@article{fdi:010065490,
  title = {{G}hosts of thermal past : reef fish exposed to historic high temperatures have heightened stress response to further stressors},
  author = {{M}ills, {S}. {C}. and {B}eldade, {R}. and {C}habanet, {P}ascale and {B}igot, {L}. and {O}'{D}onnell, {J}. {L}. and {B}ernardi, {G}.},
  editor = {},
  language = {{ENG}},
  abstract = {{I}ndividual exposure to stressors can induce changes in physiological stress responses through modulation of the hypothalamic-pituitary-interrenal ({HPI}) axis. {D}espite theoretical predictions, little is known about how individuals will respond to unpredictable short-lived stressors, such as thermal events. {W}e examine the primary neuroendocrine response of coral reef fish populations from the {AZ}les {E}parses rarely exposed to anthropogenic stress, but that experienced different thermal histories. {S}kunk anemonefish, {A}mphiprion akallopisos, showed different cortisol responses to a generic stressor between islands, but not along a latitudinal gradient. {T}hose populations previously exposed to higher maximum temperatures showed greater responses of their {HPI} axis. {A}rchive data reveal thermal stressor events occur every 1.92-6 yr, suggesting that modifications to the {HPI} axis could be adaptive. {O}ur results highlight the potential for adaptation of the {HPI} axis in coral reef fish in response to a climate-induced thermal stressor.},
  keywords = {{C}limate change ; {P}henotypic plasticity ; {HPI} axis ; {T}hermal stressor ; {C}ortisol ; {A}cclimation ; {OCEAN} {INDIEN} ; {MOZAMBIQUE} {CANAL} ; {GLORIEUSES} {ILE} ; {JUAN} {DE} {NOVA} {ILE} ; {EUROPA} {ILE}},
  booktitle = {},
  journal = {{C}oral {R}eefs},
  volume = {34},
  numero = {4},
  pages = {1255--1260},
  ISSN = {0722-4028},
  year = {2015},
  DOI = {10.1007/s00338-015-1333-8},
  URL = {https://www.documentation.ird.fr/hor/fdi:010065490},
}