Within the class of Tikhonov spaces, and within the class of topological groups, most of the natural questions concerning ''productive closure'' of the subclasses of countably compact and pseudocompact spaces are answered by the following three well-known results: (1) [ZFC] There is a countably compact Tikhonov space X such that \(X\times X\) is not pseudocompact; (2) [ZFC] The product of any set of pseudocompact topological groups is pseudocompact; and (3) \([ZFC+MA]\) There are countably compact topological groups \(G_ 0\), \(G_ 1\) such that \(G_ 0\times G_ 1\) is not countably compact. We consider the question of ''productive closure'' in the intermediate class of homogeneous spaces. Our principal result, whose proof leans heavily on a simple, elegant result of \textit{V. V. Uspenskij} [Proc. Am. Math. Soc. 87, 187-188 (1983; Zbl 0504.54007)] is this: In ZFC there are pseudocompact, homogeneous spaces \(X_ 0\), \(X_ 1\) such that \(X_ 0\times X_ 1\) is not pseudocompact; if in addition MA is assumed, the spaces \(X_ i\) may be chosen countably compact. Our construction yields an unexpected corollary in a different direction: Every compact space embeds as a retract in a countably compact, homogeneous space. Thus for every cardinal number \(\alpha\) there is a countably compact, homogeneous space whose Souslin number exceeds \(\alpha\).