CADIC   02618
CENTRO AUSTRAL DE INVESTIGACIONES CIENTIFICAS
Unidad Ejecutora - UE
artículos
Título:
Mediated Modeling of the Impacts of Enhanced UV-B
Autor/es:
MARJAN VAN DEN BELT; OSCAR A. BIANCIOTTO; ROBERT COSTANZA; SERGE DEMERS; SUSANA DIAZ; GUSTAVO A. FERREYRA; EVAMARIA W. KOCH; FERNANDO R. MOMO; MARIA VERNET
Revista:
PHOTOCHEMISTRY AND PHOTOBIOLOGY
Editorial:
American Society for Photobiology
Referencias:
Año: 2006 vol. 82 p. 865 - 877
ISSN:
0031-8655
Resumen:
This article describes the use of group model building to
facilitate interaction with stakeholders, synthesize research
results and assist in the development of hypotheses about
climate change at the global level in relation to UV-B radiation
and ecosystem service valuation. The objective was to provide
a platform for integration of the various research components
within a multidisciplinary research project as a basis for interaction
with stakeholders with backgrounds in areas other
than science. An integrated summary of the scientific findings,
along with stakeholder input, was intended to produce a bridge
between science and policymaking. We used a mediated modeling
approach that was implemented as a pilot project in
Ushuaia, Argentina. The investigation was divided into two
participatory workshops: data gathering and model evaluation.
Scientists and the local stakeholders supported the
valuation of ecosystem services as a useful common denominator
for integrating the various scientific results. The
concept of economic impacts in aquatic and marsh systems
was represented by values for ecosystem services altered by
UV-B radiation. In addition, direct local socioeconomic
impacts of enhanced UV-B radiation were modeled, using
data from Ushuaia. We worked with 5 global latitudinal
regions, focusing on net primary production and biomass for
the marine system and on 3 plant species for the marsh system.
Ecosystem service values were calculated for both sectors. The
synthesis model reflects the conclusions from the literature
and from experimental research at the global level. UV-B is
not a significant stress for the marshes, relative to the potential
impact of increases in the sea level. Enhanced UV-B favors
microbial dynamics in marine systems that could cause a
significant shift from primary producers to bacteria at the
community level. In addition, synergetic effects of UV-B and
certain pollutants potentiate the shift to heterotrophs. This may
impact the oceanic carbon cycle by increasing the ratio of respiratory
to photosynthetic organisms in surface waters and,
thus, the role of the ocean as a carbon sink for atmosphericCO2.
In summary, although changes in the marine sector due to
anthropogenic influences may affect global climate change,
marshes are expected to primarily be affected by climate change.