1 xujing jia davis graduate school of oceanography, university of rhode island lewis m. rothstein...
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Xujing Jia DavisGraduate School of Oceanography, University of Rhode Island
Lewis M. RothsteinGraduate School of Oceanography, University of Rhode Island
William K. DewarDepartment of Oceanography, Florida State University,
Dimitris MenemenlisJet Propulsion Laboratory, California Institute of Technology
Numerical and Theoretical Investigations of North Pacific Subtropical Mode Water with Implications to Pacific Climate Variability
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Location: forms and resides south of Kuroshio Extension (KE)
Schematic current patterns in western North Pacific
Features: -weakly stratified, low PV
-upper 500 m of the ocean water column
-inhabits thermostads between 16 and 19C
-salinity range of 34.65-34.8psu
-potential density values of 24.8-25.7 kg/m^3
(Masuzawa, 1969; Suga et al., 1990;
Eitarou et al., 2004)
STMW formation region
North Pacific Subtropical Mode Water (STMW)
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Questions• STMW has known seasonal variability, but
what is the variability of STMW on longer time scales?
• What is the relationship (if any) between low frequency STMW and established climate patterns in the Pacific?
• Dynamics behind it?
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Model and Simulation Descriptions
MITgcm : 3D, z level, primitive equation OGCM (Marshall, 1997)
ECCO2 (Cube 37) global-ocean and sea-ice simulation :
-28-year spin-up prior to its initial January 1992 conditions, carried out by cycling through the 1992-2000 NCEP forcing converted to fluxes using model SST and the Large and Pond bulk formulae (Large et al, 1995, Menemenlis, 2005)
, S, u, v
- Resolution: horizontal resolution: 1/6 lat x 1/6 lon; vertically, from surface to ~6km, 10 m resolution above 100 m and stretched to 95 m around 1000 m - temporal coverage: 1992, Jan – 2006 Mar (171 months)
-Output hasn’t been constrained by oceanic and seaice data yet
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STMW definition
Definition in Cube37 simulation
- PV is less or equal to
- potential density between 24.5~25.3 kg/m^3
- region of 130E~ 200E, 20N~ 40N and east of islands of Japan
Defined STMW region
1110102 sm
z
fPV
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Compare with ObservationMITgcm, May 2004 KESS, late May 2004
After Rainville,et al., 2007
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Temporal variability: 3-D averaged features of STMW
During 1999/2000, cooler, fresher, lower PV, lighter, thinner, shallower STMW
1999/2000
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Temporal variability: STMW volume
1999/2000
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Dominant signal for the STMW variability
Power spectrum of STMW Volume
Frequency (cycles/month)
Pow
er (
m^6
/cpm
)
7 year1 year
0.5 year
Annual cycle is the most significant
99% confidence level
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Seasonality of STMW in climatological fields in MITgcm
Where is the calculated climatological field
Take as an example:
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Seasonality in climatological fields-meridional cross section
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Seasonality in climatological fields-meridional cross section
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Seasonality in climatological fields-meridional cross section
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Seasonality in climatological fields-meridional cross section
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Results: Seasonality in climatological fields-meridional cross section
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Seasonality in climatological fields-meridional cross section
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Results: Seasonality in climatological fields -three time periods
Isolation
Period III
Formation Dissipation
Period IIPeriod I
Period I: STMW formation (Nov~Mar)
Period II: STMW isolation (Mar~Jun)
Period III: STMW dissipation (Jun~Nov)
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Interannual variability of STMW
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STMW interannual variability
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STMW variability and its relation to
Pacific climate variation
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The Pacific Decadal Oscillation (PDO)
www.jisao.washington.edu/pdo/
warm phase cool phase
SST
warm phasecool phase
1976/77
cool phase
1998/99
Warm phase:
cooler SST in STMW region
Cool Phase:
warmer SST in STMW region
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STMW variability is highly correlated with PDO indexCo=0.69, significant value=0.1 with 95% level of confidence
STMW Variability & PDO
Warm phase of PDO Cool phase of PDO
1998/1999
Warm phase of PDO Cool phase of PDO
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Connection between STMW & PDO:large scale atmospheric variations
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PDO IndexThe 1st EOF time coefficient of the SST north of 20 N in Pacific
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Connection between STMW & PDO:large scale atmospheric variations
netQ
, 1st EOF (37.7%) , 1st EOF (37.7%)
netQ
netQ
Str
onge
r E
kman
pum
ping
Less
hea
t lo
ss
Year 1999, STMW minimumYear 1996, STMW maximum
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• The dominant temporal pattern of STMW is seasonality, the annual cycle can be divided into formation, isolation and dissipation periods that correspond to distinct stages of STMW evolution
• An interannual signal is clearly seen in STMW variability as well, this lower frequency signal shows significant correlation with PDO index
• This likely results from the variations in the large scale atmospheric forcing: wind stress and air-sea heat flux
Summary (MITgcm)
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Theoretical frameworks and possible mechanisms of STMW variability
• Following Dewar et al 2005, a modified LPS framework may be established to describe STMW and its connections to large scale ocean-atmospheric circulation
• A PGOM (Samelson & Vallis, 1997) numerically approximates the solutions to this framework and describes STMW characteristics.
• PGOM experiments demonstrate that the interannual variability observed in the Cube 37 simulations can be driven by variations in the large scale air-sea heat flux and wind stress patterns seen in the NCEP reanalysis.
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Thank you!
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Acknowledgements
• Lewis Rothstein (URI)• William Dewar (FSU)• Dimitris Menemenlis (JPL)
• Roger Samelson (OSU)• Geoffrey Vallis (GFDL)• Young-Oh Kwon (WHOI)
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Seasonality in climatological fields-meridional cross section
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Summary (PGOM)
• PGOM representation of the modified LPS framework produces a distinct analog to STMW
• Within this model/framework, Ekman pumping is necessary for the existence and maintenance of STMW
• Quasi-realistic time varying atmospheric forcing experiments show variable large scale wind stress (Ekman pumping) and air sea heat fluxes can separately generate seasonal and interannual variability in STMW