Changes in food web structure under scenarios of overfishing in the southern Benguela: Comparison of the Ecosim and OSMOSE modelling approaches
Authored by L J Shannon, Yunne-Jai Shin, M Travers, K Watermeyer
Date Published: 2010
DOI: 10.1016/j.jmarsys.2009.07.005
Sponsors:
European Union
French National Research Agency (ANR)
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Model Documentation:
Other Narrative
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Abstract
Ecosystem models provide a platform allowing exploration into the
possible responses of marine food webs to fishing pressure and various
potential management decisions. In this study we investigate the
particular effects of overfishing on the structure and function of the
southern Benguela food web, using two models with different underlying
assumptions: the spatialized, size-based individual-based model, OSMOSE, and the trophic mass-balance model, Ecopath with Ecosim (EwE). Starting
from the same reference state of the southern Benguela upwelling
ecosystem during the 1990s, we compare the response of the food web to
scenarios of overfishing using these two modelling approaches. A
scenario of increased fishing mortality is applied to two distinct
functional groups: i) two species of Cape hake, representing important
target predatory fish, and ii) the forage species anchovy, sardine and
redeye. In these simulations, fishing mortality on the selected
functional groups is doubled for 10 years, followed by 10 years at the
initial fishing mortality. We compare the food web states before the
increase of fishing mortality, after 10 years of overfishing and after a
further 10 years during which fishing was returned to initial levels. In
order to compare the simulated food web structures with the reference
state, and between the two modelling approaches, we use a set of trophic
indicators: the mean trophic level of the community and in catches, the
trophic pyramid (biomass per discrete trophic level), and the
predatory/forage fish biomass ratio. OSMOSE and EwE present globally
similar results for the trophic functioning of the ecosystem under
fishing pressure: the biomass of targeted species decreases whereas that
of their potential competitors increases. The reaction of distant
species is more diverse, depending on the feeding links between the
compartments. The mean trophic level of the community does not vary
enough to be used for assessing ecosystem impacts of fishing, and the
mean trophic level in the catch displays a surprising increase due to
the short period of overfishing. The trophic pyramids behave in an
unexpected way compared to trophic control theory. because at least two
food chains with different dynamics are intertwined within the food web.
We emphasize the importance of biomass information at the species level
for interpreting dynamics in aggregated indicators, and we highlight the
importance of competitive groups when looking at ecosystem functioning
under fishing disturbance. Finally, we discuss the results within the
scope of differences between models, in terms of the way they are
formulated, spatial dimensions, predation formulations and the
representation of fish life cycles. (C) 2009 Elsevier B.V. All rights
reserved.
Tags
Individual-based model
Dynamics
Ecosystem
fisheries
Size
Balance
Long-term changes
Fish community
Trophic
interactions
Catalan sea