Распространение плотных придонных
|
|
- Posy Palmer
- 6 years ago
- Views:
Transcription
1 Распространение плотных придонных вод на шельфе Арктических морей Dense bottom water transport over the shelf of Arctic seas Платов Г. А. (Platov G. A.) ИВМиМГ СОРАН, Новосибирск ICMMG, Novosibirsk
2 Problems with numerical simulation of deep water formation Regions of dense water formation have distant location from deep ocean Characteristic length scale of corresponding dynamics is small Diurnal variations are important
3 The Sources of deep water in Arctic According to Aagaard et al. (1981), to maintain the Arctic halocline about 1 2 Sv of high salinity (34.75 ) and low temperature (-1ºC) water is to be contributed. The main sources are: New ice formation in pack ice and in polynias Sv (Björk, 1989, 1990), Cooling and freshening of Atlantic water, passing through the Fram strait and Barents Sea Sv (Steele et al,1995), Deep water passing from Norwegian Sea (Jones, 1995).
4 The geographic location of significant polynia regions in Kara and Barents Seas An approximate position of shelf break line Some polynias are located close to the shelf break (1,2,7,8), some others are quite distant up to thousand km s apart (3,4,5,6). The analyzes of ICMMG model results shows that most productive polynia region from 1948 to 2008 is the vicinity of the Novaya Zemlya islands (4,5,6).
5 Mechanisms of dense shelf water deepening in higher scale ocean models (z-coordinates) Bottom Ekman layer Diffusioni Density anomaly forms an anticyclonic Horizontal diffusion spreads the dense (northern hemisphere) circulation water out of the dense core Ekman transport moves the dense Vertical mixing water out of the dense core Vertical mixing
6 The disadvantages of vertical mixing, applied as a mechanism of deep water formation Vertical mixing means the mixing of all cells situated along the path of dense water trajectory. That is the source of dense water must be strong and last for a long enough period, which is quite unusual situation in Arctic. In reality the dense water motion occurs along the topographic canyons and troughs, so that the mixing with ambient water is reduced substantially.
7 Numerical model region configuration Земля Франца Иосифа North-Eastern part of Franz Josef Land vicinity Horizontal resolutions are 1х1 km and 10х10 km (Rossby radius 5-6 km) Period of numerical integration is 40 days (winter season, February 1983) Initial temperature and salinity distribution corresponds to the horizontal mean for the open part of the basin ( ) and density anomaly for the shelf region ( )
8 Comparison of the Results 1x1 km 10x10 km
9 Propagation along the right side of the canyon (trough)
10 Theoretical background of the direction of dense water propagation The linear equation of non-viscid barotropic eddy is The right side corresponds to JEBAR (joint effect of baroclinity i and relief). If Х-axis directed along density gradient then JEBAR has the form I. e. the density gradient contributes only if depth gradient has a normal component.
11 Sloping convection Forced by the gravity component (-g HΔρ/ρ) Divergence of the dense core near the bottom leads to its anticyclonic rotation (northern hemisphere). Convergence of the light water at the top of the dense water column leads to its cyclonic rotation.
12 Propagation of the dense core along the coast line or sloping bottom. Anticyclonic rotation moves dense water from the rare to the front side, so that the whole core is shifted forward leaving the coast or slope on its right Similarity with the Kelvin waves
13 Parameterization of sloping convection The dense water subducts the ambient water, pushes it upward, where it fills the top of the dense water column. According to Wang (1984) the bottom velocity is u=½(ghδρ/ρ) ½
14 Dense water route parameterization If we know which way the bottom dense water would propagate then we can build a whole map of deep water motion which is similar to the river routes
15 parameterization 5 Comparison of the Results High Resolution Model Low Resolution Model Low Resolution Model with proposed 15 35
16 Arctic deep water volume The results show that application of this method to the Arctic and North Atlantic sea-ice model gives rize of deep water volume (S>34.91 and T<-0.1), but lower the volume of deepest water (S>34.94 and T<- 0.8) The reasons are an extra vertical mixing occurred due to vertical interpolation applied for a large vertical spacing near the bottom of the z- coordinate model increased transport of the dense water from the Arctic region toward the North Atlantic
17 Some conclusions Large scale models are not capable to simulate the sinking of the dense water along the shelf slope The introduced dense water route parameterization is able to move dense bottom water anomalies distant from the shelf breaks without substancial lost of their original properties. The approbation of new parameterization shows that additional justification of vertical mixing is necessary to apply for the higher depths in z-coordinate models Спасибо за внимание Thank you!
A Synthesis of Results from the Norwegian ESSAS (N-ESSAS) Project
A Synthesis of Results from the Norwegian ESSAS (N-ESSAS) Project Ken Drinkwater Institute of Marine Research Bergen, Norway ken.drinkwater@imr.no ESSAS has several formally recognized national research
More informationOn the Circulation of Atlantic Water in the Arctic Ocean
2352 J O U R N A L O F P H Y S I C A L O C E A N O G R A P H Y VOLUME 43 On the Circulation of Atlantic Water in the Arctic Ocean MICHAEL A. SPALL Woods Hole Oceanographic Institution, Woods Hole, Massachusetts
More informationGeneral AW Circulation Schemes
General AW Circulation Schemes Aagaard, 1989 - topographically steered boundary current along slopes and ridges - interior flow weak, dominated by eddies (based on current meters) Rudels et al, 1994 -
More informationLaboratory Benchmark for Models of the Transport in the Kara Sea
Laboratory Benchmark for Models of the Transport in the Kara Sea Thomas McClimans SINTEF Civil and Environmental Engineering N-7465 Trondheim Norway voice: +47 73592417 fax: +47 73 592376 email: thomas.mcclimans@civil.sintef.no
More information2/15/2012. Earth System Science II EES 717 Spring 2012
Earth System Science II EES 717 Spring 2012 1. The Earth Interior Mantle Convection & Plate Tectonics 2. The Atmosphere - Climate Models, Climate Change and Feedback Processes 3. The Oceans Circulation;
More informationRecent anomalously cold Central Eurasian winters forced by Arctic sea ice retreat in an atmospheric model
Recent anomalously cold Central Eurasian winters forced by Arctic sea ice retreat in an atmospheric model Vladimir A. Semenov A.M. Obukhov Institute of Atmospheric Physics RAS, Moscow, Russia and Helmholtz
More informationOcean Mixing and Climate Change
Ocean Mixing and Climate Change Factors inducing seawater mixing Different densities Wind stirring Internal waves breaking Tidal Bottom topography Biogenic Mixing (??) In general, any motion favoring turbulent
More informationThe Planetary Circulation System
12 The Planetary Circulation System Learning Goals After studying this chapter, students should be able to: 1. describe and account for the global patterns of pressure, wind patterns and ocean currents
More informationAn analysis of the Atlantic Meridional Overturning Circulation (MOC) in an Atmosphere-Ocean General Circulation Model
An analysis of the Atlantic Meridional Overturning Circulation (MOC) in an Atmosphere-Ocean General Circulation Model Virginie Guemas, David Salas-Mélia Centre National de Recherches Météorologiques (CNRM)
More informationHow to form halocline water?
How to form halocline water? Atlantic water - cannot form Halocline water simply by mixing (Aagaard, 1981) Surface Water Adapted from Steele and Boyd, 1998 ADVECTIVE HC Temp Fresh Salty Aagaard et al,
More informationFeatures of dense water cascades off the Arctic shelves
V.V.Ivanov,3, G.I.Shapiro, Features of dense water cascades off the Arctic shelves. School of Earth Ocean and Environmental Science, University of Plymouth, UK. P.P. Shirshov Institute of Oceanology RAS,
More informationWater mass formation, subduction, and the oceanic heat budget
Chapter 5 Water mass formation, subduction, and the oceanic heat budget In the first four chapters we developed the concept of Ekman pumping, Rossby wave propagation, and the Sverdrup circulation as the
More informationModeling the Formation and Offshore Transport of Dense Water from High-Latitude Coastal Polynyas
Modeling the Formation and Offshore Transport of Dense Water from High-Latitude Coastal Polynyas David C. Chapman Woods Hole Oceanographic Institution Woods Hole, MA 02543 phone: (508) 289-2792 fax: (508)
More information( ) = 1005 J kg 1 K 1 ;
Problem Set 3 1. A parcel of water is added to the ocean surface that is denser (heavier) than any of the waters in the ocean. Suppose the parcel sinks to the ocean bottom; estimate the change in temperature
More informationOcean Dynamics. The Great Wave off Kanagawa Hokusai
Ocean Dynamics The Great Wave off Kanagawa Hokusai LO: integrate relevant oceanographic processes with factors influencing survival and growth of fish larvae Physics Determining Ocean Dynamics 1. Conservation
More informationThe impact of shelf-break currents on marginal sea overflows
The impact of shelf-break currents on marginal sea overflows Shin Kida ( 木田新一郎 ) JAMSTEC Thanks to Keiko Takahashi (JAMSTEC) Kiyoshi Tanaka (ORI) Past studies on Overflows Open Ocean Marginal Seas Entrainment
More informationSIO 210 Final Exam December 10, :30 2:30 NTV 330 No books, no notes. Calculators can be used.
SIO 210 Final Exam December 10, 2003 11:30 2:30 NTV 330 No books, no notes. Calculators can be used. There are three sections to the exam: multiple choice, short answer, and long problems. Points are given
More informationHeat in the Barents Sea: transport, storage, and surface fluxes
Author(s) 2010. This work is distributed under the Creative Commons Attribution 3.0 License. Ocean Science Heat in the Barents Sea: transport, storage, and surface fluxes L. H. Smedsrud 1, R. Ingvaldsen
More information** warm air mass
Frontal cyclones -otherwise known as mid-latitude or wave cyclones. A cyclone is a cyclonically rotating system which, in mid- and high-latitudes is normally associated with the boundary between air masses
More information8 Mechanisms for tropical rainfall responses to equatorial
8 Mechanisms for tropical rainfall responses to equatorial heating More reading: 1. Hamouda, M. and Kucharski, F. (2019) Ekman pumping Mechanism driving Precipitation anomalies in Response to Equatorial
More informationArctic Ocean simulation in the CCSM4
Arctic Ocean simulation in the CCSM4 Alexandra Jahn National Center for Atmospheric Sciences, Boulder, USA Collaborators: K. Sterling, M.M. Holland, J. Kay, J.A. Maslanik, C.M. Bitz, D.A. Bailey, J. Stroeve,
More informationIsopycnal Analysis of Near-surface Waters in the Norwegian-Barents Sea Region. by Tom Rossby, Vladimir Ozhigin, Victor Ivshin, and Sheldon Bacon
INTERNATIONAL COUNCIL FOR THE EXPLORATION OF THE SEA ICES CM 2006/C:14 Use of isopycnal water mass to distinguish between variability due to the heaving of, and property change on density surfaces. Isopycnal
More informationExchange of mass, heat and carbon across the Barents Sea Opening
Exchange of mass, heat and carbon across the Barents Sea Opening Peter M. Haugan University Courses on Svalbard, Longyearbyen, Norway, and Geophysical Institute, University of Bergen, Norway January 13,
More informationObservations of water masses and circulation with focus on the Eurasian Basin of the Arctic Ocean from the 1990s to the late 2000s
https://helda.helsinki.fi Observations of water masses and circulation with focus on the Eurasian Basin of the Arctic Ocean from the 1990s to the late 2000s Rudels, B. 2013 Rudels, B, Schauer, U, Bjork,
More informationSurface Circulation. Key Ideas
Surface Circulation The westerlies and the trade winds are two of the winds that drive the ocean s surface currents. 1 Key Ideas Ocean water circulates in currents. Surface currents are caused mainly by
More informationICES Journal of Marine Science
ICES Journal of Marine Science ICES Journal of Marine Science (2012), 69(5), 833 840. doi:10.1093/icesjms/fss075 Atlantic water temperature and climate in the Barents Sea, 2000 2009 Vladimir D. Boitsov,
More informationArctic oceanography; the path of North Atlantic Deep Water
Chapter 7 Arctic oceanography; the path of North Atlantic Deep Water The importance of the Southern Ocean for the formation of the water masses of the world ocean poses the question whether similar conditions
More informationComparison of the Siberian shelf seas in the Arctic Ocean
Comparison of the Siberian shelf seas in the Arctic Ocean by Audun Scheide & Marit Muren SIO 210 - Introduction to Physical Oceanography November 2014 Acknowledgements Special thanks to James Swift for
More informationChapter 6. Antarctic oceanography
Chapter 6 Antarctic oceanography The region of the world ocean bordering on Antarctica is unique in many respects. First of all, it is the only region where the flow of water can continue all around the
More informationGEOCHEMICAL TRACERS OF ARCTIC OCEAN CIRCULATION
GEOCHEMICAL TRACERS OF ARCTIC OCEAN CIRCULATION Earth Sciences Division Lawrence Berkeley National Laboratory Fresh Water Cycle Maintains Stratification of Upper Arctic Ocean Stably stratified surface
More informationOn the dynamics of Atlantic Water circulation in the Arctic Ocean
Click Here for Full Article JOURNAL OF GEOPHYSICAL RESEARCH, VOL. 112,, doi:10.1029/2006jc003630, 2007 On the dynamics of Atlantic Water circulation in the Arctic Ocean M. Karcher, 1,2 F. Kauker, 1,2 R.
More informationWinds and Global Circulation
Winds and Global Circulation Atmospheric Pressure Winds Global Wind and Pressure Patterns Oceans and Ocean Currents El Nino How is Energy Transported to its escape zones? Both atmospheric and ocean transport
More informationFronts in November 1998 Storm
Fronts in November 1998 Storm Much of the significant weather observed in association with extratropical storms tends to be concentrated within narrow bands called frontal zones. Fronts in November 1998
More informationIsland Wakes in Shallow Water
Island Wakes in Shallow Water Changming Dong, James C. McWilliams, et al Institute of Geophysics and Planetary Physics, University of California, Los Angeles 1 ABSTRACT As a follow-up work of Dong et al
More informationActual bathymetry (with vertical exaggeration) Geometry of the ocean 1/17/2018. Patterns and observations? Patterns and observations?
Patterns and observations? Patterns and observations? Observations? Patterns? Observations? Patterns? Geometry of the ocean Actual bathymetry (with vertical exaggeration) Continental Continental Basin
More informationArctic decadal and interdecadal variability
Arctic decadal and interdecadal variability Igor V. Polyakov International Arctic Research Center, University of Alaska Fairbanks Mark A. Johnson Institute of Marine Science, University of Alaska Fairbanks
More informationThe deepening of the Atlantic water in the Lofoten Basin of the Norwegian Sea, demonstrated by using an active reduced gravity model
GEOPHYSICAL RESEARCH LETTERS, VOL. 31, L01306, doi:10.1029/2003gl018687, 2004 The deepening of the Atlantic water in the Lofoten Basin of the Norwegian Sea, demonstrated by using an active reduced gravity
More information3. Midlatitude Storm Tracks and the North Atlantic Oscillation
3. Midlatitude Storm Tracks and the North Atlantic Oscillation Copyright 2006 Emily Shuckburgh, University of Cambridge. Not to be quoted or reproduced without permission. EFS 3/1 Review of key results
More informationWinds and Currents in the Oceans
Winds and Currents in the Oceans Atmospheric Processes Density of air is controlled by temperature, pressure, and moisture content. 1. Warm air is less dense than cold air and moist air is less dense than
More informationNew perspectives of climate change impacts on marine anthropogenic radioactivity in Arctic regions
New perspectives of climate change impacts on marine anthropogenic radioactivity in Arctic regions M. Karcher 1,3, I. Harms 2, R. Gerdes 3, W.J.F. Standring 4, M. Dowdall 4, P. Strand 4 1 O.A.Sys Ocean
More informationAtlantic sources of the Arctic Ocean surface and halocline waters
Polar Research ISSN: (Print) 1751-8369 (Online) Journal homepage: https://www.tandfonline.com/loi/zpor20 Atlantic sources of the Arctic Ocean surface and halocline waters Bert Rudels, E. Peter Jones, Ursula
More informationNote that Rossby waves are tranverse waves, that is the particles move perpendicular to the direction of propagation. f up, down (clockwise)
Ocean 423 Rossby waves 1 Rossby waves: Restoring force is the north-south gradient of background potential vorticity (f/h). That gradient can be due to either the variation in f with latitude, or to a
More informationQ.1 The most abundant gas in the atmosphere among inert gases is (A) Helium (B) Argon (C) Neon (D) Krypton
Q. 1 Q. 9 carry one mark each & Q. 10 Q. 22 carry two marks each. Q.1 The most abundant gas in the atmosphere among inert gases is (A) Helium (B) Argon (C) Neon (D) Krypton Q.2 The pair of variables that
More informationTransient/Eddy Flux. Transient and Eddy. Flux Components. Lecture 7: Disturbance (Outline) Why transients/eddies matter to zonal and time means?
Lecture 7: Disturbance (Outline) Transients and Eddies Climate Roles Mid-Latitude Cyclones Tropical Hurricanes Mid-Ocean Eddies (From Weather & Climate) Flux Components (1) (2) (3) Three components contribute
More informationUNIT 3 GEOLOGY VOCABULARY FLASHCARDS THESE KEY VOCABULARY WORDS AND PHRASES APPEAR ON THE UNIT 3 CBA
UNIT 3 GEOLOGY VOCABULARY FLASHCARDS THESE KEY VOCABULARY WORDS AND PHRASES APPEAR ON THE UNIT 3 CBA A map that shows Earth s Topographic Map surface topography, which is Earth s shape and features Contour
More informationMAR 110 LECTURE #10 The Oceanic Conveyor Belt Oceanic Thermohaline Circulation
1 MAR 110 LECTURE #10 The Oceanic Conveyor Belt Oceanic Thermohaline Circulation Ocean Climate Temperature Zones The pattern of approximately parallel oceanic surface isotherms (lines of constant temperature)
More informationTorben Königk Rossby Centre/ SMHI
Fundamentals of Climate Modelling Torben Königk Rossby Centre/ SMHI Outline Introduction Why do we need models? Basic processes Radiation Atmospheric/Oceanic circulation Model basics Resolution Parameterizations
More informationI. Earth s Layers a. Crust: Earth s outside layer. Made of mostly rock. i. Continental: er; made of mostly granite, forms the continents and shallow
I. Earth s Layers a. Crust: Earth s outside layer. Made of mostly rock. i. Continental: er; made of mostly granite, forms the continents and shallow sea beds, floats! ii. Oceanic: er; dense rock such as
More informationThe thermohaline circulation of the Arctic Ocean and the Greenland Sea
The Thermohaline Circulation of the Arctic Ocean and the Greenland Sea Author(s): Bert Rudels Reviewed work(s): Source: Philosophical Transactions: Physical Sciences and Engineering, Vol. 352, No. 1699,
More information8 th Grade Science Plate Tectonics and Topography Review
8 th Grade Science Plate Tectonics and Topography Review #1 Scientists believe that the land masses of Earth were once joined together as one supercontinent called. A: Australia B: Wegner C: Pangaea D:
More informationCruise Report R.V. Oceania, AREX2004
Powstaców Warszawy, PL - 81-71 Sopot, P.O. Box 68 November 16. 4 Cruise Report R.V. Oceania, AREX4 Ship: Cruise: R.V. Oceania Arex4 Dates: 8.6.4 19.7.4 Port Calls: Sopot (Poland) Longyearbyen (Spitsbergen)
More informationUpper Ocean Circulation
Upper Ocean Circulation C. Chen General Physical Oceanography MAR 555 School for Marine Sciences and Technology Umass-Dartmouth 1 MAR555 Lecture 4: The Upper Oceanic Circulation The Oceanic Circulation
More informationAdvancements and Limitations in Understanding and Predicting Arctic Climate Change
Advancements and Limitations in Understanding and Predicting Arctic Climate Change Wieslaw Maslowski Naval Postgraduate School Collaborators: Jaclyn Clement Kinney, Rose Tseng, Timothy McGeehan - NPS Jaromir
More informationWATER FLUXES THROUGH THE BARENTS SEA. Harald Loengl), Vladimir Ozhigin2) and Bjørn Ådlandsvikl)
ICES C.M. 1995 CM 1995/Mini:lO WATER FLUXES THROUGH THE BARENTS SEA by Harald Loengl), Vladimir Ozhigin2) and Bjørn Ådlandsvikl) l)lnstitute of Marine Research, P.O. Box 1870 Nordnes, 5024 Bergen, Norway
More informationMET Lecture 18 Cold Waves (CH14)
MET 4300 Lecture 18 Cold Waves (CH14) Cold Waves, or Polar Outbreaks Influx of unusually cold air into middle and lower latitudes Generally cover larger areas than blizzards or ice storms On average claim
More informationS12. The Arctic Ocean and Nordic Seas: Supplementary Materials
C H A P T E R S12 The Arctic Ocean and Nordic Seas: Supplementary Materials FIGURE S12.1 Principal currents of the Nordic Seas. Shaded currents show upper ocean circulation; thin black arrows show deep
More informationModeling Arctic Intermediate Water: The effects of Neptune parameterization and horizontal resolution
Article Advances in Polar Science doi: 10.3724/SP.J.1085.2013.00098 June 2013 Vol. 24 No. 2: 98-105 Modeling Arctic Intermediate Water: The effects of Neptune parameterization and horizontal resolution
More informationThe Arctic Ocean Climate a balance between local radiation, advected heat and freshwater
The Arctic Ocean Climate a balance between local radiation, advected heat and freshwater Bert Rudels Finnish Meteorological Institute, Helsinki, Finland French Arctic Initiative, Collège de France, Paris,
More informationGlobal Atmospheric Circulation
Global Atmospheric Circulation Polar Climatology & Climate Variability Lecture 11 Nov. 22, 2010 Global Atmospheric Circulation Global Atmospheric Circulation Global Atmospheric Circulation The Polar Vortex
More informationAir Masses of North America cp and ca air masses Air mass characterized by very cold and dry conditions
Chapter 8: Air Masses, Fronts, and Middle-Latitude Cyclones Air masses Fronts Middle-latitude cyclones Air Masses Air mass an extremely large body of air whose properties of temperature and humidity are
More informationMARINE GEOLOGY & GEOGRAPHY
MARINE GEOLOGY & GEOGRAPHY Bathymetry BATHYMETRY BATHYMETRY THE UNDERWATER EQUIVALENT TO TOPOGRAPHY THE STUDY OF WATER DEPTH A BATHYMETRIC MAP SHOWS FLOOR RELIEF OR TERRAIN AS CONTOUR LINES Bathymetry
More informationLecture 1. Amplitude of the seasonal cycle in temperature
Lecture 6 Lecture 1 Ocean circulation Forcing and large-scale features Amplitude of the seasonal cycle in temperature 1 Atmosphere and ocean heat transport Trenberth and Caron (2001) False-colour satellite
More informationLecture 17 ATOC 5051 INTRODUCTION TO PHYSICAL OCEANOGRAPHY. Learning objectives: understand the concepts & physics of
ATOC 5051 INTRODUCTION TO PHYSICAL OCEANOGRAPHY Lecture 17 Learning objectives: understand the concepts & physics of 1. Ekman layer 2. Ekman transport 3. Ekman pumping 1. The Ekman Layer Scale analyses
More informationChapter 02 The Sea Floor
Chapter 02 The Sea Floor Multiple Choice Questions 1. One of the following is not one of the world's major ocean basins: A. Atlantic Ocean B. Arctic Ocean C. Indian Ocean D. Antarctic Ocean E. Pacific
More informationThe California current is the eastern boundary current that lies to the west of
I. INTORDUCTION A. California Current System The California current is the eastern boundary current that lies to the west of North America. The California current flows from north, Washington, to south,
More informationOCB Summer Workshop WHOI, July 16-19,
Transformation and fluxes of carbon in a changing Arctic Ocean and it s impact on ocean acidification, the Atlantic view Leif G. Anderson Department t of Chemistry and Molecular l Biology University of
More informationisopycnal outcrop w < 0 (downwelling), v < 0 L.I. V. P.
Ocean 423 Vertical circulation 1 When we are thinking about how the density, temperature and salinity structure is set in the ocean, there are different processes at work depending on where in the water
More informationBuoyancy-forced circulations in shallow marginal seas
Journal of Marine Research, 63, 729 752, 2005 Buoyancy-forced circulations in shallow marginal seas by Michael A. Spall 1 ABSTRACT The properties of water mass transformation and the thermohaline circulation
More informationGoals of this Chapter
Waves in the Atmosphere and Oceans Restoring Force Conservation of potential temperature in the presence of positive static stability internal gravity waves Conservation of potential vorticity in the presence
More informationHomework 5: Background Ocean Water Properties & Stratification
14 August 2008 MAR 110 HW5: Ocean Properties 1 Homework 5: Background Ocean Water Properties & Stratification The ocean is a heterogeneous mixture of water types - each with its own temperature, salinity,
More informationOn the halocline of the Arctic Ocean*
Deep-Sea Research, Vol. 28A, No. 6, pp. 529 to 545, 1981. 0198-0149/81/060529-16 $02.00/0 Printed in Great Britain. C 1981 Pergamon Press Ltd. On the halocline of the Arctic Ocean* KNUT AAGAARDt, L. K.
More informationMARINE GEOLOGY & GEOGRAPHY
MARINE GEOLOGY MARINE GEOLOGY & GEOGRAPHY Marine Geology 4 LAYERS OF THE EARTH CRUST THICKNESS: VARIES BETWEEN OCEAN & CONTINENTS 5-40 KM STATE: SOLID ELEMENTS: SILICON, ALUMINUM, CALCIUM, SODIUM, POTASSIUM
More informationCHAPTER 9 ATMOSPHERE S PLANETARY CIRCULATION MULTIPLE CHOICE QUESTIONS
CHAPTER 9 ATMOSPHERE S PLANETARY CIRCULATION MULTIPLE CHOICE QUESTIONS 1. Viewed from above in the Northern Hemisphere, surface winds about a subtropical high blow a. clockwise and inward. b. counterclockwise.
More informationHalocline structure in the Canada Basin of the Arctic Ocean
GEOPHYSICAL RESEARCH LETTERS, VOL. 32, L03605, doi:10.1029/2004gl021358, 2005 Halocline structure in the Canada Basin of the Arctic Ocean Koji Shimada, Motoyo Itoh, and Shigeto Nishino Institute of Observational
More informationTypical Arctic profiles. How to form halocline water? 2012 Changing Arctic Ocean 506E/497E - Lecture 7 - Woodgate
Schematic Surface and Atlantic Circulation Typical Arctic profiles MIXED LAYER Usually thin (no wind stirring) PACIFIC WATER High nutrients Shallow (
More informationSIO 210 Final examination Answer Key for all questions except Daisyworld. Wednesday, December 10, PM Name:
SIO 210 Final examination Answer Key for all questions except Daisyworld. Wednesday, December 10, 2008 3-6 PM Name: This is a closed book exam. You may use a calculator. There are two parts: Talley (weighted
More informationAPPENDIX B PHYSICAL BASELINE STUDY: NORTHEAST BAFFIN BAY 1
APPENDIX B PHYSICAL BASELINE STUDY: NORTHEAST BAFFIN BAY 1 1 By David B. Fissel, Mar Martínez de Saavedra Álvarez, and Randy C. Kerr, ASL Environmental Sciences Inc. (Feb. 2012) West Greenland Seismic
More informationBuilding and removing stratification in the Arctic Ocean
Building and removing stratification in the Arctic Ocean John Marshall Massachusetts Institute of Technology With help and advice from: An Nguyen Patrick Heimbach Hajoon Song Christopher Klingshirn FAMOS
More informationREPORT DOCUMENTATION PAGE OMB No
Form Approved REPORT DOCUMENTATION PAGE OMB No. 074-0188 Public reporting burden for this collection of information is estimated to average 1 hour per response, including the lime for reviewing instructions,
More informationModeling of deep currents in the Japan/East Sea
Modeling of deep currents in the Japan/East Sea Olga Trusenkova V.I.Il ichev Pacific Oceanological Institute, FEB RAS Vladivostok, Russia PICES 2014 Annual Meeting, 16-26 October 2014, Korea, Yeosu Deep
More informationOCN 201 Physiography of the Seafloor
OCN 201 Physiography of the Seafloor Hypsometric Curve for Earth s solid surface Note histogram Hypsometric curve of Earth shows two modes. Hypsometric curve of Venus shows only one! Why? Ocean Depth vs.
More informationCHAPTER 6 Air-Sea Interaction Pearson Education, Inc.
CHAPTER 6 Air-Sea Interaction Chapter Overview The atmosphere and the ocean are one independent system. Earth has seasons because of the tilt on its axis. There are three major wind belts in each hemisphere.
More informationSPI Analyze data to identify events associated with heat convection in the atmosphere. SPI Recognize the connection between the
SPI 0607.8.1 - Analyze data to identify events associated with heat convection in the atmosphere. SPI 0607.8.2 - Recognize the connection between the sun s energy and the wind. o Energy from the Sun creates
More informationDon't let your PBL scheme be rejected by brine: Parameterization of salt plumes under sea ice in climate models
Don't let your PBL scheme be rejected by brine: Parameterization of salt plumes under sea ice in climate models Dimitris Menemenlis California Institute of Technology, Jet Propulsion Laboratory Frontiers
More informationEnhancing predictability of the Loop Current variability using Gulf of Mexico Hycom
Enhancing predictability of the Loop Current variability using Gulf of Mexico Hycom Matthieu Le Hénaff (1) Villy Kourafalou (1) Ashwanth Srinivasan (1) Collaborators: O. M. Smedstad (2), P. Hogan (2),
More informationThe surface of the ocean floor is as varied as the land. The five major oceans, from largest to smallest, are
11.1 Ocean Basins The surface of the ocean floor is as varied as the land. The five major oceans, from largest to smallest, are w the Pacific w the Atlantic w the Indian w the Southern w the Arctic The
More informationWeather & Ocean Currents
Weather & Ocean Currents Earth is heated unevenly Causes: Earth is round Earth is tilted on an axis Earth s orbit is eliptical Effects: Convection = vertical circular currents caused by temperature differences
More informationThe TOPAZ3 forecasting system. L. Bertino, K.A. Lisæter, Mohn-Sverdrup Center/NERSC
The TOPAZ3 forecasting system L. Bertino, K.A. Lisæter, Mohn-Sverdrup Center/NERSC LOM meeting, Bergen Beach, 20 th Aug. 2007 Introduction Main objective of data assimilation Estimate the most likely
More informationOcean Circulation. In partnership with Dr. Zafer Top
Ocean Circulation In partnership with Dr. Zafer Top Samantha Hampton Honors Science December 15, 2014 Ocean Circulation is the large scale movement of waters in the ocean basins. Dr. Zafer Top studies
More informationOCN 201 Physiography of the Seafloor
OCN 201 Physiography of the Seafloor 1 Ocean Depth versus Continental Height Why do we have dry land? Solid surface of Earth is dominated by two levels: Land with a mean elevation of +840 m (29% of Earth
More informationAn Introduction to Coupled Models of the Atmosphere Ocean System
An Introduction to Coupled Models of the Atmosphere Ocean System Jonathon S. Wright jswright@tsinghua.edu.cn Atmosphere Ocean Coupling 1. Important to climate on a wide range of time scales Diurnal to
More informationOceanography is the scientific study of oceans Oceans make up over 70% of the Earth s surface
Oceanography Oceanography is the scientific study of oceans Oceans make up over 70% of the Earth s surface An ocean must be large and have features which set it apart from other oceans (currents, water
More informationFoundations of Earth Science, 6e Lutgens, Tarbuck, & Tasa
Foundations of Earth Science, 6e Lutgens, Tarbuck, & Tasa Oceans: The Last Frontier Foundations, 6e - Chapter 9 Stan Hatfield Southwestern Illinois College The vast world ocean Earth is often referred
More informationCruise Report. RV Oceania, AREX2011. Institute of Oceanology Polish Academy of Sciences. the Norwegian, Greenland and Barents Seas
w Warszawy 55, 81-712 Sopot, Poland, P.O. Box 68 10 December, 2011 Cruise Report RV Oceania, AREX2011 Institution Ship Name Cruise Name Institute of Oceanology Polish Academy of Sciences RV Oceania AREX2011
More informationGetting around in the Arctic
Getting around in the Arctic what we do (and don t) know about boundary currents Arctic Bathymetry 605ft 184m 70N ~1000ft ~ 330m Rebecca Woodgate University of Washington 150ft 50m BBC Photo by Sullivan
More informationLecture 8. Lecture 1. Wind-driven gyres. Ekman transport and Ekman pumping in a typical ocean basin. VEk
Lecture 8 Lecture 1 Wind-driven gyres Ekman transport and Ekman pumping in a typical ocean basin. VEk wek > 0 VEk wek < 0 VEk 1 8.1 Vorticity and circulation The vorticity of a parcel is a measure of its
More informationThe Atmospheric Circulation
The Atmospheric Circulation Vertical structure of the Atmosphere http://www.uwsp.edu/geo/faculty/ritter/geog101/textbook/atmosphere/atmospheric_structure.html The global heat engine [courtesy Kevin Trenberth,
More informationUncertainty in Ocean Surface Winds over the Nordic Seas
Uncertainty in Ocean Surface Winds over the Nordic Seas Dmitry Dukhovskoy and Mark Bourassa Arctic Ocean Center for Ocean-Atmospheric Prediction Studies Florida State University Funded by the NASA OVWST,
More informationA modeling study of the North Pacific shallow overturning circulation. Takao Kawasaki, H. Hasumi, 2 M. Kurogi
PICES 2011 Annual Meeting, Khabarovsk, Russia A modeling study of the North Pacific shallow overturning circulation 1 Takao Kawasaki, H. Hasumi, 2 M. Kurogi 1 Atmosphere and Ocean Research Institute, University
More informationPolar Lows and other High Latitude Weather Systems. John Turner and Tom Bracegirdle British Antarctic Survey Cambridge, UK
Polar Lows and other High Latitude Weather Systems John Turner and Tom Bracegirdle British Antarctic Survey Cambridge, UK A mosaic of infra-red satellite imagery of the Antarctic and Southern Ocean on
More information