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Aquarius SSS-max and SSS-min views of the SeaArnold L. Gordon, Lamont-Doherty Earth Observatoryof Columbia University
For decades oceanographers have had global near synoptic time series views of the sea surface from space: visible images, ocean temperature, height, color, sea ice, wind and marine rainfall patterns, all of which have dramatically expanded our knowledge of the ocean condition, enabling quantitative investigating of ocean processes and their coupling to the
atmosphere/climate and marine ecosystems.
Earth still looks insignificant in this image from NASA’s Cassini probe, more than 1.4
billion kilometers away,.
EarthSome views of Earth are from very away far.
GHRSST combined Sea Surface Temperature (SST) daily dataGHRSST combined Sea Surface Temperature (SST) daily data
WPWPEPWP
Synoptic SST global views reveal the complex array of meanders and eddies
Passive microwave: sea ice
Time series of the changing sea ice cover;
Discovery: The Great Weddell Polynya of the mid-1970s:
August 2014August 2014
http://nsidc.org/data/seaice_index/http://nsidc.org/data/seaice_index/
from ship data we knew of Gulf Stream meanders/rings, but
never before have we seen the full dimension on a global scale
of these features.
Arctic Southern ocean
Satellite altimeter image the relief of the sea surface (to a few cm resolution!), a reflection of the
ocean density field, with all of its gyres and bumps and wiggles that
change in time;
and from orbiting scatterometers, we see the winds acting on the
ocean surface, driving circulation.
§ MODIS Aqua Ocean Color, Chlorophyll-a concentration – weekly data§ MODIS Aqua Ocean Color, Chlorophyll-a concentration – weekly data
See: NASA Earth Observatory:http://earthobservatory.nasa.gov/GlobalMaps/
More of Earth from space:
§ Tropical Rainfall Measuring Mission (TRMM) http://trmm.gsfc.nasa.gov/
Wind over the ocean!
met
er
What an impressive array of ocean information derived from orbiting satellite! but what about salinity, an equation of state parameter, an indicator
of the marine hydrological cycle?
All we had were blurry atlas views of salinity, built from many decades of data gathering, depicting a climatology that never exists at all points at the same time; and a few lines of surface salinity from underway research ships and
VOS.
SSS
VOS
August 2014
February 2014
Aquarius: global observations of ocean surface salinity, flying 657 kilometers above Earth in a sun-
synchronous polar orbit, repeats every 7 days
sea surface salinometer
657
km
Line winched in when passing over land and ships at sea; aircraft and birds are alerted.
Gary tells me: its more complicated
With the advent of NASA/CONAE Aquarius/SAC-D satellite mission(June 2011 launch) and ESA's Soil Moisture and Ocean Salinity (November 2009 launch), we now have, at long last, near synpotic global views of the sea surface salinity (SSS) from orbiting satellites!!!
Water vapor
~0.2 SvWater vapor
~0.2 Sv
Agulhas leakage Salty waterAgulhas leakage Salty water
blockedWat
er v
apor
Wat
er v
apor
Low SSS
SPURS 1
SPURS 2
Central America Gap winds calculated Gordon and Giuilivi May 2014 from data: http://www.ecmwf.int/ Dee, D. P., et al.. (2011) The ERA-Interim reanalysis: configuration and performance of the data assimilation system. Q.J.R. Meteorol. Soc., 137: 553–597. doi: 10.1002/qj.828
Amazon Congo
limited water vapor flux
~0.2 sv water vapor flux
South Atlantic water vapor flux: Gordon, A.L. & A. R. Piola (1983); Agulhas leaakge: Gordon 1985, 1986
Aquarius tracking SSS trends in a near synoptic fashion enables investigation of the coupling between SSS regimes (e.g. the salt bridge defining
Agulhas leakage; Atlantic vs Pacific SSS; subtropic vs subpolar SSS): how their fluctuations relate to the larger scale SSS and circulation.
August 2014
Southeast Asian fresh
pool
Aquarius data reveal river plume spreading surprising far into the ocean; the SSS-max driven by subtropical evaporation, the SSS-min induced by ITCZ downpours; Southeast Asian freshpool, in sharp contrast to the salty Arabian Sea.
ITCZ
Why is the Atlantic so salty? One of my favorite topics
Annual average SSS from the Monthly Isopycnal Mixed Layer Ocean Climatology (MIMOC) data. The white contours: mean dynamic topography (MDOT). The arrows represent the Ekman transport in Sverdrups computed using ERA-40 wind stress data.
Aquarius (v3.0 Level3) 2012-2013 mean SSS and Evaporation minus Precipitation contours, m/yr, E > P with solid lines. E data from the WHOI OAFlux Project (http://oaflux.whoi.edu/) and P from the GPCP v2.2 combined observations and satellite data (NASA's GPCP project at http://precip.gsfc.nasa.gov/.)
§ The South Atlantic & South Pacific SSS-max are closer to the equator, 15° and 20°S; the southern Indian Ocean SSS-max near 30°S is the most poleward; they all fall to the poleward side of the maximum ‘trade’ wind Ekman transport, within the Ekman convergence zone, and largest E-P.
§ North & South Pacific SSS-max is close to the SSH ridge. The South Atlantic SSS-max 'pressed' against the western boundary. In the western South Pacific there is a secondary (weaker) SSS-max in the Tasman Sea.
§ The North Atlantic and south Indian Ocean have saltiest eastern boundary currents, the Canary and Leeuwin Currents respectively; in both cases, the low salinity subpolar water input is stymied by larger scale circulation patterns (AMOC, Mediterranean surface water inflow; ITF ).
The differences of the 5 subtropics regions are covered in more detail in an article for the SPURS Oceanography issue: "Differences between the Subtropical Surface Salinity Patterns" by A. L. Gordon, C. F. Giulivi, J. Busecke and F. M. Bingham [in revision]
Yes, they are all salty, but they stand out more by their differences.
The subtropical salty pools
Time series of SSS anomaly relative to the basin reference.
The Aquarius SSS-anomalies seasonal cycle greater amplitude than that of Argo, which may reflect more complete synpotic spatial coverage of Aquarius, and/or the Aquarius data represent the sea surface while that Argo surface values are measurements from depths >meter, and the uncertainty in the Aquarius data.
Differences of Aquarius SSS to that of MIMOC may also reflect the improved spatial coverage.
With Aquarius we are seeing new features!The south pacific seasonality is strange.
The South Atlantic has largest SSS anomaly relative to its reference SSS; Indian the smallest.
Aug-Nov NH
Feb-Apr SH
Aug-Nov NH
Feb-Apr SH
Jan-Mar NH
July-Sept,SH
Jan-Mar NH
July-Sept,SH
Dashed: Argo
Solid: Aquarius
Seasonal amplitde = SSS ~0.07
Aquarius SSS 2012-2013 displays a fresher South Pacific SSS-max than MIMOC climatology, while the North Pacific SSS-max is saltier [hydro data suggest interannual/decadal changes in the SSS-max,
often with correlations with other SSS-max regions, Aquarius is ‘seeing’ this in clearer detail]
shifted 6 months
20132012
20132012
Fall maximum, Spring minimum, tracking E-P and ocean processes;
wimpy
split personalitypressed again the
west
the real thing
SE Asian freshpoolArabian Sea
really wide; the strange eastern boundary:
Leeuwin current (ITF?)
**
The northern Indian Ocean got it sideways wide [weak Canary Current,
AMOC, Med effect?]
A summary of the differences of the salty subtropical regions
*The differences of the 5 subtropics regions are covered in more detail in an article for the SPURS Oceanography issue: "Differences between the Subtropical Surface Salinity Patterns" by A. L. Gordon, C. F. Giulivi, J. Busecke and F. M. Bingham [in revision]
Kind-a-like the Indian Ocean
§ The atmospheric and oceanic processes governing SSS are influenced by regional ocean basin configuration, e.g. subtropical SSS-max patterns and locations display marked differences between the 5 subtropical regimes (North and South Atlantic and Pacific; southern Indian Ocean), each is unique in its own way*.
Aquarius will divulge how these regimes couple to each other and other aspects of the global system
February 2012Aquarius L3 V3 Sea Surface Salinity – weekly dataAquarius L3 V3 Sea Surface Salinity – weekly data
August 2012
South Chnia Sea;SCS
Bay of BengalBoB
ITF
Sout
h C
hina
Sea
;
Bay of Bengal
ITF
SEA-FP
Two topics of the Southeast Asian Freshpool (SEA-FP):
§ South China Sea effect on the Indonesian Throughflow (ITF);
§ Export of the Bay of Bengal freshwater
Arabian Sea
Sout
h C
hina
Sea
;
Bay of BengalArabian Sea
February 2012
Gordon, A.L., Huber, B.A., Metzger, E.J., Susanto, R.D., Hurlburt, H.E., Adi, T.R. (2012) South China Sea Throughflow Impact on the Indonesian Throughflow” Geophysical Research Letters: doi:10.1029/2012GL052021 vol (39) L11602
Gordon, A.L., Huber, B.A., Metzger, E.J., Susanto, R.D., Hurlburt, H.E., Adi, T.R. (2012) South China Sea Throughflow Impact on the Indonesian Throughflow” Geophysical Research Letters: doi:10.1029/2012GL052021 vol (39) L11602
ENSO induced change of the South China Sea (SCS) throughflow drawn from the Luzon Strait is the likely cause: increased westward Luzon Strait throughflow during El Niño forces buoyant SCS surface water into the Sulawesi Sea, inhibiting tropical Pacific surface water injection into the ITF; During La Niña, when the Luzon Strait transport is reduced, the SCS freshwater inventory is recharged.
X
X: Makassar Strait mooring
X
La Niña
El Niño
gets saltier
fresher
saltier
Aquarius and SMOS provide a SSS time series to relate the SCS throughflow to the ITF profile
Using SODA (not shown here): The freshwater increase 1998-2000 (La Niña) and decrease in 2002-2004 (El Niño) is equivalent to ~0.3 m/year, well in excess of expected ENSO variability of freshwater (FW, P-E+R) input, and therefore likely that SCS throughflow plays a role in SCS SSS.
Salinity on the 28-30°C slab, June-September
Salinity on the 26-28°C slab, Dec-March
ITF
February 2012 August 2012
ITF
BoB’s freshwater is exported into the surrounding ocean
The Bay of Bengal displays energetic eddy field, discerning the regional circulation is difficult:
• In the winter monsoon fresher SSS spreads along the western margin of the Bay of Bengal, to pass around the southern rim of Sri Lanka into the salty Arabian Sea; in the summer monsoon this pattern is reversed;
• It is likely that during the summer monsoon the freshwater is channeled southward along the eastern margin, reaching to more tropical latitudes, towards the ITF export passage.
Related to ONR ASIRI program
§ As salinity is a seawater equation-of-state parameter, an active component of ocean dynamics, and an indicator of the marine hydrological cycle, the SSS global near synoptic time series is revolutionizing our understanding of the ocean and earth's climate system.
§ The number of research papers utilizing satellite SSS data is expanding at an ever increasing rate; discoveries are being made and many more will be forthcoming as the SSS time series grows, capturing the interannual [and eventually decadal] scales of variability, by Aquarius and SMOS and their followups.
Week 40 1 Oct — 7 Oct 2014
Cold water Aquarius SSS is improving
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