Timescales of storage and recycling of crystal mush at Krafla Volcano, Iceland
Processes in upper-crustal magma reservoirs such as recharge, magma mixing, recycling of previously crystallized material, and eruption affect both the physical state and the chemical composition of magmas. A growing body of evidence shows that crystals in intermediateor silicic volcanic rocks prese...
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eScholarship, University of California
2016
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| Online Access: | https://escholarship.org/uc/item/3pv2h3pk |
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ftcdlib:oai:escholarship.org/ark:/13030/qt3pv2h3pk 2023-05-15T16:47:46+02:00 Timescales of storage and recycling of crystal mush at Krafla Volcano, Iceland Cooper, KM Sims, KWW Eiler, JM Banerjee, N 54 2016-06-01 application/pdf https://escholarship.org/uc/item/3pv2h3pk unknown eScholarship, University of California qt3pv2h3pk https://escholarship.org/uc/item/3pv2h3pk public Contributions to Mineralogy and Petrology, vol 171, iss 6 Iceland Crystal mush Uranium-series disequilibria Oxygen isotopes Magmatic timescales Energy Geochemistry Geology Other Earth Sciences article 2016 ftcdlib 2021-06-20T14:23:13Z Processes in upper-crustal magma reservoirs such as recharge, magma mixing, recycling of previously crystallized material, and eruption affect both the physical state and the chemical composition of magmas. A growing body of evidence shows that crystals in intermediateor silicic volcanic rocks preserve records of these processes that may be obscured due to mixing in the liquid fraction of magmas. Fewer studies have focused on crystals in basaltic lavas, but these show evidence for a more subtle, but still rich record of magmatic processes. We present new 238U–230Th–226Ra data for plagioclase, combined with δ18O and trace-element measurements of the same crystal populations, from basalts erupted at Krafla Volcanic Center, Iceland. These data document the presence of multiple crystal populations within each sample, with chemical and oxygen isotope heterogeneity at a variety of scales: within individual crystals, between crystals in a given population, between crystal populations within the same sample, and between crystals in lavas erupted from different vents during the same eruption. Comparison to whole-rock or groundmass data shows that the majority of macroscopic crystals are not in trace-element or oxygen isotope equilibrium with their host liquids. The most likely explanation for these data is that the macroscopic crystals originated within a highly heterogeneous crystal mush in the shallow magma reservoir system. U-series and diffusion data indicate that the crystals (and therefore the mush) formed recently (likely within a few thousand years of eruption, and with a maximum age of 8–9ka), and that the crystals resided in their host magma prior to eruption for decades to a few centuries at most. These data, in conjunction with other recent studies, suggest a model where erupted Icelandic magmas are the result of diverse magmas entering the crust, followed by complex interactions between melts and previously crystallized material at all crustal levels. Article in Journal/Newspaper Iceland University of California: eScholarship Krafla ENVELOPE(-16.747,-16.747,65.713,65.713) |
| institution |
Open Polar |
| collection |
University of California: eScholarship |
| op_collection_id |
ftcdlib |
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unknown |
| topic |
Iceland Crystal mush Uranium-series disequilibria Oxygen isotopes Magmatic timescales Energy Geochemistry Geology Other Earth Sciences |
| spellingShingle |
Iceland Crystal mush Uranium-series disequilibria Oxygen isotopes Magmatic timescales Energy Geochemistry Geology Other Earth Sciences Cooper, KM Sims, KWW Eiler, JM Banerjee, N Timescales of storage and recycling of crystal mush at Krafla Volcano, Iceland |
| topic_facet |
Iceland Crystal mush Uranium-series disequilibria Oxygen isotopes Magmatic timescales Energy Geochemistry Geology Other Earth Sciences |
| description |
Processes in upper-crustal magma reservoirs such as recharge, magma mixing, recycling of previously crystallized material, and eruption affect both the physical state and the chemical composition of magmas. A growing body of evidence shows that crystals in intermediateor silicic volcanic rocks preserve records of these processes that may be obscured due to mixing in the liquid fraction of magmas. Fewer studies have focused on crystals in basaltic lavas, but these show evidence for a more subtle, but still rich record of magmatic processes. We present new 238U–230Th–226Ra data for plagioclase, combined with δ18O and trace-element measurements of the same crystal populations, from basalts erupted at Krafla Volcanic Center, Iceland. These data document the presence of multiple crystal populations within each sample, with chemical and oxygen isotope heterogeneity at a variety of scales: within individual crystals, between crystals in a given population, between crystal populations within the same sample, and between crystals in lavas erupted from different vents during the same eruption. Comparison to whole-rock or groundmass data shows that the majority of macroscopic crystals are not in trace-element or oxygen isotope equilibrium with their host liquids. The most likely explanation for these data is that the macroscopic crystals originated within a highly heterogeneous crystal mush in the shallow magma reservoir system. U-series and diffusion data indicate that the crystals (and therefore the mush) formed recently (likely within a few thousand years of eruption, and with a maximum age of 8–9ka), and that the crystals resided in their host magma prior to eruption for decades to a few centuries at most. These data, in conjunction with other recent studies, suggest a model where erupted Icelandic magmas are the result of diverse magmas entering the crust, followed by complex interactions between melts and previously crystallized material at all crustal levels. |
| format |
Article in Journal/Newspaper |
| author |
Cooper, KM Sims, KWW Eiler, JM Banerjee, N |
| author_facet |
Cooper, KM Sims, KWW Eiler, JM Banerjee, N |
| author_sort |
Cooper, KM |
| title |
Timescales of storage and recycling of crystal mush at Krafla Volcano, Iceland |
| title_short |
Timescales of storage and recycling of crystal mush at Krafla Volcano, Iceland |
| title_full |
Timescales of storage and recycling of crystal mush at Krafla Volcano, Iceland |
| title_fullStr |
Timescales of storage and recycling of crystal mush at Krafla Volcano, Iceland |
| title_full_unstemmed |
Timescales of storage and recycling of crystal mush at Krafla Volcano, Iceland |
| title_sort |
timescales of storage and recycling of crystal mush at krafla volcano, iceland |
| publisher |
eScholarship, University of California |
| publishDate |
2016 |
| url |
https://escholarship.org/uc/item/3pv2h3pk |
| op_coverage |
54 |
| long_lat |
ENVELOPE(-16.747,-16.747,65.713,65.713) |
| geographic |
Krafla |
| geographic_facet |
Krafla |
| genre |
Iceland |
| genre_facet |
Iceland |
| op_source |
Contributions to Mineralogy and Petrology, vol 171, iss 6 |
| op_relation |
qt3pv2h3pk https://escholarship.org/uc/item/3pv2h3pk |
| op_rights |
public |
| _version_ |
1766037870072561664 |