Parouffe A., Garcon V., Dewitte Boris, Paulmier Aurélien, Montes I., Parada C., Mecho A., Veliz D. (2023). Evaluating future climate change exposure of marine habitat in the South East Pacific based on metabolic constraints. Frontiers in Marine Science, 9, p. 1055875 [17 p.].
Titre du document
Evaluating future climate change exposure of marine habitat in the South East Pacific based on metabolic constraints
Parouffe A., Garcon V., Dewitte Boris, Paulmier Aurélien, Montes I., Parada C., Mecho A., Veliz D.
Source
Frontiers in Marine Science, 2023,
9, p. 1055875 [17 p.]
IntroductionOn-going climate change is now recognized to yield physiological stresses on marine species, with potentially detrimental effects on ecosystems. Here, we evaluate the prospect of using climate velocities (CV) of the metabolic index (phi) for assessing changes in habitat in the South East Pacific. MethodsOur approach is based on a species with mean ecophysiotype (i.e. model species) and the use of a global Earth System Model simulation (CESM-LE) under RCP 8.5 scenario. The SEP is chosen as a case study as it hosts an Oxygen Minimum Zone and seamounts systems sustaining local communities through artisanal fisheries. Results and DiscussionOur results indicate that CV phi pattern is mainly constrained by the oxygen distribution and that its sign is affected by contrasting oxygen trends (including a re-oxygenation in the upper OMZ) and warming. We further show that CV phi is weakly dependent on physiological traits composing phi, which conveys to this metrics some value for inferring the projected mean displacement and potential changes in viability of metabolic habitat in a region where physiological data are scarce. Based on sensitivity experiments to physiological traits and natural variability, we propose a general method for inferring broad areas of climate change exposure regardless of species-specific phi. We show in particular that for the model used here, the upper OMZ region can be considered a "safe" area for the species with ecophysiotype close to that of 71 species used to derive the model species. Limitations of the approach and perspectives of this work are also discussed.
Plan de classement
Sciences du milieu [021]
;
Limnologie physique / Océanographie physique [032]
