The Rare Earth Elements (REE) are unusual in that all 15 have the same outer electron configuration, therefore they tend to have similar chemical behaviour. Twenty years ago there were great hopes that the REE would show constant ratios no matter what processes they had been subject to, but this proved to be a false hope, in fact they differ as much as do the other residual elements.
The Lanthanides used are (in plot order):
La, Ce, Pr, Nd, Pm, Sm, Eu, Gd, Tb, Dy, Ho, Er, Tm, Yb, Lu
The range of REE in common rocks of oceanic mantle origin is quite wide. Here are some average values for La. Ce can be taken as being approx double in most rocks though the ratio varies from about 2.3 to 1.8. Promethium is not found as it is unstable. Ce is usually 10-20 times as abundant as the heaviest rare earth - Lu, and the whole series show a curious alternating high-low level distribution. Below, see the actual values from East Pacific Rise. For this reason, REE diagrams are always normalised, traditionally to the carbonaceous chondrites. I often use the average enriched E-type MORB as it is something more positively known and of not such depleted composition. It is also close to the average oceanic crust.
TYPICAL Ce CONTENTS OF OCEANIC CRUST,(ppm):
As shown above, in rocks derived from the sub-Oceanic mantle there is a wide range range of REE levels in common rocks, ranging from. eg, N-type MORBS from the SW Indian Ocean Rise, to Puu Oo (Kilauea, Hawaii), to the hawaiites of Mauna Kea where the light REE are present at about 10 times E-type. In lavas from the oceanic lithosphere therefore we have a range of a factor of 50 in the light REE while the heavy REE stay almost unchanged. We could extend this range further by looking for very alkaline basanites, and could add the effects of fractionation by including phonolites when we can get 100 - 300 times N-Type MORB levels.
The more highly fractionated Krafla rocks overlap with the mugearites from the Vestmaneyjar Is, but these have no Eu anomaly.
If we compare these with the alkaline rocks of the Vesteris Seamount off E. Greenland, we see the slope is different, ie the Vesteris rocks are more light REE enriched.
The slope can be expressed by the La/Sm ratio or by La/Lu or by Ce/Yb which being present in greater amount means better accuracy. In general a fractionated series of samples will plot on a straight line passing through the origin. A group ranging from, say, tholeiite to transitional to alkaline to basanitic, will plot as a wide spread of differend trends with La/Lu ranging from 7-8 in tholeiites to as high as 1-200 in the most alkaline rocks.
REE OF THE CONTINENTAL CRUST
Continental rocks do not show any distinctive differences in their REE patterns when compared to rocks of the Oceanic crust and alkali basalts from both environments are also similar. In all environments, more alkaline rocks are always light REE enriched. Ce contents for a series of island and continental arcs are shown below in ppm:
The Vesuvius potassic andesites have a La/Lu slope of not more than 10 compared to 7 for basanites from Vesteris. Primitive andesite series, ie island arcs, may have a La/Lu of 0.2 - 0.3 very like N-type MORBS
The most highly evolved of the Roman province rocks eg, the Campanian Ignimbrites, not only have La present at 25 times E-type levels but also show a marked Eu anomaly.
REE behaviour in sediments is mainly similar to that for andesitic rocks, but in minerals it may be extreme. Thus apatite may have a total REE content of > 5400 ppm but as apatite is present in small amount in most rocks it has only a slight effect. However, the mineral monazite in granites has been found to have up 500,000 ppm total (Haskin, et al, 1966). This explains why sandstones may have as high or higher REE content compared to shales, as monazite is a detrital mineral.
High concentrations appear in manganese nodules which may have more than 99,000 ppm total REE. Phosphorites in marine sediments might be expected to take up REE as apatite is formed but total REE seldom exceeds 1000 ppm. Coexisting Cpx-Garnet as in eclogites show a marked preponderance of heavy REE in Gt but vey low levels are found in CPX. However in Cpx found in basaltic rocks together with plagioclase, it is the CPX which has high heavy REE.
Copyright © 1998-2003 Dr B.M.Gunn