Abstract
Subtropical estuaries often experience seasonal climatic shifts, which influence environmental conditions such as water temperature and salinity. The distribution of estuarine organisms depends on the availability of suitable environmental conditions, the extent of which may differ across seasons. Furthermore, ecological interactions among organisms, such as predation and competition, often occur when multiple species overlap spatiotemporally and can influence their distributions and abundances. Determining the habitat associations and overlap patterns among predator and prey species across seasons can thus enhance our understanding of ecosystem function. This study used a long-term monitoring data set to examine the habitat suitability and overlap patterns between 4 predator and 4 prey species in a northwestern Gulf of Mexico estuary. Seasonal (fall and spring) habitat suitability models and maps were created, which allowed for delineation of spatiotemporal overlap between predators and prey. Environmental drivers of habitat suitability differed among species, but temperature and salinity were frequently the most important variables. Seasonal differences in habitat suitability were observed for all species, but these differences were more notable for prey than for predators. Seasonality in habitat suitability was likely driven primarily by seasonal changes in environmental conditions and movements related to reproductive activities. Spatiotemporal overlap between predators and prey was observed primarily in whichever season each prey species was more abundant and in regions where highly suitable habitat was most ubiquitous for each predator. These results suggest that overlap between these predators and prey is highly seasonal, implying seasonality in the diets of predators and predation pressure on prey.
Highlights
Predators are integral to shaping the structure and function of ecosystems through direct predation and indirect, behaviorally mediated effects on prey populations, conspecifics, and other predator species (Paine 1980, Wootton 1993, Heithaus et al 2008)
The seasonal habitat suitability models and maps produced in this study exemplify the variability in habitat use patterns among predators and prey in the Galveston Bay Complex (GBC) and delineate the extent of spatiotemporal overlap between them
Seasonal shifts in habitat suitability occurred for all predator and prey species, but this pattern was more notable for prey than for predators
Summary
Predators are integral to shaping the structure and function of ecosystems through direct predation and indirect, behaviorally mediated effects on prey populations, conspecifics, and other predator species (Paine 1980, Wootton 1993, Heithaus et al 2008). One of the most critical considerations when creating these holistic strategies is the delineation of essential fish habitat, defined as the waters required by a particular species to feed, reproduce, and reach maturity. By delineating essential habitats for multiple species in a given area and across multiple seasons, managers can protect regions that efficiently benefit as many species as possible (Cook & Auster 2005, Moore et al 2016). Estuarine ecosystems are dynamic, with vast spatiotemporal heterogeneity in environmental conditions due to river inflow, wind, and tides. The extent of essential habitat for a given species can change dramatically based on climatic conditions. The effective delineation of essential fish habitat in this region requires long-term monitoring data and modeling that considers spatiotemporal factors in addition to physicochemical conditions
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