Presentation is loading. Please wait.

Presentation is loading. Please wait.

WHOI -- AOMIP 10/20/2009 Formation of the Arctic Upper Halocline in a Coupled Ocean and Sea-ice Model Nguyen, An T., D. Menemenlis, R. Kwok, Jet Propulsion.

Published byCaroline Gray Modified over 8 years ago

Similar presentations

Presentation on theme: "WHOI -- AOMIP 10/20/2009 Formation of the Arctic Upper Halocline in a Coupled Ocean and Sea-ice Model Nguyen, An T., D. Menemenlis, R. Kwok, Jet Propulsion."— Presentation transcript:

1 WHOI -- AOMIP 10/20/2009 Formation of the Arctic Upper Halocline in a Coupled Ocean and Sea-ice Model Nguyen, An T., D. Menemenlis, R. Kwok, Jet Propulsion Laboratory, California Institute of Technology

2 WHOI -- AOMIP 10/20/2009 Motivation [Holloway, 2007] [Nguyen et al., 2009] Questions: 1)Source of Upper Halocline Water? 2)Volume budget of source water? Svalbard

3 WHOI -- AOMIP 10/20/2009 Regional Configuration of MITgcm ECCO2: High- Resolution Global- Ocean and Sea-Ice Model Integration Period: 1992-2005 Ocean model: 9-km horizontal 50 vertical levels Surface BC’s: JRA25 Initial conditions: WOA05 bathymetry: GEBCO KPP mixing [Large et al., 1994] BC’s: global solution Sea ice model: C-grid, ~ 9km 2-category zero-layer thermodynamics [Hibler, 1980, Hibler & Zhang, 1997] Viscous plastic dynamics [Hibler, 1979] Initial conditions: Polar Science Center Snow simulation: [Zhang et al., 1998]

4 WHOI -- AOMIP 10/20/2009 1992-2005 Mean August velocity magnitude (top 100m)m/s

5 WHOI -- AOMIP 10/20/2009 Snap shots  winter late spring late summer winter B B’

6 WHOI -- AOMIP 10/20/2009 oCoC 1992-2005 Mean Temperature A A’

7 WHOI -- AOMIP 10/20/2009 Densewater formation on shelves Surface T / S contours: S > 33.25, Sea-ice area = 95% [Woodgate, 2005] BB’ profile 1

8 WHOI -- AOMIP 10/20/2009 Heat Loss, Ice and Dense-water and Halocline water productions [Cavalieri 1994] Heat Loss:H L = (8.64  10 4 ) A F net Ice Production:V i = (8.64  10 4 ) H L / (  i L) Salt Production:S F =  i V i 0.69 s w Dense Water:V D = S F / [  e s e –  w s w ] Halocline Water**:V H = V D (s e – 32) / (32.85 – 32), s e > 32.85 = S F / [  h s h –  w s w ], s e < 32.85 ** Assumptions: a.sea-ice production yields enriched water with salinity increases 1.5-2 psu b.enriched water mixes with mixed-layer water to produce halocline water c.cold halocline water has an average salinity s h =32.85 psu d.enriched water has salinity s e > s h Variables: F net : total ocean-to-atmosphere heat flux A: open-water area L: latent heat of fusion  i, V i : sea-ice density and volume  e, s e : enriched water density and salinity  w, s w : background water density and salinity

9 WHOI -- AOMIP 10/20/2009 Ice productions in Region 1

10 WHOI -- AOMIP 10/20/2009 Densewater transport from shelves into Arctic interior Summer 2002 [Pickart, 2005] C C’ Model C C’ August 1992-2005 Observations

11 WHOI -- AOMIP 10/20/2009 Dense water and Halocline water calculations: B B’

12 WHOI -- AOMIP 10/20/2009 Net Halocline Water Production Source Period Dense WaterHalocline Water Cavalieri, [1994]... 1978-1987 0.24  0.04 Sv --- This study……….1992-2005 0.12  0.03 Sv0.09  0.03 Sv

13 WHOI -- AOMIP 10/20/2009 Numerical Calculation (1) Source Period Dense WaterHalocline Water Cavalieri, [1994]... 1978-1987 0.24  0.04 Sv --- This study……….1992-2005 0.12  0.03 Sv0.09  0.03 Sv 1993-2005 0.19  0.05 Sv 0.18  0.09 Sv

14 WHOI -- AOMIP 10/20/2009 Numerical Calculation (2) Source Period Dense WaterHalocline Water Cavalieri, [1994]... 1978-1987 0.24  0.04 Sv --- This study……….1992-2005 0.12  0.03 Sv0.09  0.03 Sv 1993-2005 0.19  0.05 Sv 0.18  0.09 Sv 1993-2005 0.15  0.09 Sv

15 WHOI -- AOMIP 10/20/2009 Summary Model: realistic polynyas and ice productions compared to observations Seasonal cycle of dense water in the Chukchi Sea Dense water  supplies water to the Upper Halocline  need to compare with observations Thank You

16 WHOI -- AOMIP 10/20/2009 Extra (1) [Martin 2004, 2005]

Download ppt "WHOI -- AOMIP 10/20/2009 Formation of the Arctic Upper Halocline in a Coupled Ocean and Sea-ice Model Nguyen, An T., D. Menemenlis, R. Kwok, Jet Propulsion."

Similar presentations

1 ICES/NAFO Symposium Santander May 11 2011 Seasonal to interannual variability of temperature and salinity in the Nordic Seas: heat and freshwater budgets.

1 ICES/NAFO Symposium Santander May Seasonal to interannual variability of temperature and salinity in the Nordic Seas: heat and freshwater budgets.
Salt rejection, advection, and mixing in the MITgcm coupled ocean and sea-ice model AOMIP/(C)ARCMIP / SEARCH for DAMOCLES Workshop, Paris Oct 29-31, 2007.

Salt rejection, advection, and mixing in the MITgcm coupled ocean and sea-ice model AOMIP/(C)ARCMIP / SEARCH for DAMOCLES Workshop, Paris Oct 29-31, 2007.
1 Evaluation of two global HYCOM 1/12º hindcasts in the Mediterranean Sea Cedric Sommen 1 In collaboration with Alexandra Bozec 2 and Eric Chassignet 2.

1 Evaluation of two global HYCOM 1/12º hindcasts in the Mediterranean Sea Cedric Sommen 1 In collaboration with Alexandra Bozec 2 and Eric Chassignet 2.
AS 91413 Year 13 SCIENCE. Ocean systems – course topics 1. Ocean composition 2. Ocean circulation 3. The carbon cycle 4. Transport matter, energy – heat,

AS Year 13 SCIENCE. Ocean systems – course topics 1. Ocean composition 2. Ocean circulation 3. The carbon cycle 4. Transport matter, energy – heat,
Preliminary results on Formation and variability of North Atlantic sea surface salinity maximum in a global GCM Tangdong Qu International Pacific Research.

Preliminary results on Formation and variability of North Atlantic sea surface salinity maximum in a global GCM Tangdong Qu International Pacific Research.
Decadal changes in ocean chlorophyll

Decadal changes in ocean chlorophyll
Circulation in the “Freshwater Switchyard” of the Arctic Ocean Michael Steele Polar Science Center, APL/UW Peter Schlosser & Bill Smethie Lamont-Doherty.

Circulation in the “Freshwater Switchyard” of the Arctic Ocean Michael Steele Polar Science Center, APL/UW Peter Schlosser & Bill Smethie Lamont-Doherty.
Summary from last class… Importance of large-scale ocean circulation –climate, biogeochemistry, marine resources Characteristic “Types” of Ocean Circulation.

Summary from last class… Importance of large-scale ocean circulation –climate, biogeochemistry, marine resources Characteristic “Types” of Ocean Circulation.
2005 ROMS Users Meeting Monday, October 24, 2005 Coupled sea-ice/ocean numerical simulations of the Bering Sea for the period 1996-present Enrique Curchitser.

2005 ROMS Users Meeting Monday, October 24, 2005 Coupled sea-ice/ocean numerical simulations of the Bering Sea for the period 1996-present Enrique Curchitser.
Sea-ice & the cryosphere

Sea-ice & the cryosphere
Thermohaline Circulation

Thermohaline Circulation
The Role of Surface Freshwater Flux Boundary Conditions in Arctic Ocean/Sea-Ice Models EGU General Assembly, Nice, April 2004 Matthias Prange and Rüdiger.

The Role of Surface Freshwater Flux Boundary Conditions in Arctic Ocean/Sea-Ice Models EGU General Assembly, Nice, April 2004 Matthias Prange and Rüdiger.
Challenges in Modeling Global Sea Ice in a Changing Environment Marika M Holland National Center for Atmospheric Research Marika M Holland National Center.

Challenges in Modeling Global Sea Ice in a Changing Environment Marika M Holland National Center for Atmospheric Research Marika M Holland National Center.
Nordic Seas Region Water mass transformation and production of high-density water in the Barents Sea through cooling and brine rejection during ice freezing.

Nordic Seas Region Water mass transformation and production of high-density water in the Barents Sea through cooling and brine rejection during ice freezing.
EGU 2012, Kristine S. Madsen, High resolution modelling of the decreasing Arctic sea ice Kristine S. Madsen, T.A.S. Rasmussen, J. Blüthgen and.

EGU 2012, Kristine S. Madsen, High resolution modelling of the decreasing Arctic sea ice Kristine S. Madsen, T.A.S. Rasmussen, J. Blüthgen and.
Sea Ice Deformation Studies and Model Development

Sea Ice Deformation Studies and Model Development
The Large-Scale Energy Budget of the Arctic Mark C. Serreze National Snow and Ice Data Center (NSIDC) Cooperative Institute for Research in Environmental.

The Large-Scale Energy Budget of the Arctic Mark C. Serreze National Snow and Ice Data Center (NSIDC) Cooperative Institute for Research in Environmental.
Jonathan Whitefield Peter Winsor Tom Weingartner USING IN SITU OBSERVATIONS TO VALIDATE THE PERFORMANCE OF ECCO IN THE ARCTIC SEAS.

Jonathan Whitefield Peter Winsor Tom Weingartner USING IN SITU OBSERVATIONS TO VALIDATE THE PERFORMANCE OF ECCO IN THE ARCTIC SEAS.
Opening and closing of the Storfjorden polynya. Coastal Polynya Skogseth (2003), PhD thesis Storfjorden is estimated to supply 5-10% of the newly formed.

Opening and closing of the Storfjorden polynya. Coastal Polynya Skogseth (2003), PhD thesis Storfjorden is estimated to supply 5-10% of the newly formed.
1.Introduction 2.Description of model 3.Experimental design 4.Ocean ciruculation on an aquaplanet represented in the model depth latitude depth latitude.

1.Introduction 2.Description of model 3.Experimental design 4.Ocean ciruculation on an aquaplanet represented in the model depth latitude depth latitude.

Similar presentations

Ads by Google