MIDWATER FISHES AND SHRIMPS AS COMPETITORS AND RESOURCE PARTITIONING IN LOW-LATITUDE OLIGOTROPHIC ECOSYSTEMS

Oligotrophic tropical-subtropical oceanic regimes constitute the large st and most ancient ecosystem on earth, with these enormous areas bein g characterized by high faunal diversity. The stability and age of the ecosystem have enabled the evolution of many similar species niches w here there is considerable overlap in niche parameters such as food an d space, resulting in high species packing, especially in the epi-and mesopelagic zones. Competition for limited resources undoubtedly exist s and has been described by MacArthur (1972; Geographical ecology, Har per and Row, New York) as diffuse competition where each species is im pacted by many other species sharing the environment. Most studies of resource partitioning in the oceanic pelagial have been restricted to specific taxonomic groups, such as copepods, fishes, shrimps, or cepha lopods, and intergroup relationships have not been examined. The 2 dom inant (numbers and biomass) components of low latitude midwater micron ekton communities, based on trawl catches, are fishes and shrimps, and the present study reveals that species from each of these 2 assemblag es occur in the same feeding guilds and hence potentially compete for food resources. However, as additional niche parameters are included i n the analysis, such as food size and predator vertical distribution, groups of species with matching niche characteristics become increasin gly smaller. Results of this study suggest that as additional informat ion on individual life histories is obtained, such as data on seasonal ity of reproduction and population dynamics, the same pattern will eme rge as we have found for fishes and shrimps considered separately, i.e . that resource partitioning occurs at the species level despite the p ressures of diffuse intra- and intergroup competition. This minimizes competitive exclusion and enables the maintenance of a high-diversity fauna in resource-poor low latitude ecosystems.