In saturated soils, oxygen is quickly depleted and microbes must utilize the next most favorable electron acceptor, in this case sulfate (SO42-). Under these conditions, Mn (and Fe) are oxidized to Mn2+ (and Fe2+). Select the correct oxidation and reduction pair for Mn.

Question

In saturated soils, oxygen is quickly depleted and microbes must utilize the next most favorable electron acceptor, in this case sulfate (SO42-).  Under these conditions, Mn (and Fe) are oxidized to Mn2+ (and Fe2+).  Select the correct oxidation and reduction pair for Mn.

A.  
Oxidation     Mn -->  Mn2+  +  2e-

Reduction    SO4  +  2e-  -->  SO42-
	
B. 
Oxidation     Mn2+  +  2e- -->  M

Reduction    SO4  +  2e-  -->  SO42-
	
C.
Oxidation     Mn2+ -->  Mn  +  2e-

Reduction    SO42+  +  2e-  -->  SO42-
	
D.
Oxidation     SO42+  +  2e-  -->  SO4

Reduction     Mn2+ -->  Mn  +  2e-

I would like to know how to derive at an answer and  not just know the answer please...thanks.  :)

DrBob222 · Answer

No big problem. Just remember the definitions.
Oxidation is the loss of electrons.
Reduction is the gain of electrons.

In the problem Mn goes to Mn^2+, so
Mn ==> Mn^2+ + 2e is the loss of electrons and is oxidation. A is the only answer that fits for Mn.

I don't see the corresponding reduction for SO4^2- because none of them start with SO4^2-. As far as I know there is no "SO4" without the 2- charge.

Since A is the only answer with the oxidation part of Mn correct then I assume A must fit the key; however, there is no correct answer given in my opinion.
It should be something like
SO4^2- + 2e + 2H^+ --> SO3^2- + H2O