Frequency-dependent competitive abilities and differential resource use in competition between Drosophila hydei and D. melanogaster

Abstract

Several experiments, each involving competition between Drosophila melanogaster and D. hydei in population cages, were set up and allowed to run for up to 50 weeks. The population sizes of both species, and hence the species frequencies, were monitored once a fortnight, i.e. approximately once per generation. Coexistence of the two species was observed in cages containing resource bottles with 5 g of food medium; cages whose resource bottles contained only 1.5 g resulted in competitive exclusion of D. hydei. Competitive abilities were frequency-dependent in the former case but not in the latter. Tests of larval depth distributions revealed that D. hydei larvae feed at a deeper level in the food medium than larvae of D. melanogaster. The explanation of the contrasting results of competition when bottles contained 5 g and 1.5 g of resources lies in the production of frequency-dependent competitive abilities by larval resource partitioning in the bottles with 5 g, and the preclusion of such partitioning in the 1.5 g bottles because of the very limited depth of food medium then available. The relevance of these results to a model of competition is discussed, and the potential generality of differential resource use as a stabilizing mechanism in both interspecific and intergenotypic competition is noted.