Within‐ and between‐species patterns of allocation to pulp and seed in vertebrate dispersed plants

Abstract

Non‐uniform scaling of pulp and seed mass has been shown to alter dispersal probabilities in vertebrate dispersed species. Since dispersal in tropical forests is strongly linked to establishment success, processes determining allocation to pulp and seed are likely to impact on parental fitness, and therefore should be under the control of natural selection. In this study I examine size‐dependent dry mass allocation pattern to pulp and seed mass both among and within 20 fruit‐producing plant species of tropical rainforest in northeast Queensland, Australia. Reduced major axis analyses using mean values for each species showed significant isometry, indicating that at the community level, plant species that employ vertebrates as a means of seed dispersal tend to allocate an equivalent mean relative proportion of the overall dry weight investment in fruit to pulp. However, identical analyses conducted for each species separately revealed that relationships within individual species do not reflect the inter‐specific relationship. These results imply two influences on dry mass allocation to fruit components; the first (within‐species allometry) determines how fruits vary within each species. The second (between‐species allometry) operates in a similar manner across species to produce equal ratios of mean pulp and seed mass independent of within‐species allometries.