of the Mediterranean seamounts and seamount-like structures
2016Seamounts are relevant seafloor structures, which may have different origins and which feature all the world oceans and they may be defined as hotspots of biodiversity, greatly affecting the productivity of the offshore ecosystems and the distribution of pelagic top predators.
Maurizio Würtz, Marzia Rovere
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2008
Seamounts are ubiquitous undersea mountains rising from the ocean seafloor that do not reach the surface. There are likely many hundreds of thousands of seamounts, they are usually formed from volcanoes in the deep sea and are defined by oceanographers as independent features that rise to at least 0.5 km above the seafloor, although smaller features ...
Samadi, Sarah +2 more
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Seamounts are ubiquitous undersea mountains rising from the ocean seafloor that do not reach the surface. There are likely many hundreds of thousands of seamounts, they are usually formed from volcanoes in the deep sea and are defined by oceanographers as independent features that rise to at least 0.5 km above the seafloor, although smaller features ...
Samadi, Sarah +2 more
openaire +4 more sources