Title: WP4 Fossil Magmatic systems
1WP4 Fossil Magmatic systems
- D. Gagnevin and J.S. Daly
Department of Geology, University College Dublin,
Belfield, Dublin 4, Ireland ERUPT partner 7
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3WP4 Fossil Magmatic systems
Monte Capanne monzogranite, Elba (7Ma) Crust,
mantle, wall-rock xenoliths Monitor magma
components using intra-grain variations in
chemistry, Sr, Pb, Nd and Hf isotopes
in K-feldspar, plagioclase, apatite, zircon,
biotite Petrography (SEM), electron microprobe,
LA-ICPMS, ion microprobe, Rb-Sr micro-drill
core IDTIMS, Pb LA-MC-ICPMS
4Fossil magmatic systems in the Tuscan Magmatic
Province
57 Ma Monte Capanne monzogranite
6Spectacular field evidence for coeval magmas and
magma mixing
7Main facies monzogranite, MME, hybrids, very rare
gabbroic enclaves
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10whole-rock isotopic data
11How many components? Crustal melt, mantle melt,
wall-rock xenoliths
12 and mixtures of these, each potentially
modified by crystallization
13Can we use K-feldspar megacrysts to monitor
magmatic evolution ?
14- Many K-feldspar
- megacrysts display
- resorption surfaces
- gt10 volume loss
15Core
Resorption zone
16Ba increases rimward of resorption surfaces
17Sometimes the resorption surfaces appear to be
correlated
distance to core (mm)
18 so far we see this only at one locality
distance to core (mm)
19Some K-feldspar megacrysts display multiple
resorption surfaces
20 but so far we have data mainly from samples
with single resorption surfaces
21In situ major and trace elements, Sr isotopes
on micro-drill cores by IDTIMS
22 and in situ Pb isotopes.
23 must take care to avoid inclusions, fractures
and alteration
24Ion microprobe analyses
25Diffusive equilibration is limited to c. 200
mm coreward of the resorption zone.
26Sr isotopic data on drilled microsamples
27Not diffusion!
Distance from rim (mm)
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29Initial Sr isotopic ratios across K-feldspar
megacrysts
30208Pb/206Pb
LA-ICP-MCMS Pb isotope profiles, K-feldspar
megacrysts
31208Pb/206Pb
accuracy checked by double-spike TIMS analysis of
micro-drill cores
32Intracrystalline diffusion cannot explain the Pb
isotopic zoning
33 instead the progressive increase in
208Pb/206Pb from core to rim reflects gradual
change in the magma composition due to input of
a mantle-derived component
34Conclusions
- Growth interruptions, chemical, Sr Pb isotopic
variations across K-feldspar megacrysts
? zoning effects are real, not diffusion
? powerful tool to understand petrogenesis
of complex plutonic magmatic
systems
? possibility of identifying the end-members
involved in magma mixing
? extent of fractionation and interaction with
crustal melts
? late contribution from a mantle magma
35WP4 Fossil Magmatic systems
UCD partner 7. Publications Gagnevin, D.,
Daly, J.S. and Poli, G. 2004a. Petrographic,
geochemical and isotopic constraints on magma
dynamics and mixing in the Monte Capanne
monzogranite (Elba Island, Italy). Lithos. (in
press). Gagnevin, D., Daly, J.S., Waight, T.E.,
Morgan, D. and Poli, G. 2004b. Pb isotopic
zoning of K-feldspar megacrysts determined by
laser ablation multiple-collector ICP-MS
insights into granite petrogenesis. Geochimica
et Cosmochimica Acta (in revision). Gagnevin,
D., Daly, J.S. and Poli, G. 2004c.
Microchemical and Sr isotopic investigation of
zoned K-feldspar megacrysts insights into the
petrogenesis of a young plutonic system. Journal
of Petrology (in review). Gagnevin, D., Daly,
J.S. and Poli, G. 2005. Petrogenetic
implications of resorption surfaces in K-feldspar
megacrysts from the Monte Capanne pluton (Elba
Island, Italy). Mineralogical Magazine. (in
preparation)