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Evaluation of Trends in Chlorophyll-a Concentration in Response to Climatic Variability in the Eastern Bering Sea from MODIS Puneeta Naik a,b and Menghua.

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Presentation on theme: "Evaluation of Trends in Chlorophyll-a Concentration in Response to Climatic Variability in the Eastern Bering Sea from MODIS Puneeta Naik a,b and Menghua."— Presentation transcript:

1 Evaluation of Trends in Chlorophyll-a Concentration in Response to Climatic Variability in the Eastern Bering Sea from MODIS Puneeta Naik a,b and Menghua Wang a a NOAA National Environmental Satellite, Data, and Information Service Center for Satellite Applications and Research College Park, MD 20740, USA b CIRA, Colorado State University, Fort Collins, CO 80523, USA CoRP Science Symposium 2014 Acknowledgements: We thank Drs. Eurico D’Sa and Calvin Mordy for the in situ data in the Bering Sea.

2 Study Area  The Bering Sea is among the most productive marine ecosystems in the world that supports nearly half of the U.S fishery catch.  Over the last few decades the Bering Sea has been subjected to large climatic fluctuations and is among the most rapidly changing marine ecosystem.

3 Study Area Naik and D’Sa, 2010, SPIE Brown et al., 2011, JGR Inter-annual variability in phytoplankton and climate.

4 The Problem  Large discrepancies between satellite and in-situ measured chlorophyll ‐ a concentrations in the high northern latitudes.  Chlorophyll ‐ a derived for the Bering Sea using global ocean color algorithms are underestimated. While some other study demonstrated that chlorophyll-a was overestimated.  Discrepancies attributed to the lower specific phytoplankton absorption, high CDOM and limited data for the development of algorithms. Naik et al., 2013

5 Ocean Color Chlorophyll-a Algorithms For e.g. standard OC3M.v6 chlorophyll-a algorithm: r = max[  wN ( 1 )/  wN ( 3 ),  wN ( 2 )/  wN ( 3 )]  wN ( ) =  nL w ( )/F 0 ( ) log 10 [Chl-a (OC3M) ] = 0.243  2.582 r + 1.705 r 2  0.341 r 3  0.881 r 4 r = max[  wN (443)/  wN (551),  wN (488)/  wN (551)] http://oceancolor.gsfc.nasa.gov/REPROCESSING/R2009/ocv6/

6 Data and Methods  NOAA-MSL12 ocean color data processing system used to process and produce MODIS-Aqua ocean color products.  In situ Chl-a data - BEST data archive -NSF funded project in the Bering Sea (http://www.nprb.org/bering-sea-project).http://www.nprb.org/bering-sea-project  In situ normalized water-leaving radiance nL w ( ) - SeaWiFS Bio-optical Archive and Storage System (SeaBASS) (http://seabass.gsfc.nasa.gov/) and a research cruise in July 2008 in the region.http://seabass.gsfc.nasa.gov/  MODIS-Aqua Level-1B data (Collection 6) - NASA MODIS Adaptive Processing System (MODAPS) website (http://ladsweb.nascom.nasa.gov).http://ladsweb.nascom.nasa.gov  Sea ice extent data (2003–2012) - National Snow and Ice data center ( https://nsidc.org/). https://nsidc.org/  Wind speed data - NCEP/NCAR reanalysis project (http://www.esrl.noaa.gov/psd/)http://www.esrl.noaa.gov/psd/  MODIS-Aqua Level-2 sea surface temperature (SST) - NASA Ocean Biology Processing Group (OBPG) (http://oceancolor.gsfc.nasa.gov).http://oceancolor.gsfc.nasa.gov

7 MODIS-Aqua-derived nL w ( )

8 MODIS-Aqua-derived Chlorophyll-a Overestimated at lower chlorophyll-a and underestimated at higher chlorophyll-a

9 New Blended Chlorophyll-a Algorithm log 10 [Chl-a (1) ] =  0.041  2.314 MBR for MBR > 1.4 log 10 [Chl-a (2) ] = 3.002 + 3.935 r(667,551) for MBR < 1.0 Chl-a = W Chl-a (1) + (1  W) Chl-a (2) W =  2.5 + 2.5 MBR for 1.0 ≤ MBR ≤ 1.4 where MBR = max (  wN (443,488)/  wN (551)) where, r(667,551) =  wN (667)/  wN (551)

10 New Algorithm Performance

11 Seasonal Chlorophyll-a Patterns

12 Monthly Chlorophyll-a Regional trends within eastern Bering Sea shelf.

13 Chlorophyll-a Trends No long term trend in chlorophyll-a but strong covariation with SST and sea ice extent.

14 Conclusions  The MODIS-Aqua derived radiances using MSL12 showed good agreement with in-situ measured radiances.  Standard and current ocean color algorithms either overestimate or underestimate chlorophyll-a in the Bering Sea.  A new algorithm blending the blue-green ratio and red-green ratio was developed which showed good performance.  Chlorophyll-a exhibited strong seasonal and inter-annual variability closely tied to the physical environment.  No significant difference between ‘warm’ and ‘cold’ years.  No apparent trend of increase or decrease in phytoplankton biomass associated with variability in the physical environment for the 11 years of the study period.  The new blended Chl-a algorithm proposed in this study can be applied to MODIS-Aqua as well as ocean color data from other sensors (e.g., SeaWiFS, VIIRS, etc.).

15 THANKS!

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