Lien, R.-C., and M. C. Gregg (2001), Observations of turbulence in a tidal beam and across a coastal ridge, J. Geophys. Res., 106, 4575-4591.

Slides:

Advertisements

Similar presentations

Baroclinic Tides off the SE US Coast H. Seim, C. Edwards, T. Shay – UNC Chapel Hill C. Werner – now at Rutgers University Some background Shelf observations.

Advertisements

ISSUES IN PREDICTING SOLITARY WAVES IN STRAITS OF MESSINA AND LUZON A. Warn-Varnas, P. Smolarkiewicz, J. Hawkins, S. Piacsek, S. Chin-Bing, D. King and.

Numerical simulation of internal tides in the Sicily and Messina Straits Jihene Abdennadher and Moncef Boukthir Institut Preparatoire aux Etudes d’Ingenieur.

Turbulent Mixing During an Admiralty Inlet Bottom Water Intrusion Philip Orton Hats off to the A-Team: Sally, Erin, Karin and Christie! Profs extraordinaire:

Introduction to Oceanography Dynamic Oceanography: Waves.

Guided Notes about Ocean Movements Chapter 15, Section 3.

Internal tide energetics in the Sicilian Strait and Adjacent areas Jihène Abdennadher and Moncef Boukthir UR1304, Institut Préparatoire aux Etudes d’Ingénieur.

 Currents that run along the western coast of the United States are _________________.  Currents that run along the eastern coast of the United States.

Chapter 16 The Dynamic Ocean

Useful texts: Mann & Lazier, The Dynamics of Marine Ecosystems, Blackwell Science. Simpson, In: The Sea, vol 10, chapter 5. Simpson, In: The Sea, vol 11,

Variability in Ozone Profiles at TexAQS within the Context of an US Ozone Climatology Mohammed Ayoub 1, Mike Newchurch 1 2, Brian Vasel 3 Bryan Johnson.

Warm Up 2/25/08 What is true about an ocean current that is moving toward the equator? a. It is cold. c. It is warm. b. It is slow. d. It is fast.

Ocean Tides and Sea Level - tide – “daily rise and fall of sea level” (C&D) - tide – distortions of sea by gravitational attraction of Moon and Sun on.

Modeling the M 2 and O 1 Barotropic and Baroclinic Tides in the Gulf of Mexico Using the HYbrid Coordinate Ocean Model (HYCOM) Flavien Gouillon 1 ; B.

Waves and Tides. Wave Characteristics Most ocean waves are energy passing through water caused by the wind Crests are the top of the waves Troughs are.

Ocean Tides Introduction Definition and terms

9.2 Ocean Waves, Tides and Currents

ORBITAL ELEMENTS. LaGrangian Points L2 Earth-Sun.

© Dstl 2006 Dstl is part of the Ministry of Defence 02 June 2015 Some applications of PHOENICS in the underwater environment at the Defence Science and.

Water Level Sensor Physical processes related to bio-optical properties on the New York Bight inner continental shelf Grace C. Chang 1, Tommy D. Dickey.

Baroclinic Instability in the Denmark Strait Overflow and how it applies the material learned in this GFD course Emily Harrison James Mueller December.

Internal Tides, Mixing and the Bottom Boundary Layer James Girton and Eric Kunze APL/UW and Univ. Victoria James Girton and Eric Kunze APL/UW and Univ.

Unit 6: Ocean Floor Structure. Sea Floor Features: Earth's rocky surface is divided into two types: oceanic crust, with a thin dense crust about 10 km.

Physical Oceanography of the Yellow and East China Sea Dr. Steven R. Ramp Research Professor Naval Postgraduate School.

Define Current decreases exponentially with depth. At the same time, its direction changes clockwise with depth (The Ekman spiral). we have,. and At the.

Jiuxing Xing and Alan M. Davies

An Assimilating Tidal Model for the Bering Sea Mike Foreman, Josef Cherniawsky, Patrick Cummins Institute of Ocean Sciences, Sidney BC, Canada Outline:

Chapter 16 Section 2 Waves and Tides

Internal Tides in the Weddell-Scotia Confluence Region, Antarctica Susan L. Howard, Laurence Padman, and Robin D. Muench Introduction Recent observations,

Natural Hazards and Disasters Chapter 5 Tsunami. Tsunami is a “harbor wave” Waves rise highest where focused in bays or harbors.

Define Current decreases exponentially with depth and. At the same time, its direction changes clockwise with depth (The Ekman spiral). we have,. and At.

Modeling Tides for Southern Ocean GLOBEC Susan Howard and Laurence Padman Earth & Space Research.

Oceanography I. Major Oceans The three major oceans are: 1._______- largest, deepest, coldest, least salty. 2.__________- second largest, shallow, warm,

Hurricane Ike. Natural Hazards and Disasters Chapter 5 Tsunami.

Physical Oceanography. RAP Barrier Island Major Oceans The three major oceans are : 1._______-largest, deepest, coldest, least salty. 2.__________-

L. Padman, R. Muench, A. Orsi; Presentation OS41H-06 at the AGU Ocean Sciences Meeting, Portland OR, January 2004 Observations of Dense Off-Slope Flow.

Model and experiment setup The Navy Coastal Ocean Model (NCOM) is used for numerical simulation of the sea level response to tidal forcing. The NCOM is.

–wave –crest –trough –breaker Objectives Describe the physical properties of waves. Explain how tides form. Compare and contrast various ocean currents.

Marine Physics Chapters 8, 9, 10 JUST COPY WHAT IS UNDERLINED!!!!!!

An example of vertical profiles of temperature, salinity and density.

Physical Oceanography Chapter 15. Major Oceans The three major oceans are : 1._______-largest, deepest, coldest, least salty. 2.__________- second largest,

Internal tides Seim, Edwards, Shay, Werner Some background SAB – generation site? Shelf observations Towards a climatology?

Waves in the Ocean. Waves are the undulatory motion of a water surface. Parts of a wave are, Wave crest,Wave trough, Wave height (H), Wave Amplitude,

Geopotential and isobaric surfaces

Ocean Currents.

NUMERICAL STUDY OF THE MEDITERRANEAN OUTFLOW WITH A SIMPLIFIED TOPOGRAPHY Sergio Ramírez-Garrido, Jordi Solé, Antonio García-Olivares, Josep L. Pelegrí.

Chapter 7 Waves in the Ocean.

Role of internal wave mixing in coastal seas with sloping bottoms

Forces and accelerations in a fluid: (a) acceleration, (b) advection, (c) pressure gradient force, (d) gravity, and (e) acceleration associated with viscosity.

In the vicinity of mooring D, the bottom slope is α ≈ We show that for the stratification shown in Figure 1 (let N 0 =2f ) the frequency ω of bottom-trapped.

Coastal Winds + Coriolis Effect = Upwelling Southern hemisphere: water moves to the left of wind El niño - shutdown of upwelling.

DYNAMIC OCEAN Chapter 16. SURFACE CIRCULATION  Surface currents  Move horizontally on the upper surface of the ocean  Wind blowing across the surface.

Define and we have • At the sea surface (z=0), the surface current flows at 45o to the right of the wind direction Depends on constant Az => • Current.

Define and we have • At the sea surface (z=0), the surface current flows at 45o to the right of the wind direction Depends on constant Az => • Current.

Define and we have • At the sea surface (z=0), the surface current flows at 45o to the right of the wind direction Depends on constant Az => • Current.

Define and we have • At the sea surface (z=0), the surface current flows at 45o to the right of the wind direction Depends on constant Az => • Current.

Josh Kohut1, Elias Hunter1, and Bruce Huber2

Observations of Deep Flow along the Central California Coast

Ms. Halbohm Marine Biology

Warm-up What is one topic from this unit that you understand?

Chapter 16.2 Waves and Tides.

Week 5: Thermal wind, dynamic height and Ekman flow

Waves in the Ocean.

LCDR John Hendrickson 17SEP2008

Diurnal Variability in Ocean Currents off Huntington Beach

LEUT Kristen Watts, RAN OC 3570 Winter 2003

LEUT Scott Peak, RAN OC 3570 Winter 2004

Ocean Movements 15.3.

The Mars Pathfinder Atmospheric Structure Investigation/Meteorology (ASI/MET) Experiment by J. T. Schofield, J. R. Barnes, D. Crisp, R. M. Haberle, S.

Physical Oceanography

Presentation transcript:

Lien, R.-C., and M. C. Gregg (2001), Observations of turbulence in a tidal beam and across a coastal ridge, J. Geophys. Res., 106,

roOc/notes/figures/fig10a7.html

Overview of a soliton surge through the Strait of Gibraltar into the Alboran Sea. Once a day the high tide produces sufficient energy to create solitons atop the strong density boundary between the dense bottom water flowing west into the Atlantic Ocean and the less dense water flowing into the Mediterranean from the Atlantic. Space Shuttle Flight 41G; 36N, 5.5W, 12:04:04 GMT, 11 Oct 1984

Energetic solitons generated near the shelf break propagated shoreward past FLIP, which was tri-moored in 150m of water. Extremely nonlinear solitons, with downward displacements of 25m from a 7m pycnocline depth were observed on the leading edge of the semidiurnal internal tide. Observation of the upper ocean near the shelf break off northern Oregon made from FLIP in Oct >18000 profiles of T, S, and thermal and kinetic energy dissipation rates were measured by an automated Loose-tethered Microstructure Profiler every 80 s.

S Flight STS-7; 18.5N, 111.5E, 23 June sets of such internal waves observed by the Challenger's crew as they orbited over Hainan Island and the South China Sea. The waves, each representing a high tide of the diurnal tidal cycle.

Stack plot of T at mooring S7 on the 350 m isobath. The bottom 150 m are not shown to allow a clearer presentation of the internal wave structure. Each panel is one day (May 4 – 14, 2001) from 0000 to 2400 hours. Ramp et al., 2003

350 m 200 m 120 m ASIAEX Temperature May 6, 2001 Wave Evolution Towards Shallower Water S7 S5 S wave N W E S Hours on May 6 (GMT) °C°C Ramp et al., 2003

T and w (top panel), and u (bottom panel) for the May 8 soliton packet observed at ASIAEX mooring S7 on the 350 m isobath. w, white line, was sampled by the 90- m ADCP range cell, one of the closest bins to the transducer heads. The upper layer horizontal velocities are from the ADCP and the lower layer velocities are from the three Aanderaa current meters. Ramp et al., 2003

Observed and PCTides-generated barotropic tidal amplitudes at S7 on the Chinese continental slope. Middle: The barotropic tidal height in Luzon Strait, as computed by the global tidal model PCTides. Top: T at 140 m at site S7 on the 350 m isobath, phase-shifted 3.7 days to the left (earlier) to account for the propagation time between the proposed generation site (Luzon Strait) and the mooring. All the pressure time series had the mean removed, were scaled up by a factor of 10, and were offset by 15 and 30 db, respectively for clarity. Ramp et al., 2003