Modelling the community size-spectrum: recent developments and new directions
Résumé
The regularity of the community size-spectrum, i.e., the fact that the total ecosystem biomass contained
in logarithmically equal body size intervals remains constant, is a striking characteristic of marine ecosystems.
Community size-spectrum models exploit this feature to represent marine ecosystems with two
measures: the slope and the intercept (height) of the community spectrum. Size-spectrum models have
gain popularity over time to model the properties of fish communities, whether to investigate the impact
of fishing, or embedded into end-to-end models to investigate the impact of climate. We review the
main features and state of the art developments in the domain of continuous size-spectrum models. The
community spectrum emerges from a balance between size-selective predation, growth and biomass
dissipation. Further to these basic components, reproduction and various causes of mortality have been
introduced in recent studies to increase the model’s realism or simply close the mass budget of the
spectrum. These different processes affect the stability of the spectrum and affect the predictions of the
size-spectrum models. A few models have also introduced a representation of life-history traits in the
community size-spectrum. This allows accounting for the diversity of energy pathways in food webs
and for the fact that metabolism is both size- and species-specific. The community-level metabolism
therefore depends on the species composition of the community. The size-spectrum’s regularity at the
community level can serve as a conceptual basis for building theories of marine ecosystems’ functioning.
It is also used as indicator of anthropogenic and natural disturbances. The mechanistic nature of sizespectrum
models as well as their simple and aggregated representation of complex systems makes them
good candidates as a strategic management tool. For instance, for testing the impact of different fishing
management actions or for projecting marine ecosystem’s states under various climate change scenarios.