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Challenges of and needs for monitoring the size of
small particles by Argo-derived optical proxies
Emanuele Organelli, Giorgio Dall’Olmo, Robert Brewin, Glen Tarran and Gavin Tilstone
Prospect Place, The Hoe, PL1 3DH Plymouth UK
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Outlines
1. Introduction
2. Methods
3. Results
4. Implications for BGC-Argo floats
5. Take home messages
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Introduction
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The fate of marine organic particles in the biological carbon pump
U.S. JGOFS (2001)
Algal photosynthesis is the most
important pathway of production of
organic particles in the ocean.
Thereafter, these particles can:
aggregate
be grazed
be fragmented
be remineralised to CO2
sink to the abyss
The size of particles governs all
these processes, and varies over
the time and depth
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The fate of marine organic particles in the biological carbon pump
U.S. JGOFS (2001)
Algal photosynthesis is the most
important pathway of production of
organic particles in the ocean.
Thereafter, these particles can:
aggregate
be grazed
be fragmented
be shrunk
be remineralised to CO2
sink to the abyss
The size of particles governs all
these processes, and varies over
the time and depth
“Observing particle and plankton size distributions
(PSDs) in a synoptic manner could help to better
understand the processes contributing to the
biological pump” (Stemmann and Boss, Ann. Rev. Mar. Sci. 2011)
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The size of marine particles and how to measure PSDs
Stramski et al. (2004) Particle Size (m)
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The size of marine particles and how to measure PSDs
Stramski et al. (2004)
Coulter Counter
De
nsity
(part
icle
s m
-3 𝜇
m-1
)
Particle diameter (𝜇m)
The PSD slope, 𝜉,
represents the ratio
between small vs large
particles
South Atlantic gyre (Unpubl.)
Particle Size (m)
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Particles (0.2-20 𝜇m) interact with light
Incident light
Absorption
Scattering
Attenuation= Absorption + Scattering
cp(𝜆)= ap(𝜆)+bp(𝜆)
(called IOPs)
Boss et al. (2013)
Absorption Scattering Attenuation
No
rma
lize
d I
OP
wavelength wavelength wavelength
(backscattering)
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Optical proxies of particle size
The slope, 𝛾, of the beam attenuation coefficient (cp(𝜆)) can
be used as a proxy of the slope, 𝜉, of the Particle Size
Distribution (PSD)
Boss et al. (2001) Boss et al. (2001)
Kostadinov et al. (2009)
The slope, 𝜂, of the particle backscattering
coefficient (bbp(𝜆)) can be used as
a proxy of the PSD slope, 𝜉
Particle attenuation
(cp(660), [m-1])
PS
D s
lope, 𝜉
cp(𝜆
) slo
pe, 𝛾
cp(𝜆) slope, 𝛾
PS
D s
lope, 𝜉
PSD slope, 𝜉
bbp(𝜆
) slo
pe, 𝜂
Log10(b
bp (4
40)/N
0 )
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The potential of Biogeochemical Argo floats
BGC-Argo floats for:
Monitoring changes in particle size and concentration using bbp(𝜆)-derived
optical proxies. This could help improving our understanding of the pathways of
the biological pump processes, and of the magnitude and variability of carbon
fluxes in the mesopelagic region.
Pre
ssure
(d
ba
r)
spring bloom
bbp(532)/bbp(700)
large particles
small particles
Critical need (aim of the talk):
To understand how the relationships between PSDs and optical proxies vary
spatially and temporally, from the surface to the ocean interior.
Dall’Olmo & Mork (2015)
Norwegian Sea
Organelli et al. (2016)
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Methods
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PSDs and optical proxies from the Atlantic Meridional Transect
AMT22
Oct.–Nov. 2012
AMT26
Sep.–Nov. 2016
PSD (coulter counter): 1.4-42 𝜇m
Optics: ac-s & bb3
1 depth: 5 m
(ship’s underway samples)
PSD (coulter counter): 0.55-60 𝜇m
Optics: ac-9 & Hydroscat-6
6 depths: 5 to 500 m
(cast samples)
134 STATIONS 25 STATIONS
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Results
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PSD and optical proxies (at 5 m)
PS
D s
lope 𝜉
bbp(𝜆) slope 𝜂
at 2 wavelengths 470 and 532 nm
AMT22 Kostadinov et al. (2009)
n=98
r2=0.06
backscattering
Organelli et al. in prep.
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PSD and optical proxies (at 5 m)
PS
D s
lope 𝜉
cp(𝜆) slope 𝛾
spectral range: 400-700 nm
AMT22
Boss et al. (2001) AMT26
n=126
r2=0.62
PS
D s
lope 𝜉
bbp(𝜆) slope 𝜂
at 2 wavelengths 470 and 532 nm
AMT22 Kostadinov et al. (2009)
n=98
r2=0.06
backscattering attenuation
Organelli et al. in prep.
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cp(𝜆
) slo
pe 𝛾
[Part.>1𝜇m]/[Part.<1𝜇m]
AMT26
n=17
r2=0.66
PSD and optical proxies (at 5 m)
attenuation 𝛾
(based on more than 2 wavelengths)
is a proxy of the relative
contribution of large and small
(living and not) particles
as well as of the algal community
structure…not shown
Useful measurement currently
unavailable on BCG-floats
Organelli et al. in prep.
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Multispectral bbp-derived optical proxies AMT26
bbp(𝜆) slope 𝜂 (5 wavelengths between 442-671 nm)
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Oxygen 𝜇mol Kg-1
Multispectral bbp-derived optical proxies AMT26
Depth
m
Depth
m
Large-to-Small particles (1𝜇m) (from Coulter)
bbp(𝜆) slope 𝜂 (5 wavelengths between 442-671 nm)
DCM
large particles
small particles
Organelli et al. in prep.
De
pth
m
small
particles
large
particles
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Implications for BGC-Argo floats
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Can we infer PSDs from current BCG-Argo
configuration (bbp at 532 and 700 nm)?
550-671 nm
Flo
at_
sim
ula
tion
𝜂 Multispectral (5 wavelengths) 𝜂 Multispectral (5 wavelengths)
𝜂 float
(sim
ula
ted fro
m H
yd
rosca
t-6
)
550-852 nm
𝜂 float
(sim
ula
ted fro
m H
yd
rosca
t-6
)
n=13456
r2=0.30
MPD=62%
n=13456
r2=0.04
MPD=22%
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What can we do next?
𝜂 Multispectral (442-671 nm)
𝜂
float
(sim
ula
ted fro
m H
ydro
scat-
6)
448/550/620/671 nm 448/550/620 nm
𝜂 Multispectral (442-671 nm)
𝜂
flo
at
(sim
ula
ted f
rom
Hydro
scat-
6)
n=13456
r2=0.59
MPD=44%
n=13456
r2=0.22
MPD=22%
𝜂
float
(sim
ula
ted fro
m H
ydro
scat-
6)
𝜂 Multispectral (442-671 nm)
𝜂
float
(sim
ula
ted fro
m H
ydro
scat-
6)
𝜂 Multispectral (442-671 nm)
6𝜆𝜆= 442 to 852 nm
n=13456
r2=0.52
MPD=11%
n=13456
r2=0.87
MPD=8%
2𝜆𝜆= 442 and 671 nm
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Take home messages
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Optical proxies (backscattering and attenuation) measured over a
broad spectral range help understanding changes in particle size
along the Atlantic Meridional Transect
Current backscattering measurements on BGC-Argo floats can
mislead our interpretation about small particle size (at least in the
oligotrophic Atlantic Ocean)
Future BGC-Argo floats may be equipped with bbp(442) and
bbp(671) or bbp(852), or at least 2 wavelengths covering a broad
spectral range
Measurements of the spectral beam attenuation coefficient could
further help understanding changes in the contribution of large-to-
small particles and of the algal community structure
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Thanks!
This study has been supported by the REOPTIMIZE project which has received funding from the European Union’s
Horizon 2020 research and innovation programme under the Marie Skłodowska-Curie grant agreement No 706781.
South Georgia island