Clonal growth confers a number of benefits on plants, but involves some costs as well. We examined whether seed reproduction is reduced in clonal plants due to these costs.
Further, we investigated whether this relationship differs for species with optima at stressful or low-productivity sites, as a possible indication that clonality acts as insurance against reduced seed reproduction in such conditions. We evaluated 472 species for which seed production per unit area had been determined, and employed this information together with data on seed mass, height at maturity, clonal traits and optimum habitat conditions (using Ellenberg indicator values).
There was a strong hyperbolic relationship between seed output and seed mass, with a scaling coefficient of -1, indicative of a simple tradeoff relationship. We performed analyses both with and without taking phylogeny into account.
Reproductive output (i.e. the product of seed output and seed size) of was lower in clonal than in non-clonal plants (in both with and without phylogeny incorporated in the analyses); within non-clonal species, it was high in annuals and monocarpic plants relative to nonclonal perennials. Reproductive output was lower in clonal plants with extensive lateral spread.
This may be due to lower mortality of such plants, which should favor reduced reproductive output, but direct resource tradeoff may also be involved. Reproductive output in all clonal and non-clonal plants increased with the nutrient status and light level of the species' optimum, and decreased with moisture.
Because the proportion of clonal plants in vegetation is known to decrease along the same gradients, we can infer that as sexual reproduction becomes increasingly difficult in terms of these characteristics, clonal plants may capitalize on their capacity to bypass it.