Competition as a selective mechanism for larger offspring size in guppies

Highly competitive environments are predicted to select for larger offspring. Guppies Poecilia reticulata from low‐predation populations have evolved to make fewer, larger offspring than their counterparts from high‐predation populations. As predation co‐varies with the strength of competition in natural guppy populations, here I present two laboratory experiments that evaluate the role of competition in selecting for larger offspring size. In the first experiment, paired groups of large and small newborns from either a high‐ or a low‐predation population were reared in mesocosms under a high‐ or a low‐competition treatment. While large newborns retained their size advantage over small newborns in both treatments, newborn size increased growth only in the high‐competition treatment. Moreover, the increase in growth with size was greater in guppies derived from the low‐predation population. In the second experiment, pairs of large and small newborns were reared in a highly competitive environment until reproductive maturity. Small size at birth delayed maturation and the effect of birth size on male age of maturity was greater in the low‐predation population. These results support the importance of competition as a selective mechanism in offspring size evolution.