Haematological associations in reef shark neonates

Dataset and code for analyses presented in Bouyoucos, Ian A. et al (2021) Investigating links between thermal tolerance and oxygen supply capacity in shark neonates from a hyperoxic tropical environment. Science of the Total Environment, 782. 146854.

Abstract [Related publication]: Temperature and oxygen limit the distribution of marine ectotherms. Haematological traits underlying blood-oxygen carrying capacity are thought to be correlated with thermal tolerance in certain fishes, and this relationship is hypothesised to be explained by oxygen supply capacity. We tested this hypothesis using reef shark neonates as experimental models because they live near their upper thermal limits and are physiologically sensitive to low oxygen conditions. We first described in situ associations between temperature and oxygen at the study site (Moorea, French Polynesia) and found that the habitats for reef shark neonates (Carcharhinus melanopterus and Negaprion acutidens) were hyperoxic at the maximum recorded temperatures. Next, we tested for in situ associations between thermal habitat characteristics and haematological traits of neonates. Contrary to predictions, we only demonstrated a negative association between haemoglobin concentration and maximum habitat temperatures in C. melanopterus. Next, we tested for ex situ associations between critical thermal maximum (CTMax) and haematological traits, but only demonstrated a negative association between haematocrit and CTMax in C. melanopterus. Finally, we measured critical oxygen tension (pcrit) ex situ and estimated its temperature sensitivity to predict oxygen-dependent values of CTMax. Estimated temperature sensitivity of pcrit was similar to reported values for sharks and skates, and predicted values for CTMax equalled maximum habitat temperatures. These data demonstrate unique associations between haematological traits and thermal tolerance in a reef shark that are likely not explained by oxygen supply capacity. However, a relationship between oxygen supply capacity and thermal tolerance remains to be demonstrated empirically.

See 'metadata' text file for descriptions of individual .csv files and descriptions of column headings.

Ethical approval to collect data presented herein was received from the James Cook University Animal Ethics Committee (A2089 and A2394). Permission to collect, possess, and transport sharks and shark tissues was obtained from the French Polynesia Ministere de l'Environnement (Arrete N°9524, N°5129, and N°11491).

This dataset contributes to a thesis by Ian Bouyoucos to be submitted for the degree of Doctor of Philosophy from James Cook University and Ecole Pratique des Hautes Etudes.

    Data Record Details
    Data record related to this publication Haematological associations in reef shark neonates
    Data Publication title Haematological associations in reef shark neonates
  • Description

    Dataset and code for analyses presented in Bouyoucos, Ian A. et al (2021) Investigating links between thermal tolerance and oxygen supply capacity in shark neonates from a hyperoxic tropical environment. Science of the Total Environment, 782. 146854.

    Abstract [Related publication]: Temperature and oxygen limit the distribution of marine ectotherms. Haematological traits underlying blood-oxygen carrying capacity are thought to be correlated with thermal tolerance in certain fishes, and this relationship is hypothesised to be explained by oxygen supply capacity. We tested this hypothesis using reef shark neonates as experimental models because they live near their upper thermal limits and are physiologically sensitive to low oxygen conditions. We first described in situ associations between temperature and oxygen at the study site (Moorea, French Polynesia) and found that the habitats for reef shark neonates (Carcharhinus melanopterus and Negaprion acutidens) were hyperoxic at the maximum recorded temperatures. Next, we tested for in situ associations between thermal habitat characteristics and haematological traits of neonates. Contrary to predictions, we only demonstrated a negative association between haemoglobin concentration and maximum habitat temperatures in C. melanopterus. Next, we tested for ex situ associations between critical thermal maximum (CTMax) and haematological traits, but only demonstrated a negative association between haematocrit and CTMax in C. melanopterus. Finally, we measured critical oxygen tension (pcrit) ex situ and estimated its temperature sensitivity to predict oxygen-dependent values of CTMax. Estimated temperature sensitivity of pcrit was similar to reported values for sharks and skates, and predicted values for CTMax equalled maximum habitat temperatures. These data demonstrate unique associations between haematological traits and thermal tolerance in a reef shark that are likely not explained by oxygen supply capacity. However, a relationship between oxygen supply capacity and thermal tolerance remains to be demonstrated empirically.

    See 'metadata' text file for descriptions of individual .csv files and descriptions of column headings.

    Ethical approval to collect data presented herein was received from the James Cook University Animal Ethics Committee (A2089 and A2394). Permission to collect, possess, and transport sharks and shark tissues was obtained from the French Polynesia Ministere de l'Environnement (Arrete N°9524, N°5129, and N°11491).

    This dataset contributes to a thesis by Ian Bouyoucos to be submitted for the degree of Doctor of Philosophy from James Cook University and Ecole Pratique des Hautes Etudes.

  • Other Descriptors
    • Descriptor
    • Descriptor type
  • Data type dataset
  • Keywords
    • Critical thermal maximum
    • haematocrit
    • haemoglobin
    • hypoxia tolerance
    • oxygen- and capacity-limited thermal tolerance
    • shark nursery area
    • ARC Centre of Excellence for Coral Reef Studies
  • Funding source
  • Research grant(s)/Scheme name(s)
    • -
  • Research themes
    Tropical Ecosystems, Conservation and Climate Change
    FoR Codes (*)
    SEO Codes
    Specify spatial or temporal setting of the data
    Temporal (time) coverage
  • Start Date 2015/11/01
  • End Date 2020/03/01
  • Time Period
    Spatial (location) coverage
  • Locations
    Data Locations

    Type Location Notes
    Attachment bouyoucos_et_al_metadata.txt See 'bouyoucos_et_al_metadata.txt' for a description of .csv files and column headings.
    Attachment bouyoucos_et_al_obj1_temp.csv See 'bouyoucos_et_al_metadata.txt' for a description of .csv files and column headings.
    Attachment bouyoucos_et_al_obj1_temp_o2.csv See 'bouyoucos_et_al_metadata.txt' for a description of .csv files and column headings.
    Attachment bouyoucos_et_al_obj2_cm.csv See 'bouyoucos_et_al_metadata.txt' for a description of .csv files and column headings.
    Attachment bouyoucos_et_al_obj2_na.csv See 'bouyoucos_et_al_metadata.txt' for a description of .csv files and column headings.
    Attachment bouyoucos_et_al_obj3_cm.csv See 'bouyoucos_et_al_metadata.txt' for a description of .csv files and column headings.
    Attachment bouyoucos_et_al_obj3_na.csv See 'bouyoucos_et_al_metadata.txt' for a description of .csv files and column headings.
    The Data Manager is: Ian Bouyoucos
    College or Centre
    Access conditions Open: free access under license
  • Alternative access conditions
  • Data record size 7 files: 10.5 MB
  • Related publications
      Name Bouyoucos, Ian, Trujillo, Jose E., Weideli, Ornella C., Nakamura, Nao, Mourier, Johann, Planes, Serge, Simpfendorfer, Colin A., and Rummer, Jodie L. (2021) Investigating links between thermal tolerance and oxygen supply capacity in shark neonates from a hyperoxic tropical environment. Science of the Total Environment, 782: 146854.
    • URL https://doi.org/10.1016/j.scitotenv.2021.146854
    • Notes
  • Related websites
      Name
    • URL
    • Notes
  • Related metadata (including standards, codebooks, vocabularies, thesauri, ontologies)
      Name
    • URL
    • Notes
  • Related data
      Name
    • URL
    • Notes
  • Related services
      Name
    • URL
    • Notes
    Citation Bouyoucos, Ian (2020): Haematological associations in reef shark neonates . James Cook University. https://doi.org/10.25903/JX5T-8794