Individual variation in aerobic scope affects modeled vertical foraging migration in Atlantic cod Gadhus morhua, but only in moderate hypoxia
Authored by Deurs Mikael van, Jane W Behrens, Jon C Svendsen, Stefan Neuenfeldt, Niels G Andersen
Date Published: 2018
DOI: 10.3354/meps12629
Sponsors:
Danish Council of Strategic Research
Carlsberg Foundation
Platforms:
No platforms listed
Model Documentation:
Other Narrative
Mathematical description
Model Code URLs:
Model code not found
Abstract
Vertical migration is the most widespread migration in the aquatic
world, yet the mechanisms limiting the extent of this behavior are
largely unknown. In the Baltic Sea, some Atlantic cod Gadus morhua
perform vertical foraging migrations into severely hypoxic demersal
zones where aerobic metabolism is insufficient to cover energy
requirements. After foraging, the fish return to better oxygenated
waters for physiological recovery and digestion. To test the influence
of phenotypic variation in aerobic scope (AS; the difference between the
maximum and the minimum metabolic rate) on the capacity to migrate into
severely hypoxic zones, we incorporated AS into a state-dependent
individual-based model simulating vertical foraging migrations of G.
morhua. We found little effect of individual variation in AS on the
capacity for vertical migration when the zone used for physiological
recovery was normoxic. In contrast, when there was moderate hypoxia
(30\% air saturation, O-2sat) in the zone used for physiological
recovery, the high AS phenotype had a clear advantage because it could
forage 3-4 times longer in the severely hypoxic (16\% O-2sat, i.e. below
the threshold for aerobic metabolism of the species) demersal zone
compared to the low AS phenotype. Thus, phenotypic variation in AS is
only important when there is moderate hypoxia in the zone used for
physiological recovery, suggesting that the influence of AS variation on
the capacity for vertical migration is context dependent. We propose
that elevated AS may be evolutionarily favorable when hypoxia prevails
in the water column.
Tags
Individual-based model
behavior
Bioenergetics
Hypoxia
Temperature
Gadus-morhua
Rainbow-trout
Baltic sea
Physiology
Swimming performance
Aerobic scope
Gadus morhua
Posthypoxic oxygen-consumption
Marine teleosts
Metabolic scope
Oncorhynchus