Thecerium anomaly, ingeochemistry, is the phenomenon wherebycerium (Ce) concentration is either depleted or enriched in a rock relative to the otherrare-earth elements (REEs).[1] A Ce anomaly is said to be "negative" if Ce is depleted relative to the other REEs and is said to be "positive" if Ce is enriched relative to the other REEs.[1]
Cerium is arare-earth element (lanthanide) characterized by two differentredox states: III and IV. Contrary to other lanthanide elements, which are onlytrivalent (with the notable exception ofEu2+), Ce3+ can be oxidized by atmospheric oxygen (O2) to Ce4+ underalkaline conditions.[2]
The cerium anomaly relates to the decrease insolubility, which accompanies the oxidation of Ce(III) to Ce(IV). Under reducing conditions, Ce3+ is relatively soluble, while under oxidizing conditions CeO2 precipitates.[1] Sediments deposited underoxic or anoxic conditions can preserve on the long term the geochemical signature of Ce3+ or Ce4+ upon reserve that no earlydiagenetic transformation altered it.[1]
Zircon (ZrSiO4) is commonly found infelsic igneous rock.[3] Because both Ce3+ and Ce4+ can substitute forzirconium, Zircon often has a positive Ce anomaly.[3] Ce4+ substitutes with Zr much more easily than Ce3+ because Ce4+ (ionic radius 0.97Å) has the same charge and a similar ionic radius as Zr4+ (ionic radius 0.84Å).[1] Therefore, the oxidation state of the magma is what determines the Ce anomaly in Zircon.[3] If the oxygenfugacity is high, more Ce3+ will oxidize to Ce4+ and create a larger positive Ce anomaly in the zircon structure. At lower levels of oxygen fugacity, the level of Ce anomaly will also be lower.[3]
Cerium in coal is typically weakly negative, meaning that it is present at slightly lower concentrations than the otherrare-earth elements.[2] Cerium anomalies in coal are influenced by the sediment source region.[2] Coal mined frommafic regions dominated bybasalts, such as the location of the Xinde Mine in China, does not have a Ce-anomaly.[2] In contrast, coal mined in felsic rock regions, such as Guxu Coalfield in China, does have weakly negative Ce-anomalies.[2] Negative Ce-anomalies can also be attributed to the weathering and oxidation of the coal-mining region.[2] During oxidation, Ce3+ precipitates out as CeO2, leaving less Ce in the coal.[1]
While cerium anomalies in coal are usually negative, they can rarely be positive as well.[4] This can occur during volcanic eruptions when volcanic ash is weathered into mafictuffs with positive Ce-anomalies.[1] The Pavlovka deposit in Far East Russia has large positive Ce-anomalies in its Fe-Mn oxyhydroxide ores.[4] Because cerium is one of only two REEs that can obtain an oxidation number of +4, Ce4+ is absorbed into Mn(IV) oxides instead of other REEs and this results in a positive Ce-anomaly.[4]