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![Page 1: Chlorine isotope evidence for syn-subduction modification of serpentinites by interaction with sediment-derived fluid Jane Selverstone and Zachary Sharp.](https://reader038.fdocuments.in/reader038/viewer/2022110116/5519cdb4550346443e8b4945/html5/thumbnails/1.jpg)
Chlorine isotope evidence for syn-subduction modification of serpentinites by interaction with sediment-derived fluid
Jane Selverstone and Zachary SharpUniversity of New Mexico
NSF grant EAR 0911669
during exhumation
![Page 2: Chlorine isotope evidence for syn-subduction modification of serpentinites by interaction with sediment-derived fluid Jane Selverstone and Zachary Sharp.](https://reader038.fdocuments.in/reader038/viewer/2022110116/5519cdb4550346443e8b4945/html5/thumbnails/2.jpg)
3
1
2
0300 400 500 600°C
Lago di Cignana: dia+coe
GPa
Zermatt-Saas ophiolite, Aosta, Italy
P-T data from Cartwright & Barnicoat 2002, Li et al. 2004, Angiboust et al. 2009, Groppo et al. 2009
Z-S ophiolite
Combin
?
![Page 3: Chlorine isotope evidence for syn-subduction modification of serpentinites by interaction with sediment-derived fluid Jane Selverstone and Zachary Sharp.](https://reader038.fdocuments.in/reader038/viewer/2022110116/5519cdb4550346443e8b4945/html5/thumbnails/3.jpg)
Chlorine Isotope Data
serpentinization via seawater
serpentinization via sedimentary pore fluids
Zermatt-Saas data
A simple story?
![Page 4: Chlorine isotope evidence for syn-subduction modification of serpentinites by interaction with sediment-derived fluid Jane Selverstone and Zachary Sharp.](https://reader038.fdocuments.in/reader038/viewer/2022110116/5519cdb4550346443e8b4945/html5/thumbnails/4.jpg)
Textural Types (Li et al. 2004) Type A
Type B
F.O.V. = 4 mm for all photos
Type B/C
seafloor pseudomorphic replacement
mylonitization ± folding during
subduction recrystallization during initial exhumation
greenschist overprint
Type C
Type D
Ol+TiClh
![Page 5: Chlorine isotope evidence for syn-subduction modification of serpentinites by interaction with sediment-derived fluid Jane Selverstone and Zachary Sharp.](https://reader038.fdocuments.in/reader038/viewer/2022110116/5519cdb4550346443e8b4945/html5/thumbnails/5.jpg)
Type A
Type B
Type C Type D Serpentine compositions correlate with textural types
Texturally youngest serp in each sample has lowest Al and highest Mg#
Serpentine analyses
D
A
B
C
![Page 6: Chlorine isotope evidence for syn-subduction modification of serpentinites by interaction with sediment-derived fluid Jane Selverstone and Zachary Sharp.](https://reader038.fdocuments.in/reader038/viewer/2022110116/5519cdb4550346443e8b4945/html5/thumbnails/6.jpg)
Chlorine Isotopes Revisited
3
1
2
0300 400 500 600°C
LdC
GPa
Serpentinite stages:Li et al. 2004, JMG
A
![Page 7: Chlorine isotope evidence for syn-subduction modification of serpentinites by interaction with sediment-derived fluid Jane Selverstone and Zachary Sharp.](https://reader038.fdocuments.in/reader038/viewer/2022110116/5519cdb4550346443e8b4945/html5/thumbnails/7.jpg)
Chlorine Isotopes Revisited
3
1
2
0300 400 500 600°C
LdC
GPa
Serpentinite stages:Li et al. 2004, JMG
B
A
![Page 8: Chlorine isotope evidence for syn-subduction modification of serpentinites by interaction with sediment-derived fluid Jane Selverstone and Zachary Sharp.](https://reader038.fdocuments.in/reader038/viewer/2022110116/5519cdb4550346443e8b4945/html5/thumbnails/8.jpg)
Chlorine Isotopes Revisited
3
1
2
0300 400 500 600°C
LdC
GPa
Serpentinite stages:Li et al. 2004, JMG
B
C
A
![Page 9: Chlorine isotope evidence for syn-subduction modification of serpentinites by interaction with sediment-derived fluid Jane Selverstone and Zachary Sharp.](https://reader038.fdocuments.in/reader038/viewer/2022110116/5519cdb4550346443e8b4945/html5/thumbnails/9.jpg)
Chlorine Isotopes Revisited
3
1
2
0300 400 500 600°C
LdC
GPa
Serpentinite stages:Li et al. 2004, JMG
B
C
E
DA
1σ error in δ37Cl
![Page 10: Chlorine isotope evidence for syn-subduction modification of serpentinites by interaction with sediment-derived fluid Jane Selverstone and Zachary Sharp.](https://reader038.fdocuments.in/reader038/viewer/2022110116/5519cdb4550346443e8b4945/html5/thumbnails/10.jpg)
Single fluid? Multiple fluids?
Bulk Composition Constraints on Fluid History
High LOI = carbonate-bearing sed-derived?
sed-derived?
???
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Chlorine Isotopes Revisited
A B C D
![Page 12: Chlorine isotope evidence for syn-subduction modification of serpentinites by interaction with sediment-derived fluid Jane Selverstone and Zachary Sharp.](https://reader038.fdocuments.in/reader038/viewer/2022110116/5519cdb4550346443e8b4945/html5/thumbnails/12.jpg)
Chlorine Isotopes Revisited
A B C D
Ti-clh
oliv
FIs
Type C&D
![Page 13: Chlorine isotope evidence for syn-subduction modification of serpentinites by interaction with sediment-derived fluid Jane Selverstone and Zachary Sharp.](https://reader038.fdocuments.in/reader038/viewer/2022110116/5519cdb4550346443e8b4945/html5/thumbnails/13.jpg)
Chlorine Isotopes Revisited
Type C&D
A B C D
Calcmica schist with diamond-bearing Mn layers
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Chlorine Isotopes Revisited
A B C D
mixing between reservoirs
+
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3 1
Faccenda et al. 2009
1) Bending stresses induce mantle serpentinization via seawater
δ37Clserp ≥ 0‰
2) ± Local mantle serpentinization via sedimentary pore fluids
δ37Clserp ≤ 0‰
3) Uppermost sedimentary layer modified by extensive interaction with pore fluids from accretionary prism
δ37Clmetased << 0‰
A Physical Scenario Consistent with the Chemical Data
Seawater-dominatedSedimentary pore fluid
2
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A Physical Scenario Consistent with the Chemical Data
Faccenda et al. 2012
4) Unbending stresses create regime of slab-parallel fluid flow in serpentinites during subduction
δ37Clserp≅ constant
5) Onset of exhumation moves rocks into regime of cross-slab fluid flow: fluids from metasediments locally modify serpentinites
δ37Clserp<< 0‰
4
5
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Conclusions
3
1
2
0300 400 500 600°C
LdC
GPa
B
C
E
D
A
Serpentinites preserved seafloor δ37Cl values during subduction phase
Fluid-rock interaction during exhumation caused localized shifts to lower δ37Cl values
Fluids likely derived from nearby metasedimentary rocks in subduction channel
Switch from burial to exhumation expanded length scales of fluid-rock interaction and facilitated flow across lithologic boundaries
Cl allows us to see chemical interaction between downgoing slab and accretionary wedge fluids
δ37Cl ≥0‰
≤ -1‰
≤ -2‰
≈ 0‰