Talk:Earth's mantle

This is the talk page for discussing improvements to the Earth's mantle article. This is not a forum for general discussion of the article's subject.

Put new text under old text. Click here to start a new topic. New to Wikipedia? Welcome! Learn to edit; get help. Assume good faith Be polite and avoid personal attacks Be welcoming to newcomers Seek dispute resolution if needed Article policies Neutral point of view No original research Verifiability

Find sources: Google (books · news · scholar · free images · WP refs) · FENS · JSTOR · TWL

	This article is rated B-class on Wikipedia's content assessment scale. It is of interest to the following WikiProjects:
Geology Top‑importance Geology portal Talk:Earth's mantle is part of WikiProject Geology, an attempt at creating a standardized, informative, comprehensive and easy-to-use geology resource. If you would like to participate, you can choose to edit this article, or visit the project page for more information. Top This article has been rated as Top-importance on the project's importance scale.

Chemical and mineral composition - contradiction?

Latest comment: 4 years ago2 comments2 people in discussion

I'm having some trouble understanding this article. One particular paragraph (which contains no citations) seems to be contradicted by information elsewhere in the article:

"The upper mantle is dominantly peridotite, composed primarily of variable proportions of the minerals olivine, clinopyroxene, orthopyroxene, and an aluminous phase. The aluminous phase is plagioclase in the uppermost mantle, then spinel, and then garnet below ~100 km. Gradually through the upper mantle, pyroxenes become less stable and transform into majoritic garnet."

According to the "olivine" and "pyroxene" articles, olivine has the formula (Mg, Fe)₂SiO₄, and pyroxene has the formula XY(Si,Al)₂O₆

Now, if you look at the table in the article's "Composition" section, the one headed "Composition of the Earth's upper mantle (depleted MORB)", you'll notice none of the compounds therein has a formula which includes either O₆ or O₄. The upper mantle, according to this table, is composed primarily of silicon dioxide and magnesium oxide.

Due to the high olivine content of mantle xenoliths, I would guess that the very uppermost parts of the upper mantle might indeed be mostly olivine and pyroxene, but that this is not true throughout the upper mantle. Am I correct? Either way, could somebody explain this apparent contradiction to me?

Thanks,

AstridRedfern (talk) 17:11, 9 February 2020 (UTC)Reply

Geologists often give the chemical composition of rocks as a list of oxides e.g. a typical sample of dunite is 40% SiO₂, 49% MgO etc. This does tend to give the (usually misleading) impression that dunite is made of two oxide minerals, quartz (SiO₂) and periclase (MgO). But this is not actually the case because dunite is actually made of at least 90% olivine. (This apparent contradiction also occurs with chemical analysis of minerals too, which by definition cannot be made of other minerals. Olivine can be typically 40% SiO₂ ("quartz"), 49% MgO ("periclase"), but actually olivine is not made of quartz and periclase, it is by definition made entirely of olivine). For rocks, geologists try to overcome this apparent contradiction by representing this oxide-based chemical analysis as an idealised mineral composition instead, calculated using a set of mathematical and geochemical rules that convert the amounts of relatively simple oxide forms of the chemical analysis (O, O₂, O₃, O₄, O₅) into amounts of oxygen forms that are more typically found in the main rock-forming silicate minerals (e.g. O₄, O₆, O₈, O₁₀, O₁₈, O₂₂). As long as this calculation has been done correctly, I suppose it is two ways of expressing the same data. There is a Wikipedia article about this process, normative mineralogy, which may address some of the points that you have raised. GeoWriter (talk) 19:21, 9 February 2020 (UTC)Reply

Partial melting of the mantle produces crust?!

Latest comment: 3 years ago1 comment1 person in discussion

Hello, I have limited knowledge of Geology but I believe that this affirmation is either wrong or misleading: "Partial melting of the mantle at mid-ocean ridges produces oceanic crust, and partial melting of the mantle at subduction zones produces continental crust.[2]" The sentence implies that the melting (i.e. solid to liquid) produces a crust (solid) which may lead to misunderstanding. I suggest something in this line: "Solidification of igneous magma at mid-ocean ridges produces oceanic crust..."

Also, I've checked reference [2] and found no explanation to the sentence presented here.

Best regards, Coel Jo (talk) 01:49, 24 September 2020 (UTC)Reply

Temperature vs geothermal gradient

Latest comment: 1 year ago2 comments2 people in discussion

The section headed "Temperature and pressure" used to include the sentence:

"The geothermal gradient of the mantle increases rapidly in the thermal boundary layers at the top and bottom of the mantle, and increases gradually through the interior of the mantle."

It seems very odd to be talking of the 2nd derivative of temperature ("the temperature gradient...increases rapidly") rather than temperature itself. It also contradicts the article on the geothermal gradient, which states that the geothermal gradient decreases with depth. Therefore I have assumed that this sentence is misworded and replaced "geothermal gradient" with "temperature".

Alternatively one might write "The geothermal gradient of the mantle is high in the thermal boundary layers at the top and bottom of the mantle, and low through the interior of the mantle.". However, I think it is clearer to talk of temperature directly.

If it really is the temperature gradient (as opposed to the temperature) that increases with depth, please revert, but have a little think first.

Macboff (talk) 08:12, 14 September 2022 (UTC)Reply

Agree with your changes. Temperature gradient decreases with depth; temperature itself increases. --Kent G. Budge (talk) 19:07, 14 September 2022 (UTC)Reply