This is related to the question I asked last time. This sounds a bit too specific, I hope this question is still acceptable on MO.

I am still not quite comfortable with the concept of depth, and there is this exercise in Matsumura's book that goes as follows:

Find an example of a noetherian local ring $A$ and a finite $A$-module $M$ such that $\rm{depth}M > \rm{depth}A$. Also find $A$,$M$ and $P \in \rm{Spec}A$ such that $\rm{depth} M_P > \rm{depth}_P(M)$.

I hope I have found correct examples, but I am still quite lost about why one can find such examples, and what the generic ones are. So if someone can just give me some representative examples I would be grateful.

The examples I found myself:

For the first one, it is clear that $A$ must not be Cohen-Macaulay. Then I set $A = \frac {k[x,y,z]}{(xz,yz)}_{(x,y,z)}$, which is of depth 1, and I consider its quotient by $(z)$, which is $k[x,y]_{(x,y)}$ and should be of depth 2 (at least $x,y$ is a regular sequence I think).

For the second one, I try to fix $depth_P(M) = 0$, which means $P$ should lie in some associated primes of $M$, so I consider $M = \frac {k[x,y,z]}{(x^2,xy,xz)}_{(x,y)}$, such that $(x,y)$ is not associated prime when localized.