TY - JOUR
T1 - 238U- 230Th- 226Ra disequilibria constraints on the magmatic evolution of the Cumbre Vieja volcanics on La Palma, Canary Islands
AU - Turner, S.
AU - Hoernle, K.
AU - Hauff, F.
AU - Johansen, T.S.
AU - Klügel, A.
AU - Kokfelt, T.
AU - Lundstrom, C.
N1 - Publisher Copyright:
© The Author 2015.
PY - 2015/10
Y1 - 2015/10
N2 - A suite of 48 samples, including both historical and prehistoric lavas
and some plutonic rocks, have been analysed from the Cumbre Vieja rift,
La Palma, Canary Islands. Additionally, mineral–melt partition
coefficients have been measured for clinopyroxene, plagioclase,
amphibole, titanite and apatite in selected rocks. The lavas range from
basanite to phonolite (SiO 2 = 41·2–57·5 wt % and
MgO = 10–0·8 wt %) in composition and form coherent, curvilinear major
and trace element arrays in variation diagrams, irrespective of eruption
age. The mafic lavas have typical ocean island incompatible trace
element patterns and Sr, Nd and Pb isotope compositions show little
variation but have a HIMU-type character. Generation of the parental
magmas is inferred to have involved ∼4% dynamic melting of a garnet
lherzolite source that may have previously been metasomatized by melts
derived from a recycled mafic component containing residual phlogopite.
The major process of differentiation to phonotephrite involved
fractional crystallization of basanitic magmas that evolved along the
same liquid line of descent under similar pressure–temperature
conditions. Numerical simulations using the MELTS algorithm suggest that
this occurred across a temperature interval from c. 1320 to 950°C at 400 MPa and an oxygen fugacity equivalent to quartz–fayalite–magnetite (QFM), with an initial H 2
O content of 0·3 wt %. The later stages of differentiation (<5 wt %
MgO) were dominated by mixing with partial melts of young syenites
formed from earlier magma batches. All of the lavas are characterized by
230 Th and 226 Ra excesses and ( 230 Th/ 238 U) decreases with decreasing Nb/U and increasing SiO 2 , with no accompanying change in ( 226 Ra/ 230
Th). To explain the observations, we propose a model in which there was
a significant role for amphibole, and more importantly accessory
titanite, in decre'asing Nb/U, Ce/Pb and Th/U ratios and increasing or
buffering ( 226 Ra/ 230 Th) ratios during the
later stages of differentiation and magma mixing. These processes all
occurred over a few millennia in small magma batches that were
repeatedly emplaced within the mid-crust of the Cumbre Vieja rift system
prior to rapid transport to the surface.
AB - A suite of 48 samples, including both historical and prehistoric lavas
and some plutonic rocks, have been analysed from the Cumbre Vieja rift,
La Palma, Canary Islands. Additionally, mineral–melt partition
coefficients have been measured for clinopyroxene, plagioclase,
amphibole, titanite and apatite in selected rocks. The lavas range from
basanite to phonolite (SiO 2 = 41·2–57·5 wt % and
MgO = 10–0·8 wt %) in composition and form coherent, curvilinear major
and trace element arrays in variation diagrams, irrespective of eruption
age. The mafic lavas have typical ocean island incompatible trace
element patterns and Sr, Nd and Pb isotope compositions show little
variation but have a HIMU-type character. Generation of the parental
magmas is inferred to have involved ∼4% dynamic melting of a garnet
lherzolite source that may have previously been metasomatized by melts
derived from a recycled mafic component containing residual phlogopite.
The major process of differentiation to phonotephrite involved
fractional crystallization of basanitic magmas that evolved along the
same liquid line of descent under similar pressure–temperature
conditions. Numerical simulations using the MELTS algorithm suggest that
this occurred across a temperature interval from c. 1320 to 950°C at 400 MPa and an oxygen fugacity equivalent to quartz–fayalite–magnetite (QFM), with an initial H 2
O content of 0·3 wt %. The later stages of differentiation (<5 wt %
MgO) were dominated by mixing with partial melts of young syenites
formed from earlier magma batches. All of the lavas are characterized by
230 Th and 226 Ra excesses and ( 230 Th/ 238 U) decreases with decreasing Nb/U and increasing SiO 2 , with no accompanying change in ( 226 Ra/ 230
Th). To explain the observations, we propose a model in which there was
a significant role for amphibole, and more importantly accessory
titanite, in decre'asing Nb/U, Ce/Pb and Th/U ratios and increasing or
buffering ( 226 Ra/ 230 Th) ratios during the
later stages of differentiation and magma mixing. These processes all
occurred over a few millennia in small magma batches that were
repeatedly emplaced within the mid-crust of the Cumbre Vieja rift system
prior to rapid transport to the surface.
KW - La Palma
KW - magmatic timescales
KW - ocean island basalt evolution
KW - titanite fractionation
UR - http://www.scopus.com/inward/record.url?scp=84952887043&partnerID=8YFLogxK
U2 - 10.1093/petrology/egv061
DO - 10.1093/petrology/egv061
M3 - Article
SN - 0022-3530
VL - 56
SP - 1999
EP - 2024
JO - Journal of Petrology
JF - Journal of Petrology
IS - 10
ER -