Sublethal effects of catch-and-release fishing: measuring capture stress, fish impairment, and predation risk using a condition index

Campbell, Matthew D.; Patiño, Reynaldo; Tolan, James M.; Strauss, Richard E.; Diamond, Sandra L.

doi:10.1093/icesjms/fsp255

Cited by 86 publications

(80 citation statements)

References 23 publications

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“…Impairment-scaling metrics that evaluate sublethal effects of CAR fishing, such as reduction of reflex responses, also show similar relationships with water temperature (Diamond and Campbell, 2009;Campbell et al, 2010aCampbell et al, , 2010b. Furthermore, impairment-scaling metrics were linked to increased immediate estimates in at least 2 of those studies.…”

Section: Proportional Mortaliltymentioning

confidence: 78%

“…Methods for calculating or scaling the level of impairment of fish caused by effects of CAR fishing have proven to be useful for the estimation of release mortality for many species, including walleye pollock (Gadus chalcogrammus, Gadidae), coho salmon (Oncorhynchus kisutch, Salmonidae), sablefish (Anoplopoma fimbria, Anoplopomatidae), northern rock sole (Lepidopsetta polyxystra, Pleuronectidae), lingcod (Ophiodon elongatus, Hexagrammidae), Pacific halibut (Hippoglossus stenolepis, Pleuronectidae), and red snapper (Davis et al, 2001;Davis and Ottmar, 2006;Davis, 2007;Campbell et al, 2010aCampbell et al, , 2010b. The impairment scaling metric for the barotrauma reflex showed a positive logistic relationship between impairment level and immediate estimates of release mortality in the recreational red snapper fishery for both surface-release and caging studies (Campbell et al, 2010a;Diamond and Campbell, 2009).…”

Section: Proportional Mortaliltymentioning

confidence: 99%

“…The rate at which fish are discarded and quantification of their fate after release are crucial data needs for regional stock assessments in the GOM and south Atlantic. Because of the wide range in reported mortality rates (SEDAR 2 ; Campbell et al 3 ) and the confounding Each method used to derive mortality estimates has its benefits, biases, and shortcomings that require exploration; however, in general, problems are associated with the timing of observation, exclusion of predation, insufficient tag returns, sample size, and artifacts of experimental protocols (Campbell et al, 2010b). Methods used to derive estimates in the red snapper fishery include surface-release observation, caging studies, hyperbaric-chamber simulations, acoustic tagging, and passive tagging (Table 1, Fig.…”

mentioning

confidence: 99%

See 2 more Smart Citations

Release mortality in the red snapper (Lutjanus campechanus) fishery: a meta-analysis of 3 decades of research

Campbell¹,

Driggers²,

Sauls³

et al. 2014

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Abstract-The value of catch-and-release fishing as a conservation measure is highly dependent upon rates of discard frequency and release mortality. Therefore, it is important to understand how estimates of these variables are affected by factors such as capture depth and water temperature. The meta-analytical approach to modeling used here for red snapper (Lutjanus campechanus) in the Gulf of Mexico provides a robust method for dealing with studyspecific differences in experimental protocols and for estimating release (discard) mortality as a function of key factors. Results of this analysis showed significant increases in mortality by depth and for the commercial sector. The most consistent result was the positive correlation between depth and estimates of release mortality, a relationship that was present regardless of study method, fishing sector, hook type used, or season of study. The effect of venting (deflating the swim bladder by puncture) was dependent on whether the study produced estimates of immediate or delayed mortality. Immediate estimates indicated that mortality rates are lowered by venting whereas delayed estimates indicated that venting increased mortality rates. This result is largely reflective of the use of submergence ability, from surface-release studies, as a proxy for mortality. The model's interaction result indicates that recompression of fish may be a viable alternative to venting and that, if a recompression device is not available, venting at least improves the likelihood that a fish can submerge and return to protective habitat. The depth-based functional relationships developed in this model were used in the most recent red snapper stock assessment in 2012, and that use was a change from previous assessments where region-specific point estimates were used.

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Section: Proportional Mortaliltymentioning

confidence: 78%

Section: Proportional Mortaliltymentioning

confidence: 99%

mentioning

confidence: 99%

See 1 more Smart Citation

Release mortality in the red snapper (Lutjanus campechanus) fishery: a meta-analysis of 3 decades of research

Campbell¹,

Driggers²,

Sauls³

et al. 2014

Self Cite

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“…Significant depth-related discard mortality precludes the use of slot size limits in red snapper management (Rummer, 2007;Campbell et al, 2010;SEDAR5;Campbell et al, 2014). A first fish rule would allow vessels to retain all fishes caught until a singleor multiple-species daily bag limit is reached.…”

Section: Discussionmentioning

confidence: 99%

Direct observation of fishing effort, catch, and discard rates of charter boats targeting reef fishes in the northern Gulf of Mexico

Garner¹,

Patterson²

2015

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Abstract-Fishing activities on charter boats that targeted reef fishes were documented by observers in 2012 and 2013 to examine the effect of fishing season (open versus closed) for red snapper (Lutjanus campechanus) on fishing effort, catch, and discard variables. During 54 trips of charter boats with observers, 38 species of fishes were identified; 32 trips were taken during red snapper open seasons and 22 trips were taken during closed seasons. The majority of the catch and discards comprised lutjanids but also included small demersal reef fishes, highly migratory pelagic fishes, and elasmobranchs. Boat captains targeted artificial reefs at depths <40 m with red snapper abundances that were higher and species diversity that was lower during open seasons than the abundances and diversity found at deeper natural reefs that were fished during closed seasons. On closed-season trips, distance from shore, number of sites fished, and time fished per site were greater, whereas the number of fishermen was significantly lower than the number on open-season trips. The number, size, and proportion of red snapper caught were significantly greater during open-season trips than during closed seasons, but the number of red snapper discards was not significantly different between seasons. This study supports the use of onboard observer programs for the collection of accurate and reliable catch, effort, and discard data regarding the recreational for-hire sector, and for identifying changes in fishing strategies and behavior between closed and open seasons for the red snapper fishery in the northern Gulf of Mexico.

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“…Using metrics adopted from Davis [21] and Campbell et al [22], we assessed fish for a battery of physical indicators of stress (Table 1) at nine catch-and-release bass tournaments based in Plattsburgh, NY. A typical catch-and-release tournament proceeds as follows: anglers depart from a starting point and spend several hours (up to 8) fishing.…”

Section: Methodsmentioning

confidence: 99%

Use of external Indicators to Evaluate Stress of Largemouth (Micropterus salmoides) and Smallmouth (M. dolomieu) Bass at Tournaments

Maynard¹,

Mihuc²,

Schultz

et al. 2013

TOFISHSJ

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Abstract:The popularity of catch and release tournaments targeting largemouth (Micropterus salmoides) and smallmouth (M. dolomieu) bass has continued to increase over the past few decades. In 2008, Lake Champlain hosted 95 tournaments, including several large-scale events hosted in Plattsburgh, NY. As in any catch-and-release fishery, released fish exhibit varying amounts and types of stress, potentially generating sub-lethal population-level impacts. Due to the large volume of fish that move through catch and release tournaments, blood chemistry analysis is generally outside of the temporal and financial constraints of tournament organizers. External indicators of stress can be used to determine stress levels in large numbers of fish. We adapted some of these indicators (e.g., wounding, response to stimuli) from research in marine and commercial fisheries to assess fish stress following weigh-in at Plattsburgh-based catch and release tournaments. Additionally, we collected data including fish measurements, lake temperature, fish capture locations, and information on tournament handling practices to determine which external factors influenced fish stress levels. Generalized linear models showed increased likelihood of elevated stress levels as a positive function of ambient lake temperature, fish size, and livewell transport distance. Comparison of results with existing research on bass stress are consistent with our models, indicating that external signs of stress can be used to evaluate black bass stress levels at catch-and-release tournaments.

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Sublethal effects of catch-and-release fishing: measuring capture stress, fish impairment, and predation risk using a condition index

Cited by 86 publications

References 23 publications

Release mortality in the red snapper (Lutjanus campechanus) fishery: a meta-analysis of 3 decades of research

Release mortality in the red snapper (Lutjanus campechanus) fishery: a meta-analysis of 3 decades of research

Direct observation of fishing effort, catch, and discard rates of charter boats targeting reef fishes in the northern Gulf of Mexico

Use of external Indicators to Evaluate Stress of Largemouth (Micropterus salmoides) and Smallmouth (M. dolomieu) Bass at Tournaments

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