Reproductive biology of two dominant prairie grasses ( Andropogon gerardii and sorghastrum nutans , Poaceae): male‐biased sex allocation in wind‐pollinated plants?

It has been proposed that some wind‐pollinated plants have the necessary conditions for an optimal sex allocation that is male biased, though there are few data that address this prediction. We determined that two prairie grass species ( Andropogon gerardii and Sorghastrum nutans ) had reproductive characteristics that theoretically would result in a male‐biased allocation: both species were self‐incompatible and neither species had increased seed set after supplemental hand pollination. The relative allocation to pollen and seed production was measured in terms of biomass, energy, nitrogen, phosphorus, potassium, magnesium, and calcium. Sex allocation in A. gerardii was significantly male biased (from 60 to 89% male) when measured in currencies of biomass, energy, potassium, and calcium; there was no significant bias in the sex allocation (from 49 to 57% male) when measured in currencies of nitrogen, phosphorus, and magnesium. sex allocation in S. nutans was significantly male biased (from 69 to 81% male) for all currencies except phosphorus (61% male). This is the first evidence for male‐biased sex allocation in any plant or animal hermaphrodite. Though the necessary conditions may be uncommon, male‐biased allocation may be found in other species with similar reproductive biology.