To summarize the discussion with @WillNess below, yes, Prolog is strict. However, Prolog's execution model and semantics are substantially different from the languages that are usually labelled strict or non-strict. For more about this, see below.
I'm not sure the question really applies to Prolog, because it doesn't really have the kind of implicit evaluation ordering that other languages have. Where this really comes into play in a language like Haskell, you might have an expression like:
f (g x) (h y)
In a strict language like ML, there is a defined evaluation order:
g x will be evaluated, then
h y, and
f (g x) (h y) last. In a language like Haskell,
g x and
h y will only be evaluated as required ("non-strict" is more accurate than "lazy"). But in Prolog,
does not have the same meaning, because it isn't using a function notation. The query would be broken down into three parts,
h(Y, B), and
f(A,B,C), and those constituents can be placed in any order. The evaluation strategy is strict in the sense that what comes earlier in a sequence will be evaluated before what comes next, but it is non-strict in the sense that there is no requirement that variables be instantiated to ground terms before evaluation can proceed. Unification is perfectly content to complete without having given you values for every variable. I am bringing this up because you have to break down a complex, nested expression in another language into several expressions in Prolog.
Backtracking has nothing to do with it, as far as I can tell. I don't think backtracking to the nearest choice point and resuming from there precludes a non-strict evaluation method, it just happens that Prolog's is strict.