Abyssal plain hills and internal wave turbulence

Abyssal plain hills and internal wave turbulence

A 400 m long array with 201 high-resolution NIOZ temperature sensors was deployed above a north-east equatorial Pacific hilly abyssal plain for 2.5 months. The sensors sampled at a rate of 1 Hz. The lowest sensor was at 7 m above the bottom (m a.b.). The aim was to study internal waves and turbulent...

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Veröffentlicht in:Biogeosciences 2018-07, Vol.15 (14), p.4387-4403
1. Verfasser: van Haren, Hans
Format: Artikel
Sprache:eng
Schlagworte:
Abyssal zone
Bottom friction
Boundary layers
Continental slope
Diurnal variations
Fronts
Geophysical research
Guyots
Hills
Internal wave breaking
Internal waves
Mid-ocean ridges
Observations
Ocean currents
Properties
Resuspension
Ridges
Sediments
Semidiurnal tides
Sensor arrays
Sensors
Shear
Slope
Slopes
Stability
Submarine plains
Temperature sensors
Thickness
Tidal currents
Topography
Topography (geology)
Turbulence
Turbulence (Fluid dynamics)
Wave breaking
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Beschreibung
Zusammenfassung:A 400 m long array with 201 high-resolution NIOZ temperature sensors was deployed above a north-east equatorial Pacific hilly abyssal plain for 2.5 months. The sensors sampled at a rate of 1 Hz. The lowest sensor was at 7 m above the bottom (m a.b.). The aim was to study internal waves and turbulent overturning away from large-scale ocean topography. Topography consisted of moderately elevated hills (a few hundred metres), providing a mean bottom slope of one-third of that found at the Mid-Atlantic Ridge (on 2 km horizontal scales). In contrast with observations over large-scale topography like guyots, ridges and continental slopes, the present data showed a well-defined near-homogeneous “bottom boundary layer”. However, its thickness varied strongly with time between
ISSN:1726-4189
1726-4170
1726-4189
DOI:10.5194/bg-15-4387-2018