238U-230Th-226Ra-210Pb constraints on the genesis of high-Mg andesites at White Island, New Zealand

Zarah Heyworth, Simon Turner, Bruce Schaefer, Bernard Wood, Rhiannon George, Kim Berlo, Heather Cunningham, Richard Price, Craig Cook, John Gamble

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Abstract

On White Island, New Zealand, the intensified period of strombolian-volcanian and phreatomagmatic explosive activity that commenced in March 1977 led to eruption of unusually primitive, high-Mg andesites. These are Fo80-93 olivine-saturated rocks that have MgO contents up to 10% (Mg# = 65-71) and SiO2 of 56-58%. They have incompatible trace element characteristics that are typical of arc rocks. 87Sr/86Sr, 143Nd/144Nd and 176Hf/177Hf ratios (0.7049-0.7053, 0.51282-0.51266 and 0.28301-0.28298, respectively) are consistent with subducted sediment addition and/or crustal input but there is no clear correlation of either isotope ratio with MgO. The rocks have modest (3-10%) 238U excesses at low (230Th/232Th) ratios (0.697 to 0.722). 226Ra-230Th disequilibria are also restricted but, unusually, include both 226Ra excesses and deficits with (226Ra/230Th) = 0.94-1.07. (210Pb/226Ra)o ranges from 0.98 to 1.52 requiring gas accumulation that may increase over time and with decreasing MgO. Sr/Y and Tb/Yb ratios are both low and relatively invariant at 8 and 0.3, respectively, and along with the 238U excesses preclude an origin in which residual garnet was involved. The occurrence of some 226Ra deficits suggests the presence of residual amphibole during partial melting for some samples. Rapid magma ascent (to preserve the 226Ra disequilibria) limits the amount of possible melt-wall rock interaction that might reduce source-derived Tb/Yb ratios and in the mantle or raise 87Sr/86Sr in the crust. The White Island high-Mg andesites did not form by partial melting of eclogite in the subducting Pacific plate. Their primitive, olivine-saturated compositions suggest that their source was peridotitic and experimental data suggest that equilibration with peridotite at low temperatures at 0.5-1.5 GPa and in the presence of elevated alkalis can reconcile the high SiO2 and MgO of the rocks. This may reflect stalling of the magmas beneath the continental lithosphere for a few 1000 years.

LanguageEnglish
Pages105-121
Number of pages17
JournalChemical Geology
Volume243
Issue number1-2
DOIs
Publication statusPublished - 30 Aug 2007

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andesite
Rocks
disequilibrium
rock
partial melting
olivine
Melting
Amphibole Asbestos
Wall rock
continental lithosphere
Garnets
Trace Elements
Alkalies
Pacific plate
wall rock
eclogite
peridotite
Isotopes
amphibole
explosive

Cite this

Heyworth, Zarah ; Turner, Simon ; Schaefer, Bruce ; Wood, Bernard ; George, Rhiannon ; Berlo, Kim ; Cunningham, Heather ; Price, Richard ; Cook, Craig ; Gamble, John. / 238U-230Th-226Ra-210Pb constraints on the genesis of high-Mg andesites at White Island, New Zealand. In: Chemical Geology. 2007 ; Vol. 243, No. 1-2. pp. 105-121.
@article{59e9605521d04ff3897f0fba5d1493b3,
title = "238U-230Th-226Ra-210Pb constraints on the genesis of high-Mg andesites at White Island, New Zealand",
abstract = "On White Island, New Zealand, the intensified period of strombolian-volcanian and phreatomagmatic explosive activity that commenced in March 1977 led to eruption of unusually primitive, high-Mg andesites. These are Fo80-93 olivine-saturated rocks that have MgO contents up to 10{\%} (Mg# = 65-71) and SiO2 of 56-58{\%}. They have incompatible trace element characteristics that are typical of arc rocks. 87Sr/86Sr, 143Nd/144Nd and 176Hf/177Hf ratios (0.7049-0.7053, 0.51282-0.51266 and 0.28301-0.28298, respectively) are consistent with subducted sediment addition and/or crustal input but there is no clear correlation of either isotope ratio with MgO. The rocks have modest (3-10{\%}) 238U excesses at low (230Th/232Th) ratios (0.697 to 0.722). 226Ra-230Th disequilibria are also restricted but, unusually, include both 226Ra excesses and deficits with (226Ra/230Th) = 0.94-1.07. (210Pb/226Ra)o ranges from 0.98 to 1.52 requiring gas accumulation that may increase over time and with decreasing MgO. Sr/Y and Tb/Yb ratios are both low and relatively invariant at 8 and 0.3, respectively, and along with the 238U excesses preclude an origin in which residual garnet was involved. The occurrence of some 226Ra deficits suggests the presence of residual amphibole during partial melting for some samples. Rapid magma ascent (to preserve the 226Ra disequilibria) limits the amount of possible melt-wall rock interaction that might reduce source-derived Tb/Yb ratios and in the mantle or raise 87Sr/86Sr in the crust. The White Island high-Mg andesites did not form by partial melting of eclogite in the subducting Pacific plate. Their primitive, olivine-saturated compositions suggest that their source was peridotitic and experimental data suggest that equilibration with peridotite at low temperatures at 0.5-1.5 GPa and in the presence of elevated alkalis can reconcile the high SiO2 and MgO of the rocks. This may reflect stalling of the magmas beneath the continental lithosphere for a few 1000 years.",
author = "Zarah Heyworth and Simon Turner and Bruce Schaefer and Bernard Wood and Rhiannon George and Kim Berlo and Heather Cunningham and Richard Price and Craig Cook and John Gamble",
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Heyworth, Z, Turner, S, Schaefer, B, Wood, B, George, R, Berlo, K, Cunningham, H, Price, R, Cook, C & Gamble, J 2007, '238U-230Th-226Ra-210Pb constraints on the genesis of high-Mg andesites at White Island, New Zealand', Chemical Geology, vol. 243, no. 1-2, pp. 105-121. https://doi.org/10.1016/j.chemgeo.2007.05.012

238U-230Th-226Ra-210Pb constraints on the genesis of high-Mg andesites at White Island, New Zealand. / Heyworth, Zarah; Turner, Simon; Schaefer, Bruce; Wood, Bernard; George, Rhiannon; Berlo, Kim; Cunningham, Heather; Price, Richard; Cook, Craig; Gamble, John.

In: Chemical Geology, Vol. 243, No. 1-2, 30.08.2007, p. 105-121.

Research output: Contribution to journalArticleResearchpeer-review

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T1 - 238U-230Th-226Ra-210Pb constraints on the genesis of high-Mg andesites at White Island, New Zealand

AU - Heyworth, Zarah

AU - Turner, Simon

AU - Schaefer, Bruce

AU - Wood, Bernard

AU - George, Rhiannon

AU - Berlo, Kim

AU - Cunningham, Heather

AU - Price, Richard

AU - Cook, Craig

AU - Gamble, John

PY - 2007/8/30

Y1 - 2007/8/30

N2 - On White Island, New Zealand, the intensified period of strombolian-volcanian and phreatomagmatic explosive activity that commenced in March 1977 led to eruption of unusually primitive, high-Mg andesites. These are Fo80-93 olivine-saturated rocks that have MgO contents up to 10% (Mg# = 65-71) and SiO2 of 56-58%. They have incompatible trace element characteristics that are typical of arc rocks. 87Sr/86Sr, 143Nd/144Nd and 176Hf/177Hf ratios (0.7049-0.7053, 0.51282-0.51266 and 0.28301-0.28298, respectively) are consistent with subducted sediment addition and/or crustal input but there is no clear correlation of either isotope ratio with MgO. The rocks have modest (3-10%) 238U excesses at low (230Th/232Th) ratios (0.697 to 0.722). 226Ra-230Th disequilibria are also restricted but, unusually, include both 226Ra excesses and deficits with (226Ra/230Th) = 0.94-1.07. (210Pb/226Ra)o ranges from 0.98 to 1.52 requiring gas accumulation that may increase over time and with decreasing MgO. Sr/Y and Tb/Yb ratios are both low and relatively invariant at 8 and 0.3, respectively, and along with the 238U excesses preclude an origin in which residual garnet was involved. The occurrence of some 226Ra deficits suggests the presence of residual amphibole during partial melting for some samples. Rapid magma ascent (to preserve the 226Ra disequilibria) limits the amount of possible melt-wall rock interaction that might reduce source-derived Tb/Yb ratios and in the mantle or raise 87Sr/86Sr in the crust. The White Island high-Mg andesites did not form by partial melting of eclogite in the subducting Pacific plate. Their primitive, olivine-saturated compositions suggest that their source was peridotitic and experimental data suggest that equilibration with peridotite at low temperatures at 0.5-1.5 GPa and in the presence of elevated alkalis can reconcile the high SiO2 and MgO of the rocks. This may reflect stalling of the magmas beneath the continental lithosphere for a few 1000 years.

AB - On White Island, New Zealand, the intensified period of strombolian-volcanian and phreatomagmatic explosive activity that commenced in March 1977 led to eruption of unusually primitive, high-Mg andesites. These are Fo80-93 olivine-saturated rocks that have MgO contents up to 10% (Mg# = 65-71) and SiO2 of 56-58%. They have incompatible trace element characteristics that are typical of arc rocks. 87Sr/86Sr, 143Nd/144Nd and 176Hf/177Hf ratios (0.7049-0.7053, 0.51282-0.51266 and 0.28301-0.28298, respectively) are consistent with subducted sediment addition and/or crustal input but there is no clear correlation of either isotope ratio with MgO. The rocks have modest (3-10%) 238U excesses at low (230Th/232Th) ratios (0.697 to 0.722). 226Ra-230Th disequilibria are also restricted but, unusually, include both 226Ra excesses and deficits with (226Ra/230Th) = 0.94-1.07. (210Pb/226Ra)o ranges from 0.98 to 1.52 requiring gas accumulation that may increase over time and with decreasing MgO. Sr/Y and Tb/Yb ratios are both low and relatively invariant at 8 and 0.3, respectively, and along with the 238U excesses preclude an origin in which residual garnet was involved. The occurrence of some 226Ra deficits suggests the presence of residual amphibole during partial melting for some samples. Rapid magma ascent (to preserve the 226Ra disequilibria) limits the amount of possible melt-wall rock interaction that might reduce source-derived Tb/Yb ratios and in the mantle or raise 87Sr/86Sr in the crust. The White Island high-Mg andesites did not form by partial melting of eclogite in the subducting Pacific plate. Their primitive, olivine-saturated compositions suggest that their source was peridotitic and experimental data suggest that equilibration with peridotite at low temperatures at 0.5-1.5 GPa and in the presence of elevated alkalis can reconcile the high SiO2 and MgO of the rocks. This may reflect stalling of the magmas beneath the continental lithosphere for a few 1000 years.

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