Rapp. Comm. int. Mer Médit., 36,2001
326
Introduction
Selection grids are now widely used in many commercial fisheries,
for both fish and crustacean sorting. They are seen to deliver tangible
benefits to conservation and sustainable fisheries development (1,2).
The aim of this work was to adapt the grid technology developed in the
North Sea fisheries to deal with the specific discard problems associ-
ated with the Greek fisheries. Catch comparisons were undertake in
order to test and to prove the performance of the western European
trawl with the use of a selective grid and two codends in the conditions
of Aegean Sea. The purpose was to evaluate the selectivity of the three
grids used in the sea trials.
Materials and methods
The grids were manufactured from a semi-?exible polymer and
positioned at the front of the extension. The extension of the net had a
separator panel and this divides into two codends, the lower and the
upper being manufactured from 30mm netting. The grids have the fol-
lowing characteristics : 800mm wide, 850mm length, bar spacing
25/30/35mm and gap 150/200mm. With the grid 35mm/200mm, a net-
ting de?ector in the shape of funnel was placed in order to “guide” the
catch to the base of the grid, making easier for the crustaceans
(Norway lobster and shrimp) to access the gap of the grid.
Two sea trials with a commercial trawler were effectuated in the
North Aegean Sea to test the selective grid devices. The vessel used
operates a single otter trawl. The first sea trials (A) took place from 8-
13 May 2000. Two primary grids (25mm/200mm and 30mm/150mm)
were used for fish/Norway lobster selection. The second sea trials (B)
took place from 18-23 September 2000, and we use a different grid
(35mm/200mm). At the end of each haul, the nets and the cod-ends
were taken on board. After the cod-ends were emptied, the catches
were separated into species level.
Results
A total of 12 hauls were carried out during the first sea trials (A), at
depths ranging from 338-460m. During the second trials (B), 10 hauls
were carried out. Depths of the hauls range from 106-400m with mean
depth 231m, considerable shallower than the sampling in May.
Because of the shallower depth, we found differences in species com-
position and abundances in relation to the previous sampling.
With the first grid (25mm/200mm), five hauls were completed. A
total of 1165 specimens of Norway lobster were caught with this grid,
and the percent of retention in the lower cod end were from 70,5-
75,9% (mean 73,7%). With the second grid 30mm/150mm, six valid
hauls were completed and were fished 1066 specimens of Norway lob-
ster.The percent of retention in the lower cod end were from 58,6-
79,5% (mean 73,3%). During the second sea trials, nine hauls have
been measured using the grid 35mm/200mm. Only 238 individuals of
Norway lobster were fished and the percent of retention in the lower
cod end ranged from 66,7-91,7% (mean 83,2%). Generally, the vast
majority of Norway lobster was found in the lower codends of all three
grids (73,3-83,2% of the total catch). In the upper codend were found
fewer specimens and measured more than 50mm of carapace length as
seen in Figure 1.
The size selection of Norway lobster seems to be different between
the upper and lower cod-end as a result of the selection made by the
grids. A significant difference was found in the mean carapace length
of Norway lobster between the upper and lower cod-end (1-way
ANOVA test, p<0,05). Moreover, the higher mean length was found in
the upper codend (42,5mm) while in the lower was smaller (35,2mm).
The results obtained for the shrimp Parapeneus longirostrisshow
that the average retention in the lower codend was varied from 51,4%
(25mm/200mm), to 48,1% (30mm/150mm) and to 70,1%
(35mm/200mm). Furthermore, the mean carapace length of shrimp
Figure 1.
was found to be statistically different for the upper and lower cod-end
in all cases (p<0,05).
HakeMerluccius merlucciuswas separated quite acceptable with
the use of the grids. The average percent of retention in the upper
codend was from 62,1% (25mm/200mm) to 72,2% (30mm/150mm).
At the second sea trials, the great majority of fish with TL<200mm
(N=1052) was found mainly in the lower codend (mean retention in
the upper codend was 31%), while the bigger sizes (TL>200mm,
N=361) are located mainly in the upper codend (81% percent reten-
tion). The selection pattern of hake over the length classes was found
to be statistically different for the upper and lower codend (p<0,05).
Discussion
In theory and based on the experience gained in the North Sea (1),
with the use of selective grids is possible the separation of fish from
Norway lobster. From our results it seems that fish try to avoid the grid
and lead to the upper codend, while Norway lobster pass through the
gap and through the bars of the grid and direct to the lower codend.
The percent of Norway lobster that remains in the lower codend
arrives to 92% (haul 5B) - ranged from 59-100% with a mean of 77%
at all hauls - a quite remarkable figure for conditions of real fishery.
The size classes of Norway lobster are selected with the grid and only
few and big individuals are not selected and go toward the upper
codend, together with the fish. The other target as P. longirostrisand
M. merlucciusshow a more complex pattern of selectivity; small hake
are directed with priority towards the lower codend (69%), while big-
ger fish are mainly found in the upper codend (81%). Finally, the
shrimp was separated with the grid (30%-70% in the upper and lower
codend respectively) but not size selection was achieved.
Actually the conclusion of the two sea trials in N. Aegean Sea is that
the separation of Norway lobster and fish is quite feasible with the use
of selective devises as the one used in the sea trials of the project.
References
1.Valdemarsen J.W., Ulmestrand M., and West C.W. 1996. Experiments
on size-selectivity for Norway lobster using sorting grids aft trawl belly.
ICES Council Meeting Papers, pp 82-87
2.Wienbeck H., 1998. First trials on the selection of a sorting grid in
commercial fishery for brown shrimps. Anim. Res. Dev., vol 47, pp 71-
78.
INTRODUCING SELECTIVE DEVICES IN THE GREEK TRAWL FISHERIES
K. Sophronidis
1
*, A. Kallianiotis
1
and C. Radcliffe
2
1
Fisheries Research Institute -National Agricultural Research Foundation, Kavala, Greece - fri@otenet.gr
2
University of Newcastle upon Tyne, Dove Marine Laboratory, Cullercoats, Tyne & Wear, U.K.
Abstract
The project Netrasel aimed to test a grid system to separate fish from Norway lobster in the Greek bottom trawl fishery.The results show
that the grid was proved to be functional and selection of target species and sizes was occurred. The introduction of grids in the commercial
trawl fishery should help in the reduction of discard problem in multispecies fisheries.
Keywords : Aegean Sea, Eastern Mediterranean, trawl surveys, Teleostei, Decapoda.
