CADIC   02618
CENTRO AUSTRAL DE INVESTIGACIONES CIENTIFICAS
Unidad Ejecutora - UE
artículos
Título:
Effects of physical disturbance on a sub-Antarctic middle intertidal bivalve assemblage
Autor/es:
CALCAGNO, J A; CURELOVICH, J.; FERNÁNDEZ, VANESA M.; THATJE S; LOVRICH, GUSTAVO A.
Revista:
MARINE BIOLOGY RESEARCH
Editorial:
TAYLOR & FRANCIS AS
Referencias:
Lugar: Londres; Año: 2012
ISSN:
1745-1000
Resumen:
We
present for the first time the vulnerability to
disturbance of a bivalve assemblage situated in the middle intertidal zone
of the Atlantic coast of the Southern South America (53º 36´S, 67º 58W). This
intertidal zone is characterized by a high level of sand movement preventing
any establishment of sessile organisms on the vertical sides of rock outcrops. The
coast is prone to potential spills from nearby hydrocarbon marine platforms,
but this benthic assemblage has been poorly studied. In February 2001, we
exposed the assemblage to two different experimental conditions: a complete
removal of bivalves and a physical disturbance and tracked its recovery during
the following 4 years. The disturbance lowered the diversity of associated
fauna and made the sediment layer trapped among bivalves disappear, which was
not restored. Mytilus chilensis was recruited into crevices or between
byssi in the following settlement season, i.e. summer 2002. The recuperation of
mussel coverage to predisturbance levels took 3 years after the total removal.
In April 2004 the size frequency
distributions, density and biomass/number ratio of M. chilensis were
similar to those at the start of the experiment. Perumytilus purpuratus recovered
more slowly than M. chilensis probably due to its slower growth rate
compared to M. chilensis and dependence on an adequate byssus matrix for
settlement. The main apparent stressor was the irruption of sand, covering the
bivalve assemblage for variable periods of time. This bivalve assemblage is
characterized by low predatory pressure and therefore we hypothesize that it is
predominantly controlled by competition for space