Rapp. Comm. int. Mer Médit., 36,2001
280
Introduction
Aristaeomorpha foliaceaandAristeus antennatusare commercially
very important decapods in the Western and Central Mediterranean.
However, they are almost unknown in the Eastern Mediterranean and
only scarce data exist on their distribution [1, 2, 3] and biology [3] in
the Greek waters. The present work aims to study the geographical and
bathymetrical distribution of the two species in the Greek waters of the
North Ionian Sea.
Material and methods
Three seasonal surveys (April, July and September 2000) were car-
ried out along the Greek coasts of the North Ionian Sea, between
Othoni Island and the Island of Zakynthos, (Fig. 1a, b) in depths rang-
ing from 300 to 1200 m. Stratified sampling was used and a total of 60
hauls were carried out during each survey.A commercial 159 tons ves-
sel, with 923 Hp engine was hired, equipped with a trawl of 40 mm
stretched mesh size in the cod-end. 13426 and 1476 specimens of A.
foliaceaandA. antennatus, respectively, were sexed, measured (CL,
mm) and weighted (gr).
Results and discussion
Aristaeomorpha foliaceawas found for first time in important quan-
tities in all the experimental surveys (289-259 N/h). A. antennatuswas
also caught for first time in the study area but in lower numbers (50-
25 N/h). The presence of both species showed a spatial continuity in
all the study area, however, their abundance picked in some of the
sampling stations (Fig. 1a, b). This significantly lower abundance of A.
antennatuscomparing to A. foliaceahas been found also in the
Sicilian Channel [4], while in the Italian Ionian Sea the opposite has
been observed, attributed to different oceanographic and ecological
factors [5].
A. foliaceaand A. antennatuswere found in depths ranging from 487
to 1047 m. and from 504 to 1171 m, respective
l
y. A. foliaceawas more
a
bundant in the depth zone 500-700 m, whereas the abundance of A
.
a
n
t
e
n
n
a
t
u
sdid not differ significantly in the zones 500-700 and 700-
900 m (Kruskal-Wallis test, P=0.38). Both species presented very low
values in depths >900 m (Fig. 2a, b). Small specimens (<30 mm CL)
of A. foliaceaappeared almost ex
c
l
u
s
ively in the depth zone 500-700
m., although some of them were also found in depths <500 m. (Fig. 2a).
L
a
rger individuals (>30 mm CL) appeared in both depth zones, how-
eve
r, they were very abundant between 500-700 m. A. antennatus s
p
e
c-
imens were found in three depth zones (500-700, 700-900, >900 m) bu
t
in very low numbers in depths >900 m (Fig. 2b). Large indiv
i
d
u
a
l
s
(>45 mm CL) were more frequent from 500 to 700 m.
The examination of the
length frequency distribution
in relation to depth for A. foli-
aceadid not show differences
among the three sampling
periods. Recruitment wa
s
observed mainly in April, as
also mentioned in the Italian
Ionian Sea [5]. A slight dis-
placement of large individu-
als (> 30 CL mm) from the
shallower depth zone to the
deeper one was observed in
July.This movement to the
deeper grounds in summer,
during the spawning period,
was also observed in the
Sardinian waters [6]. In A.
antennatus, a more clear sea-
sonal mobility pattern wa
s
evident during the three sur-
veys. The main bulk of the
population moved from the
s
h
a
l
l
ower depth stratum in
April to the deeper one in July and the opposite from July to
September.This is not in fully agreement with the distribution pattern
of the species in the W. Mediterranean. In this area the species is found
in deeper waters in winter-spring whereas in the shallower in autumn
[7].
Red shrimp species were found in important quantities in the Greek
Ionian Sea, fact hopeful for the development of deep-water fishery in
Greece. A more detailed investigation on the biology of the two red
shrimps in relation to environmental factors would improve our
knowledge on their distribution pattern in the study area.
References
1. Anonymus, 1988. Developing deep-water fisheries : data for their
assessment and for understanding their interaction with and impact on a
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AIR
Project CT 95-0655,
Final Report, pp. 144.
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of the red shrimp, Aristaeomorpha foliacea, in the Greek waters. In: 5
th
Hellenic Symposium on Oceanography and Fisheries. Volume II, pp. 87-
89.
3. Papaconstantinou C. and Kapiris K. Distribution and population
structure of the red shrimp (Aristeus antennatus) on an unexploited
fishing ground in the Greek Ionian Sea. Aquatic Living Resources (in
press).
4. Ragonese S., M. Bianchini, and Gallucci V., 1994. Growth and
mortality of the red shrimp Aristaeomorpha foliaceain the Sicilian
Channel.Crustaceana67(3) :348-361.
5. D' Onghia G., Maiorano P., Matarrese A. and Tursi A., 1998.
Distribution, biology, and population dynamics of Aristaeomorpha
foliacea(Decapoda, Natantia, Aristeidae) in the North-Western Ionian
Sea (Mediterranean Sea). Crustaceana,71(5) : 518-544.
6. Cau a., Deiana A. M. and Mura M., 1987. Ecological observations on
Aristaeomorpha foliaceain the mid-Western Mediterranean Sea.Inv.
Pesq., Barcelona, 51 (1) : 456.
7. Sarda F., Maynou F., and Tallo L., 1997. Seasonal and spatial mobility
patterns of rose shrimp Aristeus antennatusin the Western
Mediterranean: results on a long-term study.Mar. Ecol. Prog. Ser.
159:133-141.
GEOGRAPHICAL AND BATHYMETRICAL DISTRIBUTION OF ARISTAEOMORPHA FOLIACEAAND
ARISTEUS ANTENNATUS(DECAPODA, ARISTEIDAE) IN THE GREEK IONIAN SEA
K. Kapiris
1
*, A. Tursi
2
, Ch. Mytilineou
1
, S. Kavadas
1
, G. D' Onghia
2
, M.T Spedicato
2
1
National Centre for Marine Research, Hellinikon, Greece - kkapir@ncmr.gr
2
Department of Zoology, University of Bari, Italia
Abstract
Aristaeomorpha foliaceaandAristeus antennatushave been found for first time in the Eastern Mediterranean (Greek North Ionian Sea).
A total of 18.227 specimens of A. foliaceaand 1807 individuals of A. antennatuswere collected during three experimental trawl surveys
mainly in the depth range 500-900 m. The spatio-temporal distribution of both species in the study area is discussed.
Keywords : distribution, Decapoda, Deep water, Ionian Sea
Fig.1.Abundance (N/h) of A.foliacea(a) and A.antennatus(b)
in April 2000 per sampling station in the study area
Fig.2.Length frequency distribu-
tionofA
.foliacea(a)andA
.
antennatus(b)inrelationto
