satellite retrieval of phytoplankton community size structure in the global ocean colleen mouw...
TRANSCRIPT
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Satellite Retrieval of Phytoplankton Community
Size Structure in the Global OceanColleen Mouw
University of Wisconsin-Madison
In collaboration with Jim Yoder
Woods Hole Oceanographic Institution
Photo David Doubilet
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Ecological Importance of Cell Size
Chisholm, 2000
• Small cells:• recycled within euphotic
zone•utilizing regenerated
nutrients•Prefer stratified high
light conditions• Large cells:
• sink out of the euphotic zone
•utilize new nutrients efficiently
•Prefer turbulent, low light conditions
Many biogeochemical processes are directly related to the distribution of phytoplankton size class (Longhurst 1998), and is a major biological factor that governs the functioning
of pelagic food webs (Legendre and Lefevre 1991).
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Optical Importance of Cell Size
• Despite the physiological and taxonomic variability, variation in spectral shape can be defined by changes in the dominant size class.
(Ciotti et al. 2002)
a*ph()= [(1-Sf) a*
pico()] + [Sf a*micro()]
Package effect
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Motivation
• Rrs() imagery also contains information about cell size in addition to chlorophyll and CDM concentration.
O’Reilly et al. 1998
Chl (mg m-3)
R=log{(Rrs443 > Rrs 490 > Rrs510)/Rrs555}
•SeaWiFS standard chlorophyll algorithm (OC4v4).
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Effect of Phytoplankton Concentration on Rrs()
O’Reilly et al. 1998
Maximum band shifts from 443 to 490 to 510 nm with increasing chlorophyll concentration
Effect of [Chl] on water-leaving radiance
Spectral shift
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Effect of Cell Size on Rrs()
Magnitude shift!
Sf varyingConstant [Chl] = 0.5 mg m-3
Constant aCDM/NAP(443) = 0.002 m-1
Wavelength (nm)
Rrs (sr-
1)
Hydrolight simulations
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Effect of CDM/NAP on Rrs()
In addition to the magnitude shift of cell size, effects of CDM/NAP must
be considered.
aCDM/NAP(443) varyingConstant Chl = 0.5 mg m-3
Constant Sf = 50%
Wavelength (nm)
Rrs (sr-
1)
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How can phytoplankton cell size be retrieved
from satellite imagery?
Mouw & Yoder (2009) Remote Sensing of Environment, submitted
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HPLC in situ observations
n=4,564
Perc
en
t m
icro
pla
nkto
n
Log10 in situ [Chl] (mg m-3)
The relative biomass proportions of pico-, nano-, and microplankton can be estimated from the concentrations of pigments which have a taxonomic significance and associated to a size class (Bricaud et al. 2004; Vidussi et al. 1996).
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Look-up-table Construction
• Full factorial design
• Independently varied [Chl], Sf, & aCDM/NAP over expected ranges for the global ocean
• For a given combination of IOPs, AOPs are calculated via radiative transfer
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Look-up-table Construction
Full Factorial Design:Chl, Sf,
aCDM/
NAP(443)
Optical model
Hydrolight
Rrs()
Log10 in situ [Chl] (mg m-3)
Log10 GSM01 [Chl] (mg m-3)
Perc
en
t M
icro
pla
nkto
nG
SM
01
aC
DM
/NA
P(44
3)
m-1
n = 44,343
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Wavelength (nm)
Detectable Ranges
If LUT ∆nRrs(443) > SeaWiFS NE∆nRrs(443) –Beyond detection
Rrs (sr-
1)
Chlorophyll (mg m-3)
aC
DM
/NA
P (443) (m
-
1)
SeaWiFS has the sensitivity to retrieve Sf...
• chlorophyll 0.05 - 1.75 mg m-3
• aCDM/NAP(443) < 0.17 m-1
Of decadal mean imagery,84% of [Chl]99.7% of aCDM/NAP(443)
fall within thresholds
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LUT Retrieval
SeaWiFS Rrs() imagery
If aCDM(443) > threshold MaskIf aCDM(443) < threshold Continue
HydrolightNormalized Rrs (443)
(Sf range)
GSM01 Chl
GSM01 aCDM/NAP(443)
SfSeaWiFS
Normalized & Corrected Rrs(443)
If [Chl] above/below threshold < MaskIf [Chl] within threshold Continue0.05 - 1.75 mg m-3
< 0.17 m-1
(443/555)
Guide search space
in LUT
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Land/Cloud
Size Retrieval
Masked regions that are outside of thresholds for Sf retrieval.
Estimated Sf for May 2006
High CDM/Chl
Low Chl
No flag
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Validation
• 85% within 1 standard deviation
• 11%, 2 std. dev.
• 4%, 3 std. dev.
Sf in situ
Sf re
trie
val
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Comparison with other functional type retrievals
Uitz et al. 2006
June 2000
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Sf - SeaWiFS first 10 years
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How do the Sf temporal and spatial patterns compare with [Chl]?
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Sf and [Chl] Decadal Climatology
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Individual EOF – Mode 1
• [Chl] - adjustments to seasonal cycle
• Sf - ENSO relations– Smaller Sf deviations
until until 2002 (Equatorial Pacific) when deviations become negative
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Joint EOF – Mode 1
• Amplitude time series – mirror over zero of
individual Sf mode 1
- Variance driven by Sf
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Summary
• Satellite Sf estimates agree well with previous observations
• Regions of the ocean where Sf and [Chl] are decoupled
• ENSO variability more apparent in Sf than [Chl]
• Non-linear response between Sf & [Chl] points to the importance of additional ecological information in the interpretation of [Chl] distributions
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Moving Forward
• Much more to investigate with Sf time series…– Further investigation of Sf changes over the
decadal record– Flux estimates with assistance from
numerical models– Production estimates considering cell size
(Mouw & Yoder 2005)– Other suggestions/ideas…
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Acknowledgements
• Jim Yoder (WHOI)• Jay O’Reilly (NOAA, NMFS)• Tatiana Rynearson (URI, GSO)• Benjamin Beckmann (MSU)• Maureen Kennelly (URI, GSO)• Kim Hyde (NOAA, NMFS)• Primary Funding
– RI Space Grant/Vetlesen Climate Change Fellowship
– NASA Earth and Space Science Fellowship– URI GSO Alumni Fellowship
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