SREL Reprint #2099
Growth and foraging consequences of facultative paedomorphosis in the tiger salamander, Ambystoma tigrinum nebulosum
HOWARD H. WHITEMAN1,3,4, SCOTT A. WISSINGER2,3 and WENDY S. BROWN3
1Department of Biological Sciences, Purdue University, West Lafayette, IN 47907, USA
22Biology Department, Allegheny College, Meadville, PA 16335, USA
3Rocky Mountain Biological Laboratory, PO Box 519, Crested Butte, CO 81224, USA
4Present address: Savannah River Ecology Laboratory, Drawer E, Aiken, SC 29802
Summary
Facultative paedomorphosis in salamanders occurs when larvae respond to
varying environmental conditions by either metamorphosing into terrestrial
metamorphic adults or retaining their larval morphology to become sexually mature
paedomorphic adults. Several hypotheses have been proposed for the
evolutionary maintenance of this environmentally induced dimorphism, but few
data are available to assess them adequately. We studied a montane population of
the tiger salamander, Ambystoma tigrinum nebulosum, and measured the adult
growth rate and body condition across three growing seasons to assess the
relative costs and benefits of each morph. Metamorphic adults grew more than
paedomorphic adults in terms of snout-vent length across years and in weight
within years. Dietary analyses and foraging experiments revealed some of the
proximate factors that may underlie these differential growth patterns. Across all
prey, metamorphs had significantly higher biomass and calories per stomach
sample than paedomorphs. Metamorphic diets primarily consisted of the fairy
shrimp Branchinecta coloradensis, whereas paedomorphic diets contained a
variety of benthic and terrestrial invertebrates. Foraging experiments revealed that
both morphs are more successful at capturing fairy shrimp relative to other prey
types and both show high electivity toward this prey. However, fairy shrimp
occurred only in non-permanent ponds and thus are inaccessible to paedomorphs,
which can survive only in permanent ponds. Paedomorphs also experience higher
levels of intraspecific competition with large larvae in permanent ponds than
metamorphs do in non-permanent ponds. Thus, metamorphs obtain a growth
advantage over paedomorphs by foraging in non-permanent ponds that contain
fairy shrimp and have reduced ititraspecific competition. These results suggest that
paedomorphs should have decreased fitness relative to metamorphs, primarily
because metamorphs can move into the best habitats for growth. The net fitness
effect of morph-specific differences in dispersal depend on whether there are
trade-offs with other life history traits. Nonetheless, because the relative benefit of
metamorph dispersal will change with environmental conditions in permanent
ponds and the surrounding habitat, the relative fitness payoff to each morph should
track changes in the environment. Thus, facultative paedomorphosis may be
maintained in part by variable, environmentally-specific fitness payoffs to each
morph.
Keywords: facultative paedomorphosis; polymorphism; phenotypic plasticity;
alternative evolutionary mechanisms; growth rate; dietary analyses; salamanders;
Ambystoma
SREL Reprint #2099
Whiteman, H.H., S.A. Wissinger, and W.S. Brown. 1996. Growth and foraging consequences of facultative paedomorphosis in the tiger salamander, Ambystoma tigrinum nebolosum. Evolutionary Ecology 10:433-446.
