@article{fdi:010078766,
  title = {{E}ffects of hypoxia on metabolic functions in marine organisms : observed patterns and modelling assumptions within the context of {D}ynamic {E}nergy {B}udget ({DEB}) theory},
  author = {{T}homas, {Y}oann and {F}lye-{S}ainte-{M}arie, {J}. and {C}habot, {D}. and {A}guirre-{V}elarde, {A}. and {M}arques, {G}.{M}. and {P}ecquerie, {L}aure},
  editor = {},
  language = {{ENG}},
  abstract = {{H}ypoxia is a decrease in dissolved oxygen that causes physiological disturbances in marinefishes and invertebrates, including reduced mobility, growth rate and reproductive success, altered phenology and increased vulnerability to diseases. {U}nder pressure from global changes such as warming or eutrophication, ocean and coastal ecosystems worldwide are becoming less oxygenated. {I}n order to better understand the consequences of hypoxia on marine systems, there is a need for predicting hypoxia-induced changes from individual organisms to populations. {B}y combining the effect of several stressors on species metabolic performances and life-history traits across their full life-cycle, the {D}ynamic {E}nergy {B}udget ({DEB}) theory offers a suitable framework for studying the consequences of hypoxia on marine organisms and to envision an upscaling of these effects at population level through individual-based modelling approaches. {H}ere, we propose a set of stylized biological facts which give a broad generalization of the effects of hypoxia on metabolic functions based on empiricalfindings. {W}e used these stylized facts to derive assumptions on how to incorporate the effects of hypoxia on marine organisms in the framework of the {DEB} theory. {W}e then validate some of these assumptions on marine species for which experimental datasets under hypoxic conditions and {DEB} parameters were available. {W}e discuss the main issues that need to be dealt with, such as the various time-scales, ontogenic responses and multi-stressor effects which appear now as important targets of investigation for studying the effect of hypoxia on marine organisms.},
  keywords = {},
  booktitle = {},
  journal = {{J}ournal of {S}ea {R}esearch},
  volume = {143},
  numero = {},
  pages = {231--242},
  ISSN = {1385-1101},
  year = {2019},
  DOI = {10.1016/j.seares.2018.05.001},
  URL = {https://www.documentation.ird.fr/hor/fdi:010078766},
}