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'Rare earths' play a vital role in the modern economy, and they are becoming more of a point of focus in geopolitical realms. What are 'rare earths' and why do they appear to cluster in association with:

  • alkaline to peralkaline igneous complexes
  • pegmatites associated with alkaline magmas/carbonatite intrusives
  • perovskite mineral phases within akaline complexes
  • mantle derived carbonate melts
  • hydrothermal deposits associated with alkaline magmatism

Rare Earths

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"Rare earth" metals consist of Scandium, Yttrium, and 15 other metals of the so-called "Lanthanide" series toward the bottom of the Periodic Table of elements. Basically, these are the chemicals that we didn't study in chemistry class at school.

Like other metals, they have two electrons in the outer shell, but unlike "metallic" chemicals such as sodium or magnesium, they have a special "metal" shell for electrons. They are located at the "left" (relative to the carbon family) or akaline end of the Periodic Table, which is why they are found near alkaline magnatism, in alkaline "compounds."

This is in contrast to the more common chemicals, which are typically found as "oxides," or "sulfides," or possibly in combination with fluorine or chlorine. These common chemical compounds are on the right, or acid side of the periodic table.

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  • $\begingroup$ Are these elements rare in the universe, or just rare on earth? Do they only show up from volcanology? Why didn't we study them in chemistry class? $\endgroup$
    – DrewP84
    Apr 18, 2014 at 1:41
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    $\begingroup$ @DrewP84 They are rare in the universe. Elements don't form on Earth except in very rare circumstances and in very small quantities. This wikipedia picture illustrates nicely where the elements in the periodic table form. The rare Earths all form either in large stars or in supernovae. $\endgroup$ Apr 18, 2014 at 2:48
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    $\begingroup$ @DrewP84: We didn't study them in chemistry class (at least I didn't in the 1970s) because they were "rare," and their usefulness wasn't known until 10-20 years ago. Some of them aren't that rare, but they are highly "dispersed" in the earth's crust. The more "common" chemical are easier to find because they are more concentrated in oxides, or other "acid" compounds. $\endgroup$
    – Tom Au
    Apr 18, 2014 at 13:58
  • $\begingroup$ @ChrisMueller The "rare earths" are certainly rare relative to lighter elements like carbon, oxygen, etc., but aren't significantly less abundant (on a universal scale) than other elements of similar atomic number. (cf. this graph of solar-system-wide abundances) $\endgroup$
    – senshin
    May 16, 2014 at 1:18
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What are the rare earths?

The rare earths are a group of several elements. The widest definition includes the 15 lanthanides: La, Ce, Pr, Nd, Pm, Sm, Eu, Gd, Tb, Dy, Ho, Er, Tm, Yb and Lu, and two more elements: Sc and Y. A quick look at the periodic table gives a hint as to why Sc and Y are also considered as REE:

the rare earth elements (REE) (modified from this)

I've marked all the REE in red borders and larger font size. You can see that the lanthanide row is actually an expansion of a hypothetical "element" that would otherwise be in period 6 and group 3, just below Sc and Y.

Why are they grouped together? All the REE share very similar chemical properties, and change continuously from La to Lu, where Y sits somewhere between Dy and Ho (properties-wise). This results from their electron configuration, but that's for another question. Notice that Pm does not have any stable isotopes and is not a naturally occurring element, so actually there are only 14+2 rare earth elements.

Why are they called rare earths? One source (also this) claims that:

This name arises from the minerals from which they were isolated, which were uncommon oxide-type minerals. However, the use of the name is deprecated by IUPAC, as the elements are neither rare in abundance nor "earths" (an obsolete term for water-insoluble strongly basic oxides of electropositive metals incapable of being smelted into metal using late 18th century technology).

And another:

...rare earth elements are typically dispersed and not often found concentrated as rare earth minerals in economically exploitable ore deposits.3 It was the very scarcity of these minerals (previously called "earths") that led to the term "rare earth".

Although the IUPAC definition includes Sc and Y in the REE, in the professional literature they are commonly distinguished. This can be easily seen in a quick Google Scholar search:

REE in Google Scholar

From my own personal experience, Sc is rarely considered in the geological literature considering REE. Also see https://earthscience.stackexchange.com/a/2951/725 where in the figure you can see that Sc, at least in terms of ionic radius, is unlike the rest of the REE. Y is added to the REE, but not considered a part of them, causing the rise of the term "REY" (REE+Y).

Are the rare earth elements really rare?

Not really. Here's a diagram of element abundance in Earth's crust:

Elemental abundance in the crust (source)

(Note that according to this, Sc is not considered a REE. Conversely, the Wikipedia version of this diagram includes it.)

You can see that the REE are not that rare. The light rare earth elements are close to some transition elements in the crustal abundance, and even the the least abundance REE (Tm and Lu) are still more abundant than silver or mercury. Y and Sc are less abundant than their neighbours, but this can be attributed to the Oddo-Harkins rule and not to the fact they are are REE. So why are they still "rare"? They rarely form ore deposits of their own. While other, less abundant, metals readily concentrate and form easily exploitable economic deposits (gold nuggets, anyone?), the REE are usually dispersed within other minerals. When they do form minerals of their own (e.g. allanite, monazite, xenotime), they are usually not abundant enough to form a deposit.

Why are they associated with alkali rocks?

Alkali rocks (e.g. carbonatites, syneites, etc.) are indeed enriched in REE-bearing minerals (pyrochlore is one that comes into mind). The fine details of trace element (REE and others) enrichment of alkali rocks and the formation of alkali magmas are still debated. Still, the basic idea is now mostly well understood. Most alkali magmas form by very low degree of melting of relatively deep mantle rocks (deeper than those that produce basalts, for example). The low degree of melting causes element that are incompatible in mantle rocks to significantly concentrate in the liquid. That's why these liquids are alkali - Na and K are incompatible in the mantle, as well as REE.

You can read more about alkali magmas in chapter 9 of the excellent book "Igneous Rocks and Processes" by Robin Gill.

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In the early stages of crystallization, the ions that form high-temperature minerals are depleted from the melt. Rare ions that do not participate in the crystallization of common rock-forming minerals become concentrated in the melt and in the excluded water. These ions can form the rare minerals that are often found in pegmatites... rare elements concentrated in large crystals make pegmatite a potential source of valuable ore.

They are typically found in association with alkaline magmas, as these are highly differentiated as they slowly crystallise. The slow crystallisation of the magmas enriches the leftover melt in the rare earths as they don't tend to form minerals early in the crystallisation process. Think of it perhaps being like freeze distillation.

"Pegmatites are important because they often contain rare earth minerals..."

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  • $\begingroup$ "They are typically found in association with alkaline magmas, as these are highly differentiated as they slowly crystallise." - Not true. $\endgroup$
    – Gimelist
    Nov 8, 2014 at 10:37

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