coccolithophore blooms in the northern bay of biscay: results from peace project
DESCRIPTION
Coccolithophore blooms in the northern Bay of Biscay: results from PEACE project. Jérôme Harlay Unité d’océanographie Chimique Université de Liège. Co-authorship. Alberto Borges, Bruno Delille, Kim Suykens (ULg, Belgium) Lei Chou, Caroline De Bodt (ULB, Belgium) - PowerPoint PPT PresentationTRANSCRIPT
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Coccolithophore blooms in the northern Bay of Biscay: results from
PEACE project
Jérôme HarlayUnité d’océanographie Chimique
Université de Liège
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Co-authorship• Alberto Borges, Bruno Delille, Kim Suykens (ULg, Belgium)• Lei Chou, Caroline De Bodt (ULB, Belgium)• Koen Sabbe, Nicolas Van Oostende (UGent, Belgium)• Anja Engel, Judith Piontek, Corinna Borchard (AWI, Germany)
ROLE OF PELAGIC CALCIFICATION AND EXPORT OF CARBONATE PRODUCTION
IN CLIMATE CHANGE(2005-2009)
Belgian Federal Science Policy Office
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Outline
• Introduction– Pelagic Calcification– Coccolithophores– Problematic– Objectives
• Material and Methods– Study site– Pelagic processes– Benthic processes
• Results• Synthesis• Conclusions
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Balch et al., 2007 – DSR II
Coccolithophores (Balch et al., 2007) ~1600 1012 g C yr-1
Foraminifera (Langer et al., 1997)~162 1012 g C yr-1
Pteropods (Honjo, 1981)~160 1012 g C yr-1
Coral Reefs (Vescei, 2004) ~90 1012 g C yr-1
Benthic Molluscs, Echinoderms… ?They are the main
contributors to contemporary biogenic CaCO3 precipitation
Estimates of global calcification rates
Pelagic Calcification
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Coccolithophores play a key role in the biogeochemical cycle of the world Ocean:- Primary producers: - Key role in total alkalinity (TA) distribution:
- CaCO3 ballasts particulate organic carbon (POC) and participates to the biological pump that removes CO2 from the surface ocean to the ocean interior.
OHCOCaCOCaHCO 2232
32
243163106224232 1381221716106 OPOHNHOCHOHHPOHNOCO
Coccolithophores
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ProblematicHow important are pelagic calcifiers in the biogeochemical C
cycle?• “Carbonate rocks” is the most important reservoir of C on Earth
Berner, 1998
• CaCO3 production is a biotic process
• Ocean acidification and Global Warming will affect the distribution and the abundance of the pelagic calcifiers.(The Royal Society Report, 2005, IPCC, 2007)
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Objectives
• PEACE project: 3 cruises in the Bay of Biscay (May-June 2006; 2007 and 2008) :
Objectives: ecosystem dynamics and bentho-pelagic coupling during
coccolithophore blooms
ROLE OF PELAGIC CALCIFICATION AND EXPORT OF CARBONATE PRODUCTION
IN CLIMATE CHANGE(2005-2009)
Belgian Federal Science Policy Office
Understanding the functioning and characteristics of coccolithophore blooms is of crucial importance to describe the efficiency of the biological pumps.
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Outline
• Introduction– Pelagic Calcification– Coccolithophores– Problematic– Objectives
• Material and Methods– Study site– Pelagic processes– Benthic processes
• Results• Synthesis• Conclusions
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Material and Methods
2001000
4000
2000
12 °W 10 °W 8 °W 6 °W 4 °W
48 °N
50 °N
52 °N
123
456
78
2
FR
U.K.
IRStudy site: Northern Bay of BiscayNE Altantic Ocean
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Pelagic Processes
Pelagic Measurements (2006):- 14C-Primary production- 14C-Calcification - O2-based Dark Community Respiration- DSi, PO4 - HPLC pigments (Chemtax re-analysis)- POC, PIC-Total Alkalinity, pCO2
-3[H]-Thy Bacterial ProductionWorking hypothesis: the thermal stratification favours the blooming of Coccolithophores at the continental margin.
DIATOMS
COCCOLITHOPHORES
DINOFLAGELLATES
Turbulence
N, P
, Chl
-a
Low High
Low
High
Succession
Margalef’s Mandala (1997)
Succession
We applied an original approach based on the Margalef’s Mandala. “A shift towards oligotrophy is accompanied
by a change in the relative dominance of phytoplankton species.”
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Ben Benthic Processes
- biogeochemical water-sediment fluxes (O2, TA, NO3
-)- FO2 : Benthic respiration rate- FTA*: corrected for:
- nitrification/denitrification :
- aerobic OM remineralisation:
- sediment characteristics (grain size, chlorophyll-a (Chl-a), POC and PIC content)
Water sampled above the bottom at depths between 208 and 4460 m)
Incubations of sediment cores with overlying waters
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Outline
• Introduction– Pelagic Calcification– Coccolithophores– Problematic– Objectives
• Material and Methods– Study site– Pelagic processes– Benthic processes
• Results• Synthesis• Conclusions
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0.2 0.4 0.8 520.08
1
23
4
56
78
2006/06/05
1
23
4
6
78
2006/06/05
5
6 W8 W12 W 10 W14 W 6 W8 W12 W 10 W14 W
a 52
51
50
49
48
47
b
6 W8 W12 W 10 W14 W
52
51
50
49
48
47
1
3
4
56
78
2006/06/05c
2SST Chl-a Reflectanc
e
4000 m
200 m
Internal waves
mixing Advection
Satellite images
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The onset of the coccolithophore bloom (Lwn(555)) coincides with a warming (SST) and a shoaling of the mixed layer depth after the first peak of Chl-a in early April
0
50
100
150
200
MLD
[m]
J F M A M J J A SJ F M A M J J A S0
1
2
3
4
5
10
12
14
16
18
20
22C
hl-a
[µg
L-1]
SST [°C]
0.00
0.25
0.50
0.75
1.00
1.25
1.50
L wn
(555
) [m
W c
m-2
µm
-1 s
r-1]
Chl-aLwn (555)SSTMLD
Time series
Data from:GIOVANNI (Lwn (555), Chl-a)GODIVA (Grid for Ocean Diagnostics, Interactive Visualisation and Analysis) (MLD)Reynolds et al. (2002) (SST)
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0
20
40
60
80
100
120
140
160
10.5 11.5 12.5 13.5 14.5
T [°C]
dept
h [m
]
2 1 5 4 3 4b 1b 8 7 6
The vertical profiles of temperature exhibit a warming over the shelf, compared to the station located on the shelf-break (in grey).
Environmental Settings
2001000
4000
2000
12 °W 10 °W 8 °W 6 °W 4 °W
48 °N
50 °N
52 °N
123
456
78
2
FR
U.K.
IR
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0
20
40
60
80
100
120
140
160
1026.8 1026.9 1027 1027.1 1027.2
density
dept
h (m
)
We used the density gradient to build a stratification index as an indicator for the preferential niche of coccolithophores to characterize the status of the different stations regarding the bloom development.
Pelagic: Results
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0
20
40
60
80
100
120
140
160
1026.8 1026.9 1027 1027.1 1027.2
density
dept
h (m
)
Stratification index
Higher index corresponds to more stratified conditions
We used the density gradient to build a stratification index as an indicator for the preferential niche of coccolithophores to characterize the status of the different stations regarding the bloom development.
Pelagic: Results
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0
20
40
60
80
100
120
140
160
1026.8 1026.9 1027 1027.1 1027.2
density
dept
h (m
)
Stratification index
Higher index corresponds to more stratified conditions
We used the density gradient to build a stratification index as an indicator for the preferential niche of coccolithophores to characterize the status of the different stations regarding of bloom development.
Pelagic: Results
Example: Integrated Chl-a concentration
0.0 0.2 0.4 0.6 0.80
40
80
120
1602
1
41b
4b 7
8
5
r²=0.62
stratification degree (kg m-3)
Chl
-a (m
g m
-2)
Stratification index
Slope-stationsGood mixingShelf-stations
Stratification
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0.0 0.2 0.4 0.6 0.80.00
0.04
0.08
0.12
0.16
2
1 4 1b
4b
7 8
5
r²=0.56
100m-3m [kg m-3]
PO4
[µm
ol L
-1]
0.0 0.2 0.4 0.6 0.80.0
0.5
1.0
1.5
2.02
14
1b
4b7
8
5
100m-3m [kg m-3]
DSi
[µm
ol L
-1]Pelagic: Results
The availability of PO4 decreased with increasing stratification.
DSi remained at limiting concentration for diatom’s growth (< 2.0 µmol L-1)(Egge & Aksnes, 1992)
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Pelagic: Results
0.0 0.2 0.4 0.6 0.80
10
20
30
40
50
2
1 4
1b
4b 7
8
100m-3m [kg m-3]
% C
hl-a
Dia
tom
s
0.0 0.2 0.4 0.6 0.80
10
20
30
40
502
14
1b
4b
7
8
r²=0.30
100m-3m [kg m-3]
% C
hl-a
Coc
co.
0.0 0.2 0.4 0.6 0.80
5
10
15
20
25
2
1
41b
4b7
8
r²=0.28
100m-3m [kg m-3]
% C
hl-a
Din
ofl.
The relative proportion of diatoms was unrelated to stratification
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Pelagic: Results
The relative proportion of diatoms was unrelated to stratification
The relative proportion of coccolithophores decreased while dinoflagellates increased with stratificationAgreement with the Mandala
0.0 0.2 0.4 0.6 0.80
10
20
30
40
50
2
1 4
1b
4b 7
8
100m-3m [kg m-3]
% C
hl-a
Dia
tom
s
0.0 0.2 0.4 0.6 0.80
10
20
30
40
502
14
1b
4b
7
8
r²=0.30
100m-3m [kg m-3]
% C
hl-a
Coc
co.
0.0 0.2 0.4 0.6 0.80
5
10
15
20
25
2
1
41b
4b7
8
r²=0.28
100m-3m [kg m-3]
% C
hl-a
Din
ofl.
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Pelagic: Results
0
100
200
5
2
14
1b
4b7
8r²=0.22
PP (m
mol
C m
-2 d
-1)
0
20
40
602
5
1
4 1b
4b
7
8r²=0.32C
AL
(mm
ol C
m-2
d-1
)
0.0 0.2 0.4 0.6 0.80
50
100
150
2
14
1b
4b
7
8
r²=0.45
100m-3m [kg m-3]
DC
R (m
mol
C m
-2 d
-1)
0.0 0.2 0.4 0.6 0.80.0
0.2
0.4
0.6
5
2
1
4 1b4b
7
8
r²=0.73
100-10 [kg m-3]
CA
L:PP
Shelf-break/ShelfIf one excludes the stations located on the shelf-break, the CAL:PP ratio increases with increasing stratification over the shelf
0.0 0.2 0.4 0.6 0.80.0
0.2
0.4
0.6
0.8
2
1 4
1b
4b
7
8
r²=0.45
100m-3m [kg m-3]
PIC
:PO
C
An increase of the process ratio associated to a decrease of the standing-stock ratio would indicate the export of PIC to the bottom over the shelf
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Pelagic: Results
0
100
200
5
2
14
1b
4b7
8r²=0.22
PP (m
mol
C m
-2 d
-1)
0
20
40
602
5
1
4 1b
4b
7
8r²=0.32C
AL
(mm
ol C
m-2
d-1
)
0.0 0.2 0.4 0.6 0.80
50
100
150
2
14
1b
4b
7
8
r²=0.45
100m-3m [kg m-3]
DC
R (m
mol
C m
-2 d
-1)
0.0 0.2 0.4 0.6 0.80.0
0.2
0.4
0.6
5
2
1
4 1b4b
7
8
r²=0.73
100-10 [kg m-3]
CA
L:PP
Shelf-break/Shelf The CAL:PP ratio increases with increasing stratification over the shelf if one excludes the stations located on the slope
0.0 0.2 0.4 0.6 0.80.0
0.2
0.4
0.6
0.8
2
1 4
1b
4b
7
8
r²=0.45
100m-3m [kg m-3]
PIC
:PO
C
An increase of the process ratio associated to a decrease of the standing-stock ratio would indicate the export of PIC to the bottom over the shelf
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Pelagic: Results
0
100
200
5
2
14
1b
4b7
8r²=0.22
PP (m
mol
C m
-2 d
-1)
0
20
40
602
5
1
4 1b
4b
7
8r²=0.32C
AL
(mm
ol C
m-2
d-1
)
0.0 0.2 0.4 0.6 0.80
50
100
150
2
14
1b
4b
7
8
r²=0.45
100m-3m [kg m-3]
DC
R (m
mol
C m
-2 d
-1)
0.0 0.2 0.4 0.6 0.80.0
0.2
0.4
0.6
5
2
1
4 1b4b
7
8
r²=0.73
100-10 [kg m-3]
CA
L:PP
Shelf-break/Shelf The CAL:PP ratio increases with increasing stratification over the shelf if one excludes the stations located on the shelf-break
0.0 0.2 0.4 0.6 0.80.0
0.2
0.4
0.6
0.8
2
1 4
1b
4b
7
8
r²=0.45
100m-3m [kg m-3]
PIC
:PO
C
An increase of the process ratio associated to a decrease of the standing-stock ratio would indicate the export
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Trophic status of the bloom (2006)
If PP=GPP:
Auto
trop
hyH
eter
otro
phy
2
174
4bis1bis8
Pelagic: Results
2001000
4000
2000
12 °W 10 °W 8 °W 6 °W 4 °W
48 °N
50 °N
52 °N
123
456
78
2
FR
U.K.
IRr2 = 0.98
0.0
0.5
1.0
1.5
2.0
2.5
0 50 100 150 200
GPP [mmol C m-2 d-1]
GPP
:DC
R
0
20
40
60
80
100
120
140
BP
[mm
ol C
m-2
d-1
]
GPP:DCRBP
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Pelagic: Synthesis
(Frankignoulle et al., 1994)
Net CO2 flux = fPP+fCAL+fDCR
NCP (net community production) = PP-DCRAphotic C demand = Respiration in the aphotic zone
O2:C for Resp. = 1:1
7.0CaCOCO
3
2
Stations
Rate measurements (mmol C m-2 d-1) CO2 fluxes (mmol CO2 m-2 d-1)C fluxes (mmol C m-2 d-
1)
14C prim. Prod. (PP)
14C calcif. (CAL)
Resp. (DCR) fPP fCAL fDCR
Net CO2 flux
based on metabolic
rates
Net CO2 flux
based on measured
pCO2
NCP Aphotic C demand
2 180.0 51.4 81.3 -180.0 30.9 81.3 -67.9 -11.4 98.7 89.0
1 79.3 7.5 73.7 -79.3 4.5 73.7 -1.0 -17.8 5.5 98.2
7(HR) 75.1 36.1 81.4 -75.1 21.7 81.4 28.0 -10.2 -6.4 35.1
4(HR) 54.0 12.9 78.9 -54.0 7.8 78.9 32.6 -13.4 -24.9 66.9
1bis 59.2 15.8 103.5 -59.2 9.5 103.5 53.8 -16.1 -44.4 159.0
4bis(HR) 54.6 12.5 101.2 -54.6 7.5 101.2 54.1 -10.7 -46.6 168.5
8(HR) 35.5 13.3 104.3 -35.5 8.0 104.3 76.8 -8.5 -68.8 72.3
Our approach has some caveats:- Steady state is assumed- No dissolved C production nor C-overconsumption products are included
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Pelagic: Synthesis
• GPP = 70 ± 44 mmolC/m²/d • Cal = 34 ± 32 mmol/m²/d• Pelagic respiration = 95 ± 39
mmolC/m²/d
CO2 fluxes C fluxesStation date Pelagic
CalcificationPIC
exportGPP 0.7*CAL PCR GPP:PCR NC flux based on Air-sea metabolic rates CO2 Flux
NCP Aphotic Benthic demand
2 1/06/20061 31/05/20067 7/06/20064 2/06/20061bis 9/06/20064bis 8/06/20068 6/06/20065 2/06/2006Average 2006
518
36131613132422
3515141011107
1915
-180 36 93 1.9 -51 -12-79 5 81 1.0 7 -13-75 25 89 0.8 40 -8-54 9 89 0.6 44 -10-59 11 121 0.5 73 -13-55 9 117 0.5 71 -9-36 9 116 0.3 90 -7-97 17 -7-79 15 101 0.8 39 -10
87 118-2 73-14 41-35 74-62 177-63 155-80 42-24 97
3.8 2.37.24.74.5
11 16/05/20079 14/05/20072bis 24/05/20078 13/05/200710 15/05/20074 23/05/20078bis 21/05/20072 10/05/20075bis 22/05/20075 12/05/20077 23/05/2007Average 2007
65442482
1184759
14042103661
-38261823111411108689
-198 45 78 2.5 -74 -15-134 31 55 2.4 -48 -11-96 17 62 1.5 -17 -6-118 57 117 1.0 57 -12-56 82 65 0.9 91 -14-72 33 85 0.8 46 -10-58 41 96 0.6 79 -14-54 98 90 0.6 134 -6-42 30 88 0.5 76 -14-30 7 90 0.3 67 -14-41 25 -15-82 42 83 1.1 41 -12
120 13679 13234 1220.2 102-9 46-13 107-38-36 87-46 90-60 881523 106
6.05.84.75.35.75.5
1 7/05/20089bis 21/05/200812 18/05/20086 9/05/20088 11/05/20085bis 22/05/200811 14/05/200813 20/05/200810 13/05/20085 10/05/20089 12/05/20082 8/05/20084 23/05/2008
2667151421175
24106
312
10
301487
11147
1195839
-154 18 54 2.9 -82 -6-75 47 68 1.1 39 -8-43 10 46 0.9 13 -8-36 10 39 0.9 13 -3-55 15 62 0.9 22 -8-72 12 86 0.8 27 -7-38 4 51 0.7 17 -9-57 17 87 0.7 46 -9-45 7 85 0.5 47 -9-26 4 76 0.3 54 -8-41 22 174 0.2 155 -10-16 1 122 0.1 107 -8-48 7 -6
100 1188 77-3 81-3 84-7 51-15 73-13 52-30 142-40 63-50 61-134 60-106 158
6.28.46.84.74.14.15.46.53.77.36.6
Average 2008 19 10 -54 13 79 0.8 38 -8 -24 85 5.8
3 year average 34 ± 32 11 ± 11 -70 ± 44 24 ± 22 86 ± 28 0.9 ± 0.7 39 ± 56 -10 ± 3 -15 ± 57 95 ± 39 5.5 ± 1.5
Cruise 12006
Cruise 22007
Cruise 32008
Average values (2006-2008)
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Benthic results
Characteristic of bottom waters:•Low temperature (10.5-11°C)•O2% ~85% -> oxygenated waters•ΩCAL 3.5•NO3
-: 3.9-11 µmol/L•DSi: 1.4-4.7 µmol/L•Chl-a: 0.03-0.58 µg/L•SPM: 0.2-1.5 mg/L•POC: 14-97 µgC/L•PIC: 5-72 µgC/LCharacteristics of surface sediments:•Visual aspect: recent phytoplankton deposition •Fine to coarse sandy sediments (median grain size: 190-285 µm) •Chl-a content: 0.01-0.95 µgChl-a/g •Low %OM: 1.4-4.0%•%PIC: 1.5-9.5% (mainly bivalve debris)
Core incubations:
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Benthic: ResultsCore incubations:
FO2: -2.4 to -8.4 mmol/m²/d
FTA*: -1.1 to +3.7 mmol/m²/dnegative values = noise
Average Dissolution rates:• FTA*/2= 0.33 mmol CaCO3/m²/d)
Average CaCO3 dissolution to OC oxidation ratio:•-FTA*/(2xFO2)= 0.06 ± 0.09 metabolic driven dissolution of CaCO3 in sediments underlying bottom waters highly over-saturated with respect to CaCO3 (Jahnke and Jahnke, 2004)
Low CaCO3 dissolution rates compared to other studies (e.g.) due to high saturation state ΩCAL 3.5 in the Bay of Biscay
-14 -12 -10 -8 -6 -4 -2 00
1
2
3
4
5
6
7
8
9this studyJahnke et al. (1997)Jahnke and Jahnke (2000)
Berelson et al. (2007)decreasingCALof bottom waters
Silverberg et al. (2000)
FO2 (mmol O2 m-2 d-1)
CaC
O3
diss
olut
ion
(mm
ol m
-2 d
-1)
-10 -8 -6 -4 -2 00
1
2
3
4
5
FO2 (mmol O2 m-2 d-1)
FTA*
(mm
ol m
-2d-1
)
From Suykens et al, 2011
From Suykens et al, 2011
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Outline
• Introduction– Pelagic Calcification– Coccolithophores– Problematic– Objectives
• Material and Methods– Study site– Pelagic processes– Benthic processes
• Results• Synthesis• Conclusions
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Synthesis
Average CaCO3 Dissolution rate = 0.33 ± 0.47 mmol/m²/d~1% of the Pelagic Calcification (34 ± 32 mmol/m²/d)
Average Benthic respiration: -5.5 ± 1.5 mmol O2 /m2/ d~8% of the Pelagic Primary production (70 ± 44 mmolC/m²/d)
~6% of the Pelagic respiration in the aphotic zone (95 ± 39 mmolC/m²/d)
Correlation between FTA and FO2 => metabolic driven CaCO3 dissolution in the sediments
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Conclusions
Bentho-pelagic coupling:•CaCO3 dissolution:
• is a metabolic process that occurs in waters over-saturated with respect to calcite and
• is driven by OM respiration in the sediment(in contrast to biogenic silica dissolution that is a thermodynamic process)
•CaCO3 dissolution and benthic respiration are low compared to surface productions
Evidence of a decoupling of calcification by coccolithophores and the dissolution of CaCO3 in the sediments. PIC produced by coccolithophores is either:
• stored in the sediments or • exported out of the system (advection)• but does not seem to be significantly dissolved in the
sediments.
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Thank youfor your attention!
Jess & Glynn Gorick