RESOURCE AVAILABILITY AND THE ABUNDANCE OF AN N‐BASED DEFENSE IN AUSTRALIAN TROPICAL RAIN FORESTS

Plant defense theories predict that relatively resource‐rich environments (those with more fertile soil) will support a greater abundance of plants with nitrogen‐based chemical defense, but this has yet to be adequately tested. We tested this prediction by measuring the diversity and contribution to total biomass of cyanogenic plants (those that release hydrogen cyanide from endogenous cyanide‐containing compounds) in the Australian tropical rain forest. We examined 401 species in thirty 200‐m 2 plots, six at each of five sites, for cyanogenesis. In upland/highland rain forest, two pairs of sites similar in rainfall and altitude, but differing in soil nutrients, were selected, as well as one site in lowland rain forest. Sites differed markedly in species composition and foliar N was positively related to soil fertility. Holding altitude constant, we did not detect significant differences in the proportion of cyanogenic species with soil fertility, nor did we consistently detect significant increases in the contribution of cyanogenic species to total biomass on higher nutrient sites. Thus we found no clear evidence that soil fertility affects the distribution and prevalence of species investing in a constitutive N‐based defense at the community level.