Moving from Measuring to Predicting Bycatch Mortality: Predicting the Capture Condition of a Longline-Caught Pelagic Shark

Dapp, Derek R.; Huveneers, Charlie; Walker, Terence I.; Drew, Michael; Reina, Richard D.

doi:10.3389/fmars.2015.00126

Cited by 26 publications

(31 citation statements)

References 36 publications

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“…temperature, dissolved oxygen, salinity, temperature–depth gradients) and biological factors (e.g. species, respiratory mode, habitat class, sex, body size, skin thickness, predation, soak time or time spent hooked/fight time, hooking location, vitality or condition code, biochemical correlates of morbidity and mortality) to influence survival outcomes (Awruch et al., ; Braccini et al., ; Butcher et al., ; Campana, Joyce & Manning, ; Carruthers et al., ; Dapp et al., , , ; Davis, ; Diaz & Serafy, ; Gallagher, Orbesen et al., ; Gallagher, Serafy et al., ; Marshall et al., ; Morgan & Carlson, ; Moyes et al., ; Musyl, Brill et al., ; Musyl et al., ). Moreover, there are also data that suggest sharks may suffer from gas emboli from rapid temperature changes (Garner, ) accompanied during retrieval from deep‐set longline gear (Rodríguez‐Cabello & Sánchez, ).…”

Section: Discussionmentioning

confidence: 99%

“…(), Gallagher, Serafy, Cooke and Hammerschlag (), Dapp et al. () and Musyl and Gilman (), light touching of the nictitating membrane (found only in the Carcharhiniformes, comprising ~270 species) can be used to distinguish mortality of sharks (Bell & Satchell, ). If observers are on boats with high freeboard, a pole with a padded probe could be used to administer the test.…”

Section: Discussionmentioning

confidence: 99%

“…For fisheries management and conservation, having precise survival rates of discards and at‐vessel mortality rates are necessary to advance and justify non‐retention, catch‐and‐release policies (Ellis, Phillips & Poisson, ; Graves, Marcek & Goldsmith, ; Moyes et al., ; Pine, Martell, Jensen, Walters & Kitchell, ) and other by‐catch mitigation strategies to rebuild stocks (Carruthers, Schneider & Neilson, ; Dapp, Huveneers, Walker, Drew & Reina, ; Favaro & Côté, ; Gilman et al., ; Poisson et al., ; Uhlmann et al., ). In fisheries population biology, it is necessary to account for the two main sources of fishing mortality: at‐vessel or catch (i.e.…”

Section: Introductionmentioning

confidence: 99%

“…Accurate estimates of the two sources comprising fishing mortality are also essential in producing accurate stock and other forms of ecological risk assessments (Gallagher, Kyne & Hammerschlag, ; Hobday, Smith, Stobutzki, Bulman & Daley, ; Kelleher, ; Kitchell, Kaplan, Cox, Martell & Essington, ; Pine et al., ; Punt, Smith, Tuck & Methot, ; Viana, Graham, Wilson & Jackson, ; Viana, McNally, Graham, Reid & Jackson, ). The vast majority of discards are unaccounted for in most stock assessments (Dapp et al., ) and the uncertainty as to the true values of F c and F r are major impediments to effective management and resource conservation in many fisheries (Campana, Joyce & Manning, ; Carruthers et al., ; Dapp et al., , ; Dapp, Walker, Huveneers & Reina, ; Molina & Cooke, ; Musyl et al, ). Fishing also has the capacity to exert sublethal effects at the population level (e.g.…”

Section: Introductionmentioning

confidence: 99%

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Meta‐analysis of post‐release fishing mortality in apex predatory pelagic sharks and white marlin

Musyl¹,

Gilman

2019

Fish and Fisheries

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Robust assessments of the effects of fishing require accounting for components of fishing mortality, including post‐release fishing mortality (Fr). Random‐effects meta‐analysis synthesized Fr in seven pelagic shark species captured, tagged and released with 401 pop‐up satellite archival tags compiled from 33 studies and three gears (longline, purse‐seine, rod & reel). The majority of Fr outcomes occurred within days of release, and the summary effect size for Fr was 0.27 [95% CI: 0.19–0.36], ranging from a low pooled effect size of 0.17 for blue shark (Prionace glauca, Carcharhinidae) to 0.38 (silky shark, Carcharhinus falciformis, Carcharhinidae). Fr rates in blue shark were consistent over dissimilar spatial and temporal scales, and results from earlier meta‐analysis were replicated, which is the most powerful way to authenticate results. Condition at tagging was a strong predictor, and dichotomized survival outcomes in silky shark and no sex‐, size‐, location‐ or gear‐specific Fr rates were demonstrated. Meta‐analyses and sensitivity analyses indicated exposure to risk factors and conditions whilst caught on the gear probably had the largest explanatory effect on Fr, rather than stressors incurred during handling and release. Records from 549 tagged istiophorid billfishes (six species, three gears, 43 studies) demonstrated they are more robust to stressors sustained during capture, handling and release than pelagic sharks. Findings from previous meta‐analysis on Fr rates in white marlin (Kajikia albida, Istiophoridae) were replicated. Synthesized Fr rates enable prioritizing approaches to mitigate by‐catch fishing mortality, to improve the quality of stock and ecological risk assessments and to expand our knowledge of factors influencing trophic structure.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Meta‐analysis of post‐release fishing mortality in apex predatory pelagic sharks and white marlin

Musyl¹,

Gilman

2019

Fish and Fisheries

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“…g . concentrations of lactate and potassium) may be correlated with physiological stress and trauma and likelihood of survival (Wells & Davie, ; Hoffmayer & Parsons, ; Mandelman & Farrington, 2007 a ; Brill et al , ; Mandelman & Skomal, ; Brooks et al , ; Hyatt et al , ; Marshall et al , ; Skomal & Mandelman, ; Dapp et al , 2016 a ).…”

Section: Approaches To Evaluating Discard Mortalitymentioning

confidence: 99%

A review of capture and post‐release mortality of elasmobranchs

Ellis

Phillips

Poisson

2016

Journal of Fish Biology

121

108

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There is a need to better understand the survivorship of discarded fishes, both for commercial stocks and species of conservation concern. Within European waters, the landing obligations that are currently being phased in as part of the European Union's reformed common fisheries policy means that an increasing number of fish stocks, with certain exceptions, should not be discarded unless it can be demonstrated that there is a high probability of survival. This study reviews the various approaches that have been used to examine the discard survival of elasmobranchs, both in terms of at-vessel mortality (AVM) and post-release mortality (PRM), with relevant findings summarized for both the main types of fishing gear used and by taxonomic group. Discard survival varies with a range of biological attributes (species, size, sex and mode of gill ventilation) as well as the range of factors associated with capture (e.g. gear type, soak time, catch mass and composition, handling practices and the degree of exposure to air and any associated change in ambient temperature). In general, demersal species with buccal-pump ventilation have a higher survival than obligate ram ventilators. Several studies have indicated that females may have a higher survival than males. Certain taxa (including hammerhead sharks Sphyrna spp. and thresher sharks Alopias spp.) may be particularly prone to higher rates of mortality when caught.

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Effects of acute and chronic hypoxia on acid–base regulation, hematology, ion, and osmoregulation of juvenile American paddlefish

Aboagye

Allen

2017

J Comp Physiol B

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Despite the increasing prevalence of hypoxia in natural habitats occupied by the American paddlefish, basal bony fish, and ram ventilator, information about its response to hypoxia is scarce. To understand the physiological and biochemical responses of juvenile paddlefish (~150 g) to acute (<24 h) and chronic hypoxia (≥24 h), blood oxygen transport, blood acid-base balance, and metabolic stress were evaluated under four different partial pressures of oxygen [pO; normoxia (148 mmHg), mild hypoxia (89 mmHg), moderate hypoxia (59 mmHg), and extreme hypoxia (36 mmHg)], all at 21 °C. Arterial blood samples were collected from paddlefish after they had been exposed to treatments for 0.25, 2, 6, 24, and 72 h, and analyzed for hematocrit, pO, total oxygen content, oxygen saturation, pCO, pH, hemoglobin, Na, K, Ca, Cl, glucose, and lactate. Mild hypoxia only caused a reduction in blood pO and oxygen saturation. Both acute and chronic moderate and extreme hypoxia caused a decrease in blood pH, pO, total oxygen content, plasma Na, and Cl at all time points. Acute moderate and extreme hypoxia resulted in an increase in blood pCO, plasma glucose, lactate, and hematocrit. Chronic exposure to moderate hypoxia resulted in an increase in plasma lactate, red blood cell count, and hemoglobin. This study shows that paddlefish are able to physiologically compensate for mild hypoxia, but exhibit secondary stress responses and are unable to return to homeostasis when exposed to both acute and chronic moderate hypoxia, and die after 3-8 h of extreme hypoxia.

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Moving from Measuring to Predicting Bycatch Mortality: Predicting the Capture Condition of a Longline-Caught Pelagic Shark

Cited by 26 publications

References 36 publications

Meta‐analysis of post‐release fishing mortality in apex predatory pelagic sharks and white marlin

Meta‐analysis of post‐release fishing mortality in apex predatory pelagic sharks and white marlin

A review of capture and post‐release mortality of elasmobranchs

Effects of acute and chronic hypoxia on acid–base regulation, hematology, ion, and osmoregulation of juvenile American paddlefish

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