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Ocean color atmospheric correction – Using a bio-optical model to address the “black pixel assumption” Ocean Optics Class University of Maine July 2011.

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Presentation on theme: "Ocean color atmospheric correction – Using a bio-optical model to address the “black pixel assumption” Ocean Optics Class University of Maine July 2011."— Presentation transcript:

1 Ocean color atmospheric correction – Using a bio-optical model to address the “black pixel assumption” Ocean Optics Class University of Maine July 2011

2 satellite ocean color ocean color satellites view the top of the atmosphere this signal includes contributions from: Rayleigh (air molecules) surface reflection aerosols water model to remove the aerosol signal, we make some assumptions about the “blackness” of the water signal in near-infrared (NIR) bands 0

3 are Rrs(NIR) really black?

4

5 what happens when we don’t account for R rs (NIR) > 0? use the “black pixel” assumption (e.g., SeaWiFS 1997-2000)

6 correction of non-negligible R rs (NIR) estimate R rs (NIR) using a bio-optical model operational SeaWiFS & MODIS processing ~ 2000-present

7 bio-optical model initial R rs (670) measured by satellite (using R rs (765) = 0)

8 bio-optical model initial R rs (670) measured by satellite (using R rs (765) = 0) model a(670) = a w (670) + a pg (670) = 0.1 m -1 a w (670) = 0.44 m -1

9 bio-optical model initial R rs (670) measured by satellite (using R rs (765) = 0) model a(670) = a w (670) + a pg (670) estimate b b (670) using R rs (670), a(670), & G(670) [Morel et al. 2002]

10 bio-optical model initial R rs (670) measured by satellite (using R rs (765) = 0) model a(670) = a w (670) + a pg (670) estimate b b (670) using R rs (670), a(670), & G(670) [Morel et al. 2002] model  using R rs (443) & R rs (555) [Lee et al. 2002] from Carder et al. 1999

11 bio-optical model initial R rs (670) measured by satellite (using R rs (765) = 0) model a(670) = a w (670) + a pg (670) estimate b b (670) using R rs (670), a(670), & G(670) [Morel et al. 2002] model  using R rs (443) & R rs (555) [Lee et al. 2002] estimate b b (765) using b b (670) & 

12 bio-optical model initial R rs (670) measured by satellite (using R rs (765) = 0) model a(670) = a w (670) + a pg (670) estimate b b (670) using R rs (670), a(670), & G(670) [Morel et al. 2002] model  using R rs (443) & R rs (555) [Lee et al. 2002] estimate b b (765) using b b (670) &  reconstruct R rs (765) using b b (765), a w (765), & G(765) a w (765) = 2.85 m -1

13 bio-optical model initial R rs (670) measured by satellite (using R rs (765) = 0) model a(670) = a w (670) + a pg (670) estimate b b (670) using R rs (670), a(670), & G(670) [Morel et al. 2002] model  using R rs (443) & R rs (555) [Lee et al. 2002] estimate b b (765) using b b (670) &  reconstruct R rs (765) using b b (765), a w (765), & G(765) iterate until Rrs(765) changes by <2% (typically 3-4 iterations)

14 locations of application of bio-optical model not applied when Chl < 0.3 mg m -3 weighted application when 0.3 < Chl < 0.7 mg m -3 fully applied when Chl > 0.7 mg m -3 black = land; grey = Chl 0.3 mg m -3

15 what happens when we don’t account for R rs (NIR) > 0? use the “black pixel” assumption (e.g., SeaWiFS 1997-2000)

16 correction of non-negligible R rs (NIR) estimate R rs (NIR) using a bio-optical model operational SeaWiFS & MODIS processing ~ 2000-present

17 references Bailey et al. 2010, Optics Express 18, 7521-7527 Stumpf et al. 2003, SeaWiFS Postlaunch Tech Memo Vol. 22, Chapter 9 Siegel et al. 2000, Applied Optics 39, 3582-3591 others

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