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SEMINAR: REMINDER - Special CIMAS Seminar - Rodrigo H. Bustamante, CSIRO, TODAY at Noon, SLAB Seminar Room
| From: | Marva Loi <mloi@rsmas.miami.edu> |
| Subject: | SEMINAR: REMINDER - Special CIMAS Seminar - Rodrigo H. Bustamante, CSIRO, TODAY at Noon, SLAB Seminar Room |
| Date: | Mon, 24 Oct 2011 08:48:13 -0400 |
|
Special
CIMAS SEMINAR Rodrigo
H.
Bustamante, (presenter) Shane
P.
Griffiths, Wayne A. Rochester, CSIRO Marine and
Atmospheric Research Ecosciences Precinct Brisbane, Australia “A
Spatially-explicit
Management Strategy Evaluation Framework for the Northern
Prawn Fishery” Monday,
October
24, 2011, NOON SLAB
SEMINAR
ROOM (SA103) Science
and
Administration Building, RSMAS ABSTRACT We
present an operational spatially-explicit management simulation
framework that
addresses quantitatively multiple conservation, economics, and
fisheries
management objectives. We integrate bioeconomic stock and
ecological risk
assessment models with the affected foodweb, together with the
simulated
effects of trawling and biophysical distribution models, all
interacting in a
double‐adaptive
cycle form of a spatial management strategy evaluation framework
(sMSE). The
sMSE evaluates scenarios of static and dynamic closures and
Marine Protected
Areas (MPAs). These closures did not affect fisheries management
targets and at
current fishing effort levels, the trawling‐induced
changes are small, with little variation
across a range of performance metrics. These changes increase as
fishing effort
increases. All scenarios exhibited high spatial variability,
with most effects
on fishing‐affected
habitats. These effects varied regionally and the affected biota
showed
positive and negative changes. Depending on the management
objectives, the
scenarios can act as best, nil, and worst‐ case
scenarios for biotic group performance. For
threatened and endangered species, closures could increase and
decrease the
biomass of such taxa, largely due to movements and trophic
interactions.
Comparing across simulated scenarios, the greater the fishing
closures, the
more responses as whole and the coarser the spatial scales, the
less changes
detected. These results confirm the need for spatial information
at the same
spatial scale as the impacts. No single scenario satisfied all
or most
management objectives. This work provide a front‐end example
of the use of biophysical modelling tools
for the implementation of an ecosystem‐based
approach for the conservation management of
Australia’s marine ecosystems. -- Marva P. Loi Administrative Assistant Cooperative Institute for Marine and Atmospheric Science Rosenstiel School of Marine and Atmospheric Science University of Miami 4600 Rickenbacker Causeway Miami, FL 33149-1031 Tel: 305-421-4159 Fax: 305-421-4999 Email: mloi@rsmas.miami.edu |
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