2007
DOI: 10.1016/j.chemgeo.2007.01.014
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Ambient and excess mantle temperatures, olivine thermometry, and active vs. passive upwelling

Abstract: Mantle temperatures provide a key test of the mantle plume hypothesis, and olivine-liquid equilibria provide perhaps the most certain means of estimating mantle temperatures. Here, we review mantle temperature estimates and olivine thermometers, and calculate a new convective geotherm for the upper mantle. The convective geotherm is determined from estimates of sub-midocean ridge (MOR) mantle potential temperatures (T p is the T the mantle would have if it rose adiabatically without melting, and provides a ref… Show more

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Cited by 393 publications
(347 citation statements)
references
References 179 publications
(284 reference statements)
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“…This assumption is consistent with the fact the those olivine-liquid geothermometers resulted the lowest temperatures that are known to best reproduce experimental results for hydrous magmas (i.e. method of Langmuir et al, 1992 andPutirka et al, 2007).…”
Section: Temperature and Oxygen Fugacitysupporting
confidence: 70%
See 1 more Smart Citation
“…This assumption is consistent with the fact the those olivine-liquid geothermometers resulted the lowest temperatures that are known to best reproduce experimental results for hydrous magmas (i.e. method of Langmuir et al, 1992 andPutirka et al, 2007).…”
Section: Temperature and Oxygen Fugacitysupporting
confidence: 70%
“…For this purpose, we used bulk melt inclusion compositions that were already corrected for the post-entrapment crystallization of the host mineral on the walls of the inclusions. The resulting temperatures for high-Fo core-melt inclusion pairs from sample SG12 range between 1146 and 1266°C with the lowest temperatures obtained with the Langmuir et al (1992) and Putirka et al (2007) thermometers, and the highest temperatures obtained with those of Putirka (1997) and Beattie (1993), respectively. A pressure of 0.5 and 0.7 GPa is assumed for these calculations (see below), but all methods are fairly insensitive, giving an offset of~5°C/ 0.1 GPa.…”
Section: Temperature and Oxygen Fugacitymentioning
confidence: 99%
“…Poor constraints on the water content of mantle minerals add further uncertainties. In a similar fashion, current knowledge of the mantle average potential temperature is good to at best ±50 K [e.g., Katsura et al, 2004;Putirka et al, 2007;Lee et al, 2009]. Thus, the goal of predicting the true mantle viscosity from first principles is still far removed.…”
Section: Introductionmentioning
confidence: 87%
“…According to this model, almost all the inclusions Table 6 Intrinsic variables calculated using a range of models (Andersen and Lindsley 1988;Beattie 1993;Ghiorso and Evans 2008;Harrison and Watson 1984;Papale et al 2006;Putirka 2005;Putirka et al 2003Putirka et al , 2007Sisson and Grove 1993;Spencer and Lindsley 1981) Oxide formulae recalculated according to Stormer (1983). Ilmenite-magnetite was calculated for a single touching pair.…”
Section: Evidence From Melt Inclusion Compositionsmentioning
confidence: 99%
“…References T (°C) P (kbar) fO 2 Apatite Harrison and Watson (1984) 980-1020 Olivine-melt (incl) Beattie (1993) 1066-1120 Putirka et al (2007) 1037-1084 Sisson and Grove (1993) 992-1051 Olivine-melt (matrix) Beattie (1993) 1120-1146Putirka et al (2007 1091-1126 Sisson and Grove (1993) 1029-1059 Plagioclase-melt (inclusions)…”
Section: Mineralmentioning
confidence: 99%