Does local cohomology commutes with direct sums?

Question

Let $A$ be a commutative noetherian ring, $Isubseteq A$ an ideal, $M_alpha$ be $A$-modules, $forallalphain J$. It is easily seen that the $I$-torsion commutes with direct sums:
$$Gamma_I(bigoplus_{alphain J}M_alpha)=bigoplus_{alphain J}Gamma_I(M_alpha).$$
This is because, those elements in the direct sum annihilated by a power of $I$ also have each of its components annihilated by the same power of $I$, and conversely we can annihilate the direct sum of these components by a large enough power of $I$, too.
Since the local cohomology $H_I^n$ is defined as the right derived functors of $Gamma_I$, I am wondering whether we can similarly show
$$H_I^n(bigoplus_{alphain J}M_alpha)cong bigoplus_{alphain J}H_I^n(M_alpha).$$
I have seen some proofs of a more general result about local cohomology commuting with direct limits, but I am looking for a straight-forward proof here.
Thank you very much for your help!

Dylan C. Beck · Answer

Convince yourself first that $H_I^n(M) = varinjlim_k operatorname{Ext}_R^n(R / I^k, M);$ then, use the fact that Ext commutes with finite direct sums in the second component, i.e., $$operatorname{Ext}_R^n(R / I^k, oplus_{i = 1}^m M_i) cong oplus_{i = 1}^m operatorname{Ext}_R^n(R / I^k, M_i).$$
For the first fact, use the definition of the local cohomology modules as the right-derived functors of $Gamma_I(M).$ Convince yourself that $Gamma_I(M) cong varinjlim_k operatorname{Hom}_R(R / I^k, M);$ then, use the facts that (1.) direct limits commute with cohomology and (2.) Ext is the right-derived functor of Hom.
Unfortunately, I am not aware of a more straightforward proof than this.

Zeek · Answer

Yes because homology commutes with direct sums. Alternatively you could use the formulation
$$H_{mathfrak{a}}^{n}(-)simeq varinjlim_{t}text{Ext}_{R}^{n}(R/mathfrak{a}^{t},-)$$
combined with the fact that $R/mathfrak{a}^{t}$ is finitely generated to show that local cohomology commutes with all direct limits; in particular it will commute with direct sums.
Edit:
Since $R/mathfrak{a}^{t}$ is finitely generated, there are isomorphisms
$$text{Ext}_{R}^{n}(R/mathfrak{a}^{t},varinjlim_{J}N_{j})simeq varinjlim_{J}text{Ext}_{R}^{n}(R/mathfrak{a}^{t},N_{j})$$
for any directed system ${N_{j}}_{J}$ of modules and $ngeq 0$. Consequently one has isomorphisms
$$begin{align*}
H_{mathfrak{a}}^{n}(varinjlim_{J}N_{j})&simeq varinjlim_{t}text{Ext}_{R}^{n}(R/mathfrak{a}^{t},varinjlim_{J}N_{j})
\
&simeq varinjlim_{t} varinjlim_{J}text{Ext}_{R}^{n}(R/mathfrak{a}^{t},N_{j})
\
&simeq varinjlim_{J} varinjlim_{t} text{Ext}_{R}^{n}(R/mathfrak{a}^{t},N_{j})
\ &simeq varinjlim_{J} H_{mathfrak{a}}^{n}(N_{j})
end{align*}$$
for every directed system and $ngeq 0$.

Does local cohomology commutes with direct sums?

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