Let $f : 2^n \to \mathbb{R}$ be a nondecreasing submodular function, where $2^n$ is the powers of $\{1, \dots, n\}$. Here *nondecreasing* means that $f(S) \le f(T)$ for all $S \subseteq T$. And *submodularity* means that $f(S) + f(T) \ge f(S \cup T) + f(S \cap T)$ for all $S, T$.

Is it true that
$$\sum_{|S| \text{ even}} f(S) \le \sum_{|T| \text{ even}} f(T)?$$
Here $|S|$ is the cardinality of $S$, as usual.