Abstract
AbstractImplementation of circle hook regulations in the Gulf of Mexico will impact the length structure and age structure of the snapper–grouper fishery catch as well as demographic data for stock assessments; therefore, an understanding of circle hook selectivity patterns is critical. Indirect selectivity analysis of the vertical‐line catch of Red Snapper Lutjanus campechanus and Vermilion Snapper Rhomboplites aurorubens showed that for both species, there were significant differences in mean FL among hook sizes, broad length frequency distributions, and wide selectivity curves. Although the results suggest that hook size regulations could be a useful management strategy for targeting desired size‐classes of these snappers, the broadly overlapping length distributions indicate that undersized catch would not be eliminated. Selectivity curves generated from the different families of distributions produced equally good fit to the data and provided a basis for evaluating various selectivity curves when the size structure of the sampled population is unknown. If the size structure of the population is known, then the use of direct selectivity methods is recommended. Right‐skewed distributions generally fit the data best, suggesting that hook regulations are likely to be more effective if the desired goal is to reduce the amount of undersized catch by eliminating small hook sizes. Conversely, elimination of large hooks appears to be less likely to reduce the catch of larger size‐classes because mouth gape is likely the primary limiting factor and small hooks can catch large fish. Catch rates were significantly different among hook sizes; thus, regulations based on hook size could impact fishing effort and change the dynamics of how the snapper–grouper fishery is prosecuted. Tradeoffs between moderate improvements in size‐class targeting, changes in effort, and various components of fishing mortality (i.e., catch and regulatory discards) will require further investigation through simulation modeling or field experimentation.Received April 23, 2014; accepted September 16, 2014
Highlights
Demographic data that inform stock assessments about the size structure and age structure of a population are critical for a clear understanding of the status of a fished stock
Red Snapper In total, 2,062 Red Snapper were caught with vertical-line gear during the Congressional Supplemental Sampling Program (CSSP)-VL (n D 1,707) and Southeast Area Monitoring and Assessment Program (SEAMAP)-VL (n D 355) cruises; these fish ranged in size from 154 to 782 mm FL (Figure 3)
Catch rates were significantly different among all hook sizes, and for both surveys the highest catch rate occurred with the 8/0 hook (CSSP-VL: 1.05 fish¢hook¡1¢h¡1; SEAMAP-VL: 1.07 fish¢hook¡1¢h¡1), followed by the 11/0 hook (CSSP-VL: 1.03 fish¢hook¡1¢h¡1; SEAMAP-VL: 1.04 fish¢hook¡1¢h¡1) and the 15/0 hook (CSSP-VL: 1.0 fish¢hook¡1¢h¡1; SEAMAPVL: 1.0 fish¢hook¡1¢h¡1)
Summary
Demographic data that inform stock assessments about the size structure and age structure of a population are critical for a clear understanding of the status of a fished stock. The various hook dimensions all have the potential to be limiting factors relative to the size of fish selected by the gear It is unclear whether the jaw structure (primarily gape) of different fishes relates proportionally to the effectiveness of a hook size, as has been established for gill nets. Beginning in 2008, the Gulf of Mexico Fishery Management Council began requiring recreational anglers fishing in federal waters to use non-stainless-steel circle hooks when catching reef fishes with natural bait (NOAA 2013), and some states bordering the GOM, such as Florida, are following suit (Sauls and Ayala 2012) This regulation could potentially change which portions of the fishery (i.e., sizes or ages) are vulnerable to fishing pressure. If hook size demonstrates clear selectivity patterns, regulations could be tailored to effectively manage the size composition of catches attributable to various sectors
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