ATMS 373C.C. Hennon, UNC Asheville Observing the Tropics.
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ATMS 373 C.C. Hennon, UNC Asheville Observing the Tropics
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Transcript of ATMS 373C.C. Hennon, UNC Asheville Observing the Tropics.
ATMS 373 C.C. Hennon, UNC Asheville
Observing the Tropics
ATMS 373 C.C. Hennon, UNC Asheville
Buoys
• Two types– Drifter
• Attached to sub-surface anchor (“drogue”) 15 meters below surface
• Drogue can measure mixed layer currents• Floats freely on water surface• Average lifespan is 400 days• Weigh between 44 and 100 lbs.• Data transmitted to passing satellites
– ARGOS
ATMS 373 C.C. Hennon, UNC Asheville
http://www.aoml.noaa.gov/phod/dac/gdp_drifter.html
Surface Float
Drogue
ATMS 373 C.C. Hennon, UNC Asheville
http://www.aoml.noaa.gov/phod/graphics/dacdata/globpop.gif
ATMS 373 C.C. Hennon, UNC Asheville
ATMS 373 C.C. Hennon, UNC Asheville
Buoys
• Two types– Moored
• Anchored to sea floor• Generally located near coastlines• Provide important information for landfalling TCs• Data collected and monitored by National Data
Buoy Center (NDBC)
ATMS 373 C.C. Hennon, UNC Asheville
Buoy regions controlled by the National Data Buoy Center
ATMS 373 C.C. Hennon, UNC Asheville
TAO Array – Detection and observation of ENSO events - Consists of 70 buoys
ATMS 373 C.C. Hennon, UNC Asheville
ATMS 373 C.C. Hennon, UNC Asheville
http://www.oc.nps.navy.mil/webmodules/ENSO/TAO.html
ATMS 373 C.C. Hennon, UNC Asheville
Hurricane Katrina Passage over moored buoy GDIL1
ATMS 373 C.C. Hennon, UNC Asheville
Katrina just 65 miles to the west (145 mph)Significant wave height = 16.9 m (55.5 ft)Maximum wave height (statistically derived)= 32.1 m (109 ft)!!
SWH = Averageof highest 1/3of waves
ATMS 373 C.C. Hennon, UNC Asheville
Reconnaissance Flights
• Aircraft penetrations of TCs
• Performed since 1944
• GPS Dropsonde most critical instrument– measures temperature, humidity, pressure,
winds– data available in near-real time at National
Hurricane Center
ATMS 373 C.C. Hennon, UNC Asheville
http://www.gsfc.nasa.gov/gsfc/earth/pictures/camex4/dropsonde.gif
ATMS 373 C.C. Hennon, UNC Asheville
“Hurricane Hunters”
• 53rd Weather Reconnaissance Squadron– Keesler AFB, Biloxi MS– 10 C-130 planes
ATMS 373 C.C. Hennon, UNC Asheville
ATMS 373 C.C. Hennon, UNC Asheville
Tropical Rainfall Measurement Mission (TRMM)
• First space-borne precipitation radar
• Measures precipitation between 35°N and 35°S
• Used for a lot of purposes– surface soil moisture– lightning research– detection of Madden-Julian Oscillation– improving SST datasets
ATMS 373 C.C. Hennon, UNC Asheville
Tropical Rainfall Measurement Mission (TRMM)
• “Active” sensors– Precipitation
Radar (PR)
• “Passive” sensors– TRMM
Microwave Imager (TMI) http://www.atmos.washington.edu/~houze/RAHouzeWebsite/houze_files/trmmsat.gif
ATMS 373 C.C. Hennon, UNC Asheville
TRMM and Tropical Cyclones
• TMI used to identify circulation centers that may be obscured in IR imagery
• PR provides information about rain rate
ATMS 373 C.C. Hennon, UNC Asheville
TRMM pass over Tropical Cyclone Manou. The inner swath (PR) shows rainfall rates (red = highest); the outer swath (TMI) detects rainbands, and can also be
used to detect circulation centers.
TMI pass near landfall of the 2004 Brazilian hurricane. Red areas represent strong convection. The center of the circulation is noted with an arrow.
ATMS 373 C.C. Hennon, UNC Asheville
QuikSCAT
• Scatterometer– Emits pulse of radiation (13.4 GhZ) toward
ocean surface– Capillary waves (1 cm) on ocean surface
backscatter pulse– More roughness = higher surface wind
speeds– Wind direction can be determined by varying
the azimuthal “look angle”• Observe same spot from at least 4 angles
ATMS 373 C.C. Hennon, UNC Asheville
900km
53 deg
803 km
46 deg
QuikSCAT Operation
ATMS 373 C.C. Hennon, UNC Asheville
ATMS 373 C.C. Hennon, UNC Asheville
Uses of QuikSCAT
• Able to retrieve high resolution (25 or 12.5 km) 10-meter wind speed and direction
• Cross swath width of 1800 km• 90% global coverage daily• Accurate within 2 m/s for wind speeds
of 2-20 m/s (~4 - 40 kt)• Data are assimilated in global weather
models and have made them more accurate
• Have helped TC forecasters identify tropical depressions and maximum extent of wind
• Identify ITCZ and other tropical wind features
ATMS 373 C.C. Hennon, UNC Asheville
TD-14 (2003). QuikSCAT resolves circulation center that is not apparentvia any other means.
ATMS 373 C.C. Hennon, UNC Asheville
Limitations of QuikSCAT
• Unrealistic wind directions for TCs and other rainy areas
• Egregious wind speed errors in rainy regions
• Areas of ocean missed in between swaths
ATMS 373 C.C. Hennon, UNC Asheville
Rain Impacts on QuikSCAT Data
• Rain contaminates the QuikSCAT data:– Attenuates beam (lowers retrieved wind
speed)– Increases backscatter of the beam (raises
retrieved wind speed)– Splash drops on surface enhance backscatter
(raises retrieved wind speed)
• What’s more important? – Depends on rain rate and true surface wind
speed
ATMS 373 C.C. Hennon, UNC AshevilleNHC Winds = 140 kt. MSLP = 932 mb
QuikSCAT surface windsHurricane Isabel (2003)
ATMS 373 C.C. Hennon, UNC Asheville
Advanced Microwave Sounding Unit (AMSU)
• Passive Radiometer• Onboard polar orbiting NOAA satellites• Senses microwave radiation• Can determine atmospheric temperatures
for many layers– 15 different channel sensors– Soundings
• Used to diagnose warm cores in TCs and TC intensity
ATMS 373 C.C. Hennon, UNC Asheville
