mg isotopes in biocarbonates new insights into vital effects associated to echinoderm and bivalve...
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![Page 1: Mg isotopes in biocarbonates New insights into vital effects associated to echinoderm and bivalve calcification F. Planchon, J. Hermans, C. Borremans,](https://reader035.vdocuments.mx/reader035/viewer/2022070308/551c1ed2550346ad4f8b5a3a/html5/thumbnails/1.jpg)
Mg isotopes in biocarbonatesMg isotopes in biocarbonates
New insights into vital effects associated New insights into vital effects associated toto
echinoderm and bivalve calcificationechinoderm and bivalve calcification
F. Planchon, J. Hermans, C. Borremans, Ph. Dubois, C. Poulain, Y.-M. Paulet and L. André
PaleoSalt
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δδ2626Mg in Biocarbonates: Mg in Biocarbonates: IntroductionIntroduction
Mg/Ca tool
MgFluidCaCarbonate + MgCarbonate+CaFluid
KdMg/Ca ≈ DMg = f(T)
0
20
40
60
80
100
120
0 20 40 60 80
Mg/
Ca (m
mol
/mol
)
T (°C)
Inorganic AragoniteGae tani (2006)
Inorganic Calc iteOomor i (1987)
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δδ2626Mg in Biocarbonates: Mg in Biocarbonates: IntroductionIntroduction
Mg/Ca tool
T Proxy
BioCaCO3
MgFluidCaCarbonate + MgCarbonate+CaFluid
KdMg/Ca ≈ DMg = f(T)
From Gaetani (2006), Lear (2002), Elderfield and Ganssen (2000), Mashiota (1999)
Vital Effects
MetabolismAge
Salinity, etc.
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δδ2626Mg in Biocarbonates: Mg in Biocarbonates: IntroductionIntroduction
Mg/Ca tool
T Proxy
BioCaCO3
MgFluidCaCarbonate + MgCarbonate+CaFluid
Vital Effects26Mg
25Mg
24Mg
δ26MgFluid
δ26MgCarbonateΔCarbonate-Fluid
δ26MgBiocarbonate
ΔInorg-org
δ26Mg
δ25Mg
Galy (2001) MetabolismAge
Salinity, etc.
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δδ2626Mg in Biocarbonates: Mg in Biocarbonates: MethodologyMethodology
Sample Purification Cationic exhange chromatography
(Chang, 2003) Full Mg recovery Clean techniques
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δδ2626Mg in Biocarbonates: Mg in Biocarbonates: MethodologyMethodology
Sample Purification Cationic exhange chromatography
(Chang, 2003) Full Mg recovery Clean techniques
Analysis MC-ICP-MS (Nu instrument) Desolvation (Aridus II) High sensitivity
50-100 ng/g Standard bracketing
Relative to DSM3
0.1562
0.1564
0.1566
0.1568
0.1570
0.1572
0.1574
0.1576
0.1578
0 20 40 60 80 100 120
26Mg/24Mg
Analyses Number
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-4
-3
-2
-1
0
-7 -6 -5 -4 -3 -2 -1 0
δ25Mg (‰)
δ26Mg (‰)
Seawater
Coral and Sclerosponge (Aragonite)
Coral, Sclerosponge and Red algae (Calcite)
Echinoderm (Calcite)
Brachiopod (Calcite)
Coccolith (Calcite)
Mixed Planktonic forams (Calcite)
Mixed Benthic foram (Calcite)
δδ2626Mg in Biocarbonates : Overview Mg in Biocarbonates : Overview
Chang (2003, 2004), Wombacher (2006) and Tipper (2006)
Mass-dependent fractionation line
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δδ2626Mg in Biocarbonates: SamplesMg in Biocarbonates: Samples
Echinoderms Starfish Sea Urchin
Morphology Culture Exp (T, S)
Bivalves Clams (Ruditapes Ph.) Salinity Gradient (2 sites)
Auray River Shell Internal fluids Soft tissus
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EchinodermsEchinoderms
Sea urchin and starfish
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-4
-3
-2
-1
0
-7 -6 -5 -4 -3 -2 -1 0
δ25Mg (‰)
δ26Mg (‰)
Seawater
Coral, Sclerosponge and Red algae (Calcite)
Echinoderm (Calcite)
Brachiopod (Calcite)
Mixed Benthic foram (Calcite)
Starfish (this study)
Sea urchin (this study)
δδ2626Mg in Biocarbonates : Echinoderms (Starfish and Sea urchin) Mg in Biocarbonates : Echinoderms (Starfish and Sea urchin)
Chang (2003, 2004), Wombacher (2006) and Tipper (2006)
Planktonic Forams
Coccoliths
Inorganic Calcite (theo)
Δwater-mineral26Mg: -2.7±0.2‰
Biological effects
0.5 < ΔInorg-org26Mg < 1.5 ‰
Galy (2002)
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δδ2626Mg in Biocarbonates : Sea urchinMg in Biocarbonates : Sea urchin
-3.0 -2.8 -2.6 -2.4 -2.2 -2.0
I
II
III
IV
V
Mouth
Spines
δ26Mg (‰)
Morphological variability
Interambulacral plates record
Endoskeleton characteristics
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δδ2626Mg in Biocarbonates : Sea urchinMg in Biocarbonates : Sea urchin
Culture experiment (T & S control) δ26 : f(T) δ26 : f([Mg])
Proxy implication
Low metabolism impact
y = -0.024x - 1.977R² = 0.778
y = -0.035x - 1.822R² = 0.904
-3.0
-2.5
-2.0
-1.5
-1.0
-0.5
0.0
10 12 14 16 18 20 22 24 26
δ26M
g (‰
)
T (°C)
36‰
39‰
Aq Seawater
y = -11.65x - 1.218R² = 0.685
y = -11.75x - 1.245R² = 0.723
-2.8
-2.7
-2.6
-2.5
-2.4
-2.3
-2.2
-2.1
-2.0
0.080 0.090 0.100 0.110 0.120 0.130
δ26M
g (‰
)
Mg/Ca (mol/mol)
36‰ 39‰
-2.8
-2.7
-2.6
-2.5
-2.4
-2.3
-2.2
-2.1
-2.0
0.00 0.05 0.10 0.15 0.20 0.25 0.30 0.35
δ26M
g (‰
)
Growth rate (mg/d)
36‰ 39‰
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δδ2626Mg in Biocarbonates : Sea urchin CalcificationMg in Biocarbonates : Sea urchin Calcification
δ26Mgseawater
-0.8 ‰
Intra-cellular Calcification
δ26MgBiocarbonate
-2.2 to -2.7 ‰
δ26Mgintracell
Metabolism
ACC
Equilibrium-like fractionation
Biological mediation
Cell membrane transport
Amorphous phase regulation
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δδ2626Mg in Biocarbonates : StarfishMg in Biocarbonates : Starfish
-3.2 -3.1 -3.0 -2.9 -2.8
Asterina
Anseropoda
Marthasterias
Asterias
Echinaster
Henricia
δ26Mg (‰)
Low interspecies variability
Moderate biological control
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BivalvesBivalves
Aragonitic Clams (Ruditapes philippinarum)
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δδ2626Mg in Biocarbonates : Bivalves (Clams, Ruditapes philippinarum)Mg in Biocarbonates : Bivalves (Clams, Ruditapes philippinarum)
Le Bono
Locquemariaquer
Poulain (2006)
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δδ2626Mg in Biocarbonates : Bivalves (Clams, Ruditapes philippinarum)Mg in Biocarbonates : Bivalves (Clams, Ruditapes philippinarum)
-5.0
-4.0
-3.0
-2.0
-1.0
0.0
Seawater Extrapaleal Hemolymph Mant. Musc. Oth. Oyster Shell Coral Clams
δ26Mg (‰)
Morbihan Gulf Auray River (Le Bono) SRM
Internal Fluids Soft Tissues Biocarbonates
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Conclusions : δ26 Mg– δ25Mg in biocarbonatesConclusions : δ26 Mg– δ25Mg in biocarbonates
New tool to explore biocalcification processes Identification of mass-dependent fractionation Potential reservoirs involved
Paleoceanographic Proxy Direct relationship with T and S Constrain biocalcification model
Theoretical approach is needed System evolution (closed-open) Equilibrium – disequilibrium Complex mixing model (metabolism, energy consumption, etc.)
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Thanks for your attentionThanks for your attention
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δδ2626Mg in Biocarbonates : Bivalves (Clams, Ruditapes philippinarum)Mg in Biocarbonates : Bivalves (Clams, Ruditapes philippinarum)
Adapted from Carré (2006)