Abstract
Characterizing the behavior of coral reef fishes at home reef sites can provide insight into the mechanisms of spatial ecology and provide a framework for spatial resource management. In the Caribbean, populations of Nassau grouper Epinephelus striatus have declined due to fishing impacts on spawning aggregations. Despite local and regional efforts by fisheries managers to implement regulations protecting spawning aggregations, few Nassau grouper populations appear to be recovering. In order to improve management strategies for this critically endangered species, it is necessary to understand the spatial ecology of the species across seasons and years. In the Cayman Islands, we used a multi-year, presence/absence, depth-coded acoustic tagging dataset of Nassau grouper to characterize patterns in the species’ behavior and vertical habitat use at home reef sites. Twenty acoustically tagged individuals (56-84 cm, 70.01 ± 7.40 cm; total length, mean ± SD) maintained consistent home reef sites, although some fish regularly shifted activity centers within the home site, often following a seasonal spawning migration. Seven fish with depth-coded tags showed a higher probability of vertical movement in the hours immediately following dawn and preceding dusk. We found evidence of a positive relationship between the fish condition factor and depth of home reef site. The finding of persistent home reef sites across years suggests that properly sized spatial reserves at home reef sites can be a useful complement to spawning aggregation protection when considering management strategies for Nassau grouper.
Highlights
Home range, defined as the area over which an animal normally travels, is a critical part of understanding animal behavior and ecology (Burt 1943, Hayne 1949, Gerking 1953)
To better visualize the change in depth through time, we calculated a moving depth average spanning 20 consecutive depth detections. We subsequently evaluated these plots to determine if persistent changes in the daily number of detections at the home receiver was linked to persistent changes in depth, and thereby could be indicative of shifts over time in activity centers at the home reef site
Can be dynamic and directly influenced by the impacts of the individual occupying a home reef (Hixon & Beets 1993, Almany 2004). This dynamic may influence the quality of home reef sites over time and may impact the centers of activities within these sites, or even result in relocation
Summary
Home range, defined as the area over which an animal normally travels, is a critical part of understanding animal behavior and ecology (Burt 1943, Hayne 1949, Gerking 1953). Home reef site dynamics can provide insight into space use, resource partitioning, habitat selection, and behavior of fish (Bolden 2001, Khan et al 2017, Pillans et al 2017, Farmer & Ault 2018). Documenting these dynamics is helpful in building effective spatial conservation and management policies, as the degree of movement of a given species can influence the effectiveness of such strategies (Kramer & Chapman 1999, Crossin et al 2017, Farmer & Ault 2018)
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