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MODIS Measurements of Passive Fluorescence: Comparisons with Theoretical Values and Field Data

MODIS Measurements of Passive Fluorescence: Comparisons with Theoretical Values and Field Data. Mark Abbott, Ricardo Letelier, and Jasmine Nahorniak College of Oceanic and Atmospheric Sciences Oregon State University. The role of ecosystem structure in the flow of energy and elements.

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MODIS Measurements of Passive Fluorescence: Comparisons with Theoretical Values and Field Data

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  1. MODIS Measurements of Passive Fluorescence: Comparisons with Theoretical Values and Field Data Mark Abbott, Ricardo Letelier, and Jasmine Nahorniak College of Oceanic and Atmospheric Sciences Oregon State University

  2. The role of ecosystem structure in the flow of energy and elements “That swarm of locusts” In 1889 G.T. Garruthers described in Nature a swarm of locusts over the Red Sea and derived a figure of 24 quadrillion locusts equivalent to 43 billion tons. Thirty years later Vladimir Vernadsky wrote in his book La Geochimie: “expressed in terms of chemical elements and in metric tons, may be seen as analogical to a rock formation, or more precisely: to a moving rock formation endowed with free energy”

  3. Two major roles of organisms in biogeochemical cycles: • Storage of energy and elements • Mobilization of stored elements and energy in space • The interaction between different types of organisms at different trophic levels and the environment (ecosystem structure) will influence how bioelements and organic energy are distributed and stored in the biosphere. • In turn, the availability of bioelements and energy, as well as the rate of perturbation of the ecosystem will affect the ecosystem structure. • Interaction of ecology and physics

  4. Variability and Response • How will the ocean’s role in carbon cycling change in response to changes in climate? • Changes in circulation and temperature • Shifts in ecosystem structure and carbon export

  5. There are fast and slow processes in the carbon cycle

  6. Understanding the contribution of oceanic biology to carbon sequestration (biological pump)requires to: • Determine the magnitude of Primary Productivity at regional and global scales. • Characterize the mesoscale variability in ecosystem structure and how this variability affects the fate of organic matter.

  7. What is the Role of MODIS Fluorescence Measurements? • Improve estimates of primary productivity on mesoscales • Detect changes in the light/chlorophyll response of phytoplankton • Determine relative impacts of changes in physical environment versus changes in ecosystem structure

  8. Productivity Algorithms • PP = [chl] x (PAR x a*) x Fp where PP = Primary Productivity [chl] = chlorophyll concentration PAR = photosynthetically available radiation a* = chlorophyll specific absorption p = photosynthesis quantum yield [chl] x (PAR x a*) = ARP (Absorbed Radiation by Phytoplankton)

  9. Goddard DACC weekly declouded 36 km starting 04/07/2001 (Quality=0 L2 V 3.2.1) MODIS chl MODIS ARP

  10. Estimates of Primary Productivity

  11. u NADP + 2H+ NADPH2 2 e- LHC ADP+PATP Fluorescence heat Light Harvesting and Fluorescence Fp + Ff + Fh = 1

  12. Fluorescence and Productivity where F = fluorescence [chl] = chlorophyll concentration PAR = photosynthetically available radiation a* = chlorophyll specific absorption F = fluorescence quantum yield • We can rearrange as F/ARP to estimate F

  13. Goddard DACC weekly declouded 36 km starting 04/07/2001 (Quality=0 L2 V 3.2.1) MODIS ARP MODIS FLH

  14. How do we validate FLH & CFE? • Theoretical approach - Analyses of covariance between different MODIS products used in the generation of CFE - Based on physiological principles - Based on historical field observations • Empirical approach - Field observations from different platforms - Concomitant physiological observations

  15. However: • FLH and CFE are very different MODIS products in terms of validation. • - FLH is a nLw at 678 nm after baseline • correction • - CFE is a proxy for Ff (a physiological • parameter) that requires the previous • validation of ARP. • - Further use of Ff to infer Fp requires • the characterization of the variability • in energy distribution within the • photosystem.

  16. MODIS CFE MODIS Chl mg m-3

  17. East Coast Image 2001095.1605 Chl MODIS ARP FLH CFE

  18. OSU Direct Broadcast 2001150 Image 4 km Level 3 (NASA Level 0 -> 1b processing code ver. 1.3 & Miami Ocean Code dated 11/30/2001) MODIS CFE MODIS FLH MODIS chl mg m-2 Dimensionless W m-2mm-1 sr-1

  19. , W m-2mm-1 sr-1 , W m-2mm-1 sr-1 Fischer and Kronfeld (1990) Assuming CFE = 0.003 , mg m-2 , mg m-2 Oregon Coast DB Image 2001150 East Coast Image 2001095.1605

  20. Oregon Coast DB Image 2001150 East Coast Image 2001095.1605 Range covering most oceanic regions (Gordon, 1979; Carder & Steward, 1985; and others) # occurences # occurences CFE CFE , mg m-2 , mg m-2

  21. FLH, W m-2mm-1 sr -1 ARP, mol quanta m-2 s-1 East Coast Image 2001095.1605 , mol quanta m-2 s-1 Variability in a* Variability in CFE (or Ff)

  22. In Situ Observations of F/[chl] Initial slope proportional to F

  23. mg m-3 mg m-3 Latitude mg m-3 Longitude

  24. SST, °C 0.55 17.30 Fp + Ff + Fh= 1 0.50 16.34 0.45 15.39 0.40 Fv / Fm (proxy for Fp) 14.43 0.35 13.47 0.30 12.51 0.25 0.20 11.55 0 0.05 0.1 0.15 0.2 0.25 0.3 0.35 FLH/chl vs. Fv/Fm as Function of SST FLH / chl,W m-2 µm-1 sr-1 (mg m-3)-1 (proxy for Ff)

  25. Ongoing Field Observations • In situ open ocean • - MOBY • - HOT cruises • -In situ Coastal • - GLOBEC (2002) • - COAST (2003) • - Southern Ocean SOFeX

  26. Validation vs. Characterization • The validity of a product depends on the • scientific question (i.e. relative vs. absolute • changes). • The validity can be determined by the user • by looking into the characterization of the • uncertainties in a given MODIS product.

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