Abstract
AbstractDuring daily fishing operations, spanner crab Ranina ranina catch rates can fluctuate substantially, but the environmental drivers responsible for these fluctuations largely remain unresolved. Earlier research suggests that spanner crab catchability increases with strengthening currents, but uncertainties surround the magnitude of the measured current speeds and, consequently, their relationship with catch rates. Here, we explore the effects of bottom currents on spanner crab catch rates in South East Queensland, Australia. Using generalized additive mixed modeling, our results indicated that strengthening current speeds increased catch rates until reaching approximately 0.15 m/s, at which point the catch rates began to gradually decline. Results from a general linear regression model also showed that between fishing periods carried out on the same day, catch rates increased or decreased concurrently with current speeds. We conclude that bottom current speed should be considered in future stock assessment models. Better understanding the processes responsible for changes in bottom current speed will enable more accurate estimates of spanner crab population densities in the Australian fishery and will benefit the economic efficiency of commercial crabbing operations. Furthermore, future studies that investigate the effects of current speed on catch rates for other crab species should consider differences in locomotory characteristics and how they may impact the foraging efficiency of crabs under different flow conditions.
Highlights
Population abundances of crab stocks can fluctuate greatly and may be related to environmental factors that occur at different temporal scales
Variations in the recruitment of red king crab Paralithodes camtschaticus, tanner crab Chionoecetes bairdi, blue king crab Paralithodes platypus, and snow crab Chionoecetes opilio have been linked to decadal climate shifts associated with changes in physical oceanographic processes that affect the supply of food to crab larvae (Zheng and Kruse 2000, 2006)
We investigate the effects of bottom current speed and direction and tidal phase on spanner crab catch rates and explore whether changes in current patterns during daily fishing operations are responsible for short‐term variation in CPUE
Summary
Population abundances of crab stocks can fluctuate greatly and may be related to environmental factors that occur at different temporal scales. More recent studies have shown that similar shelf habitats in South East Queensland are typically characterized by bottom and near‐bottom (~3 m above the seabed) current speeds of 0.03–0.15 m/s (Hill and Wassenberg 1999) and 0.1–0.27 m/s (Spencer et al 2017), respectively—less than 5% of the maxima reported earlier by Craig and Kennelly (1991). We investigate the effects of bottom current speed and direction and tidal phase on spanner crab catch rates and explore whether changes in current patterns during daily fishing operations are responsible for short‐term (same‐day) variation in CPUE
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