SELECTION-MIGRATION REGIMES CHARACTERIZED BY A GLOBALLY STABLE EQUILIBRIUM

Samuel Karlin ¹ and R. B. Campbell ²

¹ Department of Mathematics, Stanford University, Stanford, CA 94305
² Department of Mathematics, Purdue University, Lafayette, Indiana 47907

The principle that a subdivided population subject to overdominance viability selection in each habitat will manifest a unique, globally attractng polymorphic equilibrium is posited. This follows as a corollary to the stronger principle that, if haploid selection or submultiplicative diploid selection (definition: the geometric mean of the homozygote viabilities is less than or equal to the heterozygote viability) is operating in each habitat,there is a unique, globally attracting stable equilibrium that may be monomorphic or polymorphic. These principles are proven for a broad spectrum of migration patterns. In all such migration selection systems, multiple fixation states cannot be simultaneously stable under submultiplicative viability regimes. Contrasting examples where submultiplicative viabilities are not in force are given.