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Ocean Breakout Report

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Ocean Breakout Report. Chuck McClain & Bob Evans. MODIS-VIIRS Joint ... O99,M99,M90,M70,M50. T99,T90,T50. AERONET. N=282. MODIS_ATM. MODIS_OC. C99,C90,C70,C50 ... – PowerPoint PPT presentation

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Title: Ocean Breakout Report


1
Ocean Breakout Report
  • Chuck McClain Bob Evans
  • MODIS-VIIRS Joint Science Team Meeting
  • May 13-16, 2008

2
Science Team Presentations
  • R. OMalley (OSU for M. Behrenfeld, PI)
  • Primary production and FLH
  • H. Feng (UNH for J. Campbell, PI)
  • East Coast aerosol retrieval comparisons MODIS
    Oceans, Atmos. AERONET
  • R. Evans P. Minnett (U. Miami/RSMAS)
  • SST (presented in Wed. plenary)
  • S. Maritorena (UC/SB)
  • Data merging and ocean product development
  • C. McClain (NASA/GSFC)
  • MODIS VIIRS calibration and validation
  • C. Thomas (UMD/Horn Point)
  • HPLC pigment analyses

3
Science Team Presentations
  • K. Voss (U. Miami)
  • Marine optics and instrumentation
  • M. Wang (NOAA/NESDIS)
  • Ocean color atmospheric correction
  • W. Gregg (NASA/GSFC)
  • Global ocean ecosystem modeling data
    assimilation
  • S. Hooker (NASA/GSFC)
  • Ocean biology Calibration Validation Office
  • B. Franz (NASA/GSFC)
  • Ocean biology reprocessing plans
  • VIIRS
  • F. Patt (GSFC) SDS Status NPP Maneuvers Update
  • K. Turpie (GSFC) Calibration analyses

4
Some Science Team Highlights
  • H. Feng MODIS atmos aerosol retrievals closer
    to AERONET values than ocean aerosol retrievals
    off US northeast coast. Ocean processing
    over-corrects at blue wavelengths.

O99,M99,M90,M70,M50
T99,T90,T50
C99,C90,C70,C50
AERONET N282
MODIS_ATM
MODIS_OC
5
Some Science Team Highlights cont.
  • S. Maritorena UC/SB development of marine
    particle size distribution properties
    phytoplankton functional groups, etc.

Particle Size Distribution Slope
Number density at 2 microns
log10(particles/m-4)
6
Some Science Team Highlights cont.
  • W. Gregg (GSFC) Model data assimilation

7
Stan Hooker (NASA/GSFC) Ocean Biogeochemistry
Program Calibration and Validation Office
8
Ocean Biogeochemistry Issues
  • Continuity of SeaWiFS-MODIS product quality
    global time series
  • Sensor performance attributes
  • Optical xtalk severity characterization data
    quality
  • On-board calibration SD, end to end, on orbit
    maneuvers
  • Thermal vacuum test results TBD
  • Recommended VIIRS improvements
  • Remanufactured IFA
  • Dual gains in M6 (748 nm), SST/fire bands
  • 2x higher SNRs in M8 (1.2 micron) M10 (1.6
    micron)
  • Recommendations for VIIRS-2
  • FLH bands (phytoplankton physiology, HABS, etc.)
  • UV band (360-380 nm)
  • 510 nm band (turbid water chlorophyll)
  • Split 4 micron band into 2 bands (night-time
    SST-4)3.954.05um
  • Processing/Reprocessing with consistent
    current-generation algorithms
  • Balance between VIIRS, international missions,
    Decadal Survey missions (Venture-class, ACE,
    GeoCAPE, etc.)

9
Ocean Biogeochemistry Issues
  • Gearing up for new science thrusts of Ocean
    Biogeochemistry Program
  • Coastal regimes (turbid water) science theme
    refinement, measurement requirements protocols
    (satellite in situ), atmospheric corrections
  • Habitats same issues
  • Multi-disciplinary science associated with ACE
    and GeoCAPE

10
Recommendations for FU2(Not in Priority Order)
  • Improved VNIR IFA to address the optical
    crosstalk problem
  • Improved optical design in SWMWIR and LWIR
    address dewar window ghosting features
  • Improved VNIR Read Out Integrated Circuit (ROIC)
    to address static electrical crosstalk problem
  • Perform end-to-end testing of the solar
    diffuser/monitor/screen on-board calibration
    system relative to earth view
  • Eliminate the noise in the gain switch regions of
    the VIIRS dual gain bands
  • Maintain calibration and characterization of all
    GSE between successive VIIRS flight units
  • Improved saturation handling for single bands
    (i.e. aggregation)
  • Employ tunable lasers (e.g. NIST SIRCUS) in
    measurements of system level spectral response of
    VIIRS bands
  • Report sub-scene statistics of the impact of
    crosstalk and near field response particularly in
    regions of scientific interest such as coastlines
    and cloud edges (i.e. currently full scene
    statistics are reported)
  • Employ NIST Optical Technology Division personnel
    in VIIRS instrument and calibration technical
    meetings.
  • Improved testing of near field and far field
    stray light VIIRS response
  • Implement testing in t/v of band to band
    registration between cold and warm focal planes
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