Cr. Pitcher et al., Implications of the effects of trawling on sessile megazoobenthos on a tropical shelf in northeastern Australia, ICES J MAR, 57(5), 2000, pp. 1359-1368
We estimate the possible overall status of populations of attached seabed f
auna after 20 years of trawling in Australia's Great Barrier Reef(GBR), bas
ed on the key results of a five-year experimental study that provided an un
derstanding of faunal resilience, in terms of removal rates per trawl. The
removal rates of most seabed fauna were between 5 and 20% per trawl (range
0-40%). In attempting to estimate population status, it was also necessary
to review patterns of trawl effort intensity and add a simple model for pos
sible recovery dynamics of fauna. Large areas of the GBR are subject to tra
wling. In 1996, effort was recorded in 1300 statistical grids, each 6 x 6 m
inutes, an area equivalent to similar to 153 000 km(2). Effort was highly a
ggregated among the grids, with about 20%;, concentrated into <5% of trawle
d grounds (intensive); at the other extreme, about 20% of the effort was sp
read over about 60% of the trawled grounds (extensive). Trawling was also h
ighly aggregated at fine scales within grids; consequently a smaller area i
s actually trawled than is indicated by summing up 6 min grids. The amount
of fauna removed each year is related to the resilience of the fauna to rem
oval, the intensity of trawling, and its degree of aggregation. In lightly
trawled grids, the annual removal may have been only a low percentage, but
in the most intensively trawled grids, more than 80% of the least resilient
fauna may be removed each year. In high-effort grids, aggregated trawling
removes smaller amounts of benthos than if effort were distributed randomly
or uniformly. The average annual removal of fauna over all trawled grids d
iffers for different fauna. A total of about 4% of high-resilience fauna ma
y be removed, <similar to>8% of medium-resilience fauna, and similar to 15%
of low-resilience fauna. The overall vulnerability of fauna is a combinati
on of resilience and recovery rates. Fauna with no capacity for recovery wi
ll eventually be completely removed From all trawled areas. All fauna with
a capacity for recovery have the potential For sustaining a population leve
l in balance with the amount removed by trawling, up to certain limits. The
most vulnerable fauna may be completely removed From the 5-10% of grids th
at are trawled with >2000-3000 h of effort. More fauna will be removed from
grids with higher effort. Though 50-70% of trawled grids have been trawled
only lightly (<700-1000 h) each year, over the last 20 years there has bee
n a cumulative effect. A generalized depiction across all trawled grids is
likely, but fauna with low vulnerability may be depleted by only 3% overall
; medium vulnerability Fauna may be depleted by about 20%; and highly vulne
rable populations may be depleted by about 55% overall. Because of differen
tial vulnerability, the composition of the faunal community will be substan
tially altered in most grids, with a shift to less vulnerable species. (C)
2000 International Council for the Exploration of the Sea.