Estuary are transitional environmen

Estuary are transitional environments that link continental, limnic environments to marine systems, and are characterized primarily by the constant dynamic of the tidal cycle (Schaeffer-Novelli, 1995), which provokes daily variation in abiotic variables such as salinity, temperature, dissolved oxygen and nutrient concentrations, and tidal currents (Park and Marshall, 2000). This variability is reflected in the structure of the resident and/or transitional populations of different organisms, and determines fluctuations in the composition of ecological communities, and the spatial-temporal variation in the distribution of species (Little, 2000).


These environments are also considered to be natural nurseries, providing important spawning grounds for an ample variety of aquatic vertebrates and invertebrates, and constitute one of the most productive biological systems in the world. The productivity of phyto and zooplankton, and zoobenthic organisms is especially marked.


The zooplankton has a special role in the estuarine biota, occupying a key role in the trophic web of these systems, including nutrient recycling and the regulation of phytoplankton populations



through the consumption of these organisms. The zooplankton is an important link in the transfer of energy and organic material between the primary producers and the system’s principal consumers (Parsons et al., 1984). The analysis of the spatial and temporal variation in the density, biomass, and productivity of the zooplankton is fundamentally important to the understanding of the role of these organisms in the processing of particulate and dissolved organic matter, and estuarine trophodynamics in general (Perissinotto et al., 2003). In this context, it is essential to understand the interaction between local climatic and hydrographic parameters and the biological characteristics of these organisms.


Copepods tend to be the principal component of the estuarine and marine mesozooplankton, corresponding to 60-80% of the total biomass of this group. These organisms contribute directly to the recycling of the material produced by the microbial loop (Osidele and Beck, 2004), as well as regulating fishery stocks, both in the larval (Payne and Rippingale, 2001) and adult phases (Camargo and Isaac, 2004), and providing one of the main components of the diets of many zooplanktophagous fishes (Evjemo et al., 2003).


The present study investigated the daytime variation (circadian and tidal cycles) in the density and diversity of the zooplankton of the Taperaçu estuary in northern Brazil, in relation to the variation in hydrological parameters.