Sea turtles and survivability in demersal trawl fisheries: Do comatose olive ridley sea turtles survive post-release?
Incidental capture of air-breathing species in fishing gear is a major source of mortality for many threatened populations. Even when individuals are discarded alive, they may not survive due to direct injury, or due to more cryptic internal physiological injury such as decompression sickness. Post-...
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| Published in: | Animal biotelemetry Vol. 6; no. 1; pp. 1 - 8 |
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| Abstract | Incidental capture of air-breathing species in fishing gear is a major source of mortality for many threatened populations. Even when individuals are discarded alive, they may not survive due to direct injury, or due to more cryptic internal physiological injury such as decompression sickness. Post-release mortality, however, can be difficult to determine. In this pilot study, we deployed survivorship pop-up archival tags (sPAT) (n = 3) for an air-breathing species, the olive ridley sea turtle (Lepidochelys olivacea), one of the first studies to do so. We found that at least two of the three turtles survived after being captured in demersal fish trawl nets and being resuscitated from a comatose state following standard UN Food and Agriculture Organization guidelines. One turtle died; however, the absence of a change in light level but continued diving activity suggested that the turtle was likely predated. Whether capture contributed to the turtle's susceptibility to predation post-release is unknown, and average tow duration during this fishing trip was similar in duration to that of a turtle that survived (1.5 h). The two surviving turtles displayed normal horizontal and vertical movements based on previous tagging studies. This study suggests that resuscitation techniques may be effective; however, additional study is necessary to increase sample sizes, and to determine the severity of decompression sickness across different levels of activity and in other fishing gears. This will result in better population mortality estimates, as well as highlight techniques to increase post-release survivorship. Keywords: Post-release mortality, Trawl fishing, Bycatch, Resuscitation, Decompression sickness, Olive ridley sea turtle |
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| AbstractList | Abstract Incidental capture of air-breathing species in fishing gear is a major source of mortality for many threatened populations. Even when individuals are discarded alive, they may not survive due to direct injury, or due to more cryptic internal physiological injury such as decompression sickness. Post-release mortality, however, can be difficult to determine. In this pilot study, we deployed survivorship pop-up archival tags (sPAT) (n = 3) for an air-breathing species, the olive ridley sea turtle (Lepidochelys olivacea), one of the first studies to do so. We found that at least two of the three turtles survived after being captured in demersal fish trawl nets and being resuscitated from a comatose state following standard UN Food and Agriculture Organization guidelines. One turtle died; however, the absence of a change in light level but continued diving activity suggested that the turtle was likely predated. Whether capture contributed to the turtle’s susceptibility to predation post-release is unknown, and average tow duration during this fishing trip was similar in duration to that of a turtle that survived (1.5 h). The two surviving turtles displayed normal horizontal and vertical movements based on previous tagging studies. This study suggests that resuscitation techniques may be effective; however, additional study is necessary to increase sample sizes, and to determine the severity of decompression sickness across different levels of activity and in other fishing gears. This will result in better population mortality estimates, as well as highlight techniques to increase post-release survivorship. Incidental capture of air-breathing species in fishing gear is a major source of mortality for many threatened populations. Even when individuals are discarded alive, they may not survive due to direct injury, or due to more cryptic internal physiological injury such as decompression sickness. Post-release mortality, however, can be difficult to determine. In this pilot study, we deployed survivorship pop-up archival tags (sPAT) (n = 3) for an air-breathing species, the olive ridley sea turtle (Lepidochelys olivacea), one of the first studies to do so. We found that at least two of the three turtles survived after being captured in demersal fish trawl nets and being resuscitated from a comatose state following standard UN Food and Agriculture Organization guidelines. One turtle died; however, the absence of a change in light level but continued diving activity suggested that the turtle was likely predated. Whether capture contributed to the turtle’s susceptibility to predation post-release is unknown, and average tow duration during this fishing trip was similar in duration to that of a turtle that survived (1.5 h). The two surviving turtles displayed normal horizontal and vertical movements based on previous tagging studies. This study suggests that resuscitation techniques may be effective; however, additional study is necessary to increase sample sizes, and to determine the severity of decompression sickness across different levels of activity and in other fishing gears. This will result in better population mortality estimates, as well as highlight techniques to increase post-release survivorship. Incidental capture of air-breathing species in fishing gear is a major source of mortality for many threatened populations. Even when individuals are discarded alive, they may not survive due to direct injury, or due to more cryptic internal physiological injury such as decompression sickness. Post-release mortality, however, can be difficult to determine. In this pilot study, we deployed survivorship pop-up archival tags (sPAT) (n = 3) for an air-breathing species, the olive ridley sea turtle (Lepidochelys olivacea), one of the first studies to do so. We found that at least two of the three turtles survived after being captured in demersal fish trawl nets and being resuscitated from a comatose state following standard UN Food and Agriculture Organization guidelines. One turtle died; however, the absence of a change in light level but continued diving activity suggested that the turtle was likely predated. Whether capture contributed to the turtle's susceptibility to predation post-release is unknown, and average tow duration during this fishing trip was similar in duration to that of a turtle that survived (1.5 h). The two surviving turtles displayed normal horizontal and vertical movements based on previous tagging studies. This study suggests that resuscitation techniques may be effective; however, additional study is necessary to increase sample sizes, and to determine the severity of decompression sickness across different levels of activity and in other fishing gears. This will result in better population mortality estimates, as well as highlight techniques to increase post-release survivorship. Keywords: Post-release mortality, Trawl fishing, Bycatch, Resuscitation, Decompression sickness, Olive ridley sea turtle |
| ArticleNumber | 11 |
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| Author | Abitsi, Gaspard Chartrain, Emmanuel Nguema, Jean Noel Bibang Bi Makanga, Felicien Mavoungou Agamboue, Pierre Didier Manfoumbi, Jean Churley Gnandji, Micheline Schummer Aboro, Marie Pierre Formia, Angela Witt, Matthew J Oliwina, Carmen Karen Kouerey Maxwell, Sara M Mabert, Brice Didier Koumba Sounguet, Guy-Philippe Boussamba, François Nzegoue, Jacob Asseko, Georges Mba |
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| Cites_doi | 10.1073/pnas.1318960111 10.1093/conphys/cov044 10.1016/j.biocon.2014.01.020 10.1038/s41598-017-02819-5 10.1098/rspb.2011.2088 10.1098/rsbl.2015.0607 10.2193/2006-448 10.3354/meps262305 10.2307/1939225 10.1111/j.1365-2656.2006.01181.x 10.1016/j.fishres.2016.11.011 10.3354/meps11073 10.1186/s40317-017-0143-x 10.1016/j.biocon.2009.03.009 10.3354/esr00625 10.2193/2008-472 10.1016/S0025-326X(00)00111-9 10.1111/j.1365-2400.2007.00528.x 10.3354/dao02790 10.1093/conphys/cou048 10.3354/meps323253 10.3354/meps09152 10.1371/journal.pone.0019905 10.1002/aqc.2396 10.3354/esr00305 10.1139/z00-140 10.1007/s10531-017-1367-z 10.3354/meps329239 10.3354/esr003001 10.1002/aqc.2641 10.1111/jfb.12148 10.3389/fmars.2017.00312 10.2307/1941948 10.1016/j.biocon.2015.05.008 |
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| SubjectTerms | Aerial surveying Agricultural associations Bycatch Caretta caretta Chelonia mydas Coma Decompression Decompression sickness Dermochelys coriacea Diving Eretmochelys imbricata Fisheries Fishing Fishing (Recreation) Fishing equipment Fishing tackle Lepidochelys kempii Lepidochelys olivacea Metabolism Mortality Olive ridley sea turtle Physiology Post-release mortality Predation Respiration Resuscitation Sea turtles Survival Trawl fishing Trawling |
| Title | Sea turtles and survivability in demersal trawl fisheries: Do comatose olive ridley sea turtles survive post-release? |
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