The cellular basis for phenotypic plasticity of body size in Western Spadefoot toad (Spea hammondi) tadpoles: patterns of cell growth and recruitment in response to food and temperature manipulations

Abstract

Body size is highly variable within and among populations, both as a result of genetic variation and as a plastic response to environmental variation. From a proximate perspective, body size depends upon cell size, cell number, and extracellular matrix, but we know little about their independent contributions to size nor how these contributions vary with environmental influences. Here, I introduce the tail muscle of anuran tadpoles as a new system for studying this issue. Body size and tail size of tadpoles is sensitive to variation in food and temperature. I show first that tail muscle size is strongly correlated with overall body size, thus making it a good tissue to study size regulation. Second, the relative role of cell size and cell number, but not extracellular matrix, shows an interaction between food and temperature treatments and across ages. For example, in young tadpoles food effects on size are due exclusively to cell size at low temperatures but both cell size and number at high temperatures. This pattern partially reverses for older tadpoles. Despite the complexity of this interaction, the two populations compared show nearly identical patterns, suggesting that the plastic response is robust.