Temperature Insensitivity and Behavioural Reduction of the Physiological Stress Response to Longline Capture by the Gummy Shark, Mustelus antarcticus
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{"title"=>"Temperature insensitivity and behavioural reduction of the physiological stress response to longline capture by the Gummy Shark, Mustelus antarcticus", "type"=>"journal", "authors"=>[{"first_name"=>"Leonardo", "last_name"=>"Guida", "scopus_author_id"=>"56145516200"}, {"first_name"=>"Terence I.", "last_name"=>"Walker", "scopus_author_id"=>"7202805120"}, {"first_name"=>"Richard D.", "last_name"=>"Reina", "scopus_author_id"=>"7003903422"}], "year"=>2016, "source"=>"PLoS ONE", "identifiers"=>{"issn"=>"19326203", "scopus"=>"2-s2.0-84960388586", "pmid"=>"26886126", "doi"=>"10.1371/journal.pone.0148829", "pui"=>"608829348", "sgr"=>"84960388586"}, "id"=>"ac3b136b-d026-3dab-b661-c7b38968690d", "abstract"=>"Many factors influence the physiological stress response to fisheries capture in elasmobranchs. However, the influence of sea surface temperatures (SST) and behaviour are unknown and crucial considering global fishing pressures. We investigated the effect of SST and behaviour on the physiological stress response to capture of the gummy shark, Mustelus antarcticus, and compared our results to a laboratory study using similar conditions to test whether stress responses of in situ capture are consistent with those from laboratory simulations. Capture time for 23 M. antarcticus ranged 32-241 min as measured by hook timers or time depth recorders (TDR) in SSTs ranging 12-20°C. TDR data from 13 M. antarcticus were analysed to quantify capture behaviour as the percentage of time spent moving during capture. Several physiological variables measured from blood samples obtained immediately upon the animals' landing indicated that although warmer SSTs increased metabolic rate, the stress response to capture was not exacerbated by capture duration. During capture movement occurred for an average of 10% of the time and since M. antarcticus can respire whilst stationary, restricted movement probably mitigated potential influences of increased SSTs and capture duration on the stress response. Previous laboratory findings were also shown to be indicative of in situ conditions and we thus advise that studies control for water temperature given the influence it has on variables (e.g. lactate) used to measure capture stress in elasmobranchs. We highlight the importance of seasonal water temperatures and capture behaviour when assessing the resilience to fisheries capture and the implementation of appropriate fisheries management strategies.", "link"=>"http://www.mendeley.com/research/temperature-insensitivity-behavioural-reduction-physiological-stress-response-longline-capture-gummy", "reader_count"=>16, "reader_count_by_academic_status"=>{"Unspecified"=>1, "Student > Doctoral Student"=>2, "Student > Ph. D. Student"=>4, "Student > Postgraduate"=>1, "Student > Master"=>3, "Other"=>2, "Student > Bachelor"=>3}, "reader_count_by_user_role"=>{"Unspecified"=>1, "Student > Doctoral Student"=>2, "Student > Ph. D. Student"=>4, "Student > Postgraduate"=>1, "Student > Master"=>3, "Other"=>2, "Student > Bachelor"=>3}, "reader_count_by_subject_area"=>{"Unspecified"=>1, "Environmental Science"=>2, "Agricultural and Biological Sciences"=>11, "Earth and Planetary Sciences"=>1, "Economics, Econometrics and Finance"=>1}, "reader_count_by_subdiscipline"=>{"Earth and Planetary Sciences"=>{"Earth and Planetary Sciences"=>1}, "Economics, Econometrics and Finance"=>{"Economics, Econometrics and Finance"=>1}, "Agricultural and Biological Sciences"=>{"Agricultural and Biological Sciences"=>11}, "Unspecified"=>{"Unspecified"=>1}, "Environmental Science"=>{"Environmental Science"=>2}}, "group_count"=>1}

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Figshare

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  • {"files"=>["https://ndownloader.figshare.com/files/3995416"], "description"=>"<p>Using our quantification method, capture lasted 174 min with a total of 16% and 8% total movement at the respective thresholds of 50% and 100% gangion extension.</p>", "links"=>[], "tags"=>["stress response", "Physiological Stress Response", "fisheries management strategies", "behaviour", "SST", "fishery", "sea surface temperatures", "TDR", "time depth recorders", "influence", "Mustelus antarcticus", "Previous laboratory findings"], "article_id"=>2356636, "categories"=>["Ecology", "Biological Sciences not elsewhere classified", "Inorganic Chemistry", "Science Policy"], "users"=>["Leonardo Guida", "Terence I. Walker", "Richard D. Reina"], "doi"=>"https://dx.doi.org/10.1371/journal.pone.0148829.g002", "stats"=>{"downloads"=>0, "page_views"=>0, "likes"=>0}, "figshare_url"=>"https://figshare.com/articles/Real_capture_behaviour_profile_from_a_time_depth_recorder_TDR_of_i_Mustelus_antarcticus_i_on_demersal_longline_/2356636", "title"=>"Real capture behaviour profile from a time depth recorder (TDR) of <i>Mustelus antarcticus</i> on demersal longline.", "pos_in_sequence"=>2, "defined_type"=>1, "published_date"=>"2016-02-17 11:50:31"}

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  • {"unique-ip"=>"5", "full-text"=>"5", "pdf"=>"0", "scanned-summary"=>"0", "scanned-page-browse"=>"0", "figure"=>"0", "supp-data"=>"0", "cited-by"=>"0", "year"=>"2019", "month"=>"2"}
  • {"unique-ip"=>"7", "full-text"=>"7", "pdf"=>"3", "scanned-summary"=>"0", "scanned-page-browse"=>"0", "figure"=>"0", "supp-data"=>"0", "cited-by"=>"0", "year"=>"2019", "month"=>"3"}
  • {"unique-ip"=>"5", "full-text"=>"4", "pdf"=>"1", "scanned-summary"=>"0", "scanned-page-browse"=>"0", "figure"=>"0", "supp-data"=>"0", "cited-by"=>"0", "year"=>"2019", "month"=>"4"}
  • {"unique-ip"=>"8", "full-text"=>"8", "pdf"=>"1", "scanned-summary"=>"0", "scanned-page-browse"=>"0", "figure"=>"0", "supp-data"=>"0", "cited-by"=>"0", "year"=>"2019", "month"=>"5"}

Relative Metric

{"start_date"=>"2016-01-01T00:00:00Z", "end_date"=>"2016-12-31T00:00:00Z", "subject_areas"=>[]}
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