Abstract
Fish fauna was studied in five sites of the shallow infralittoral of the Paranaguá Bay during the period from October 1999 to September 2000. At each sampling site, fish were sampled with other trawls, salinity and temperature were measured, water samples were taken from the bottom of the water column for determination of dissolved oxygen, dissolved inorganic nitrogen and phosphate. The spatial and temporal behavior of the environmental variables was analyzed by a Principal Component Analysis; Cluster Analysis was used to gather the sampling sites, and Factorial Correspondence Analysis was applied to the most abundant species. Temperature was the most important variable for the distribution of the months, allowing the division of the study period into hot and cold months. The temporal variation in the fish fauna composition was indicated by cluster analysis, with highest percentages of dissimilarity between the sampling sites during hot months. The variation in dissimilarity between the sites occurred due to differences in the number of individuals and species of the catches. The high frequencies of occurrence of Anisotremus surinamensis, Etropus crossotus, Genidens genidens, Micropogonias furnieri and Sphoeroides greeleyi were related to high temperatures. The greatest number of fish and species observed in hot months may be related to the life cycle of many species, which reproduce in warmer months, and whose offspring use estuaries as breeding areas.
Highlights
Fish comprise the largest fraction of estuarine nekton due to numerical predominance and motility (Kennish, 1990)
The aim of this study was to examine the temporal variation of the demersal fish fauna composition in the shallow infralittoral of the Paranaguá Bay, seeking to identify the biotic and abiotic factors related, which may allow a better understanding of the ecosystem functioning, important for the adoption measures for conservation and preservation
The east-west axis of the Paranaguá Estuarine Complex (PEC) is influenced by river input, responding to processes related to water-column stratification, salinity intrusion, sediment supply, and the turbidity maximum zone (TMZ) (Cattani & Lamour, 2016) in addition to port dredging
Summary
Fish comprise the largest fraction of estuarine nekton due to numerical predominance and motility (Kennish, 1990) They found an environment with large variations in abiotic conditions (salinity, temperature, turbidity, pH, inorganic nutrients and organic matter), which together with biological factors such as reproduction, recruitment, and biotic interactions, such as interspecific interaction and predation, define distribution patterns, abundance and composition of the estuarine fish fauna (Kennish, 1990; Jareguizar, Menni, Guerrero, & Lasta, 2004; Barletta, Barletta-Bergan, Saint-Paul, & Hubold, 2005; Barletta et al, 2008).
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