Let's begin by constructing LR(1) configurating sets for the grammar:

```
(1)
S' -> .S [$]
S -> .aEa [$]
S -> .aFb [$]
S -> .bFa [$]
S -> .bEb [$]
(2)
S' -> S. [$]
(3)
S -> a.Ea [$]
S -> a.Fb [$]
E -> .e [a]
F -> .e [b]
(4)
E -> e. [a]
F -> e. [b]
(5)
S -> aE.a [$]
(6)
S -> aEa. [$]
(7)
S -> aF.b [$]
(8)
S -> aFb. [$]
(9)
S -> b.Fa [$]
S -> b.Eb [$]
E -> .e [b]
F -> .e [a]
(10)
E -> e. [b]
E -> e. [a]
(11)
S -> bF.a [$]
(12)
S -> bFa. [$]
(13)
S -> bE.b [$]
(14)
S -> bEb. [$]
```

If you'll notice, states (4) and (10) have the same core, so in the LALR(1) automaton we'd merge them together to form the new state

```
(4, 10)
E -> e. [a, b]
F -> e. [a, b]
```

Which now has a reduce/reduce conflict in it (all conflicts in LALR(1) that weren't present in the LR(1) parser are reduce/reduce, by the way). This accounts for why the grammar is LR(1) but not LALR(1).

Hope this helps!