Rapp. Comm. int. Mer Médit., 36,2001
311
The DEPM has been used to evaluate the anchovy spawning biomass of the
Catalan sea in 1990 (1), Catalan Sea-Gulf of Lions in 1993 and 1994 (2),
Ligurian-NorthTyrrhenian seas in 1993 (2), North Aegean sea in 1993 (3 and
4), south-western Adriatic sea in 1994 (5), and Sicilian Channel in 1998 and
1999 (6). This communication aims to compare these estimates, identifying and
analysing the factors affecting the DEPM parameters.
Material and methods
The DEPM methodology applied in the Sicilian Channel is detailed in (7).
Bibliography provided the methodology and the DEPM parameters estimates of
the other Mediterranean regions (Table 1).
Results and discussion
The daily egg productio
n of the Sicilian Channel was the lowest observed.
Only the SW Adriatic exhibit similar values while the other regions present
greater estimates. Different methodologies can partially explain it. In the
Aegean Sea, where exceptionally greater estimates were found, oblique Bongo
tows were done instead of vertical CalVET tows, and the spawning area was not
entirely covered. Besides, different temperatures approaches were used to
assign ages to eggs in different regions (sub-surface Tª in the Aegean Sea, mean
Tª of the first 20 m or 10 m in the Catalan Sea and Sicilian Channel respective-
ly).Despite methodological differences, the Sicilian Channel stock is the less
egg productive among the analysed areas : A
1
is the smallest, PandP
1
are the
lowest and Z is the highest. Inter-annual variations in the Sicilian Channel are
also clear. In 1998 a more expanded spawning area and also a higher egg den-
sity occurred, indicating a dramatic decline in spawning intensity caused by
environmental and/or biological changes. Differences in adult parameters could
also be attributable to methodology. Different fish sampling gears were used,
and the adult sampling in the Aegean and Catalan Sea was done with commer-
cial fishing vessels restricting the sampling to commercial fishing grounds. Win
the Sicilian Channel was similar to the Catalan Sea, Catalan Sea-Gulf of Lions
(93) and Ligurian-Thyrrenian Sea. The other estimates showed greater values
indicating the regional, inter-seasonal and inter-annual variation in the size/age
structure of this Mediterranean resource. Fis strongly correlated with W.
Catalan Sea shows greater Fvalues than other regions with similar Wdue to
methodological differences. Fis calculated through the Hydrated Oocyte
Method (8), but in the Catalan Sea it followed (9). More striking differences not
related with the methodology exist. At similar weights, Fis much greater in the
Aegean Sea than in the Catalan Sea-Gulf of Lions (94), but similar to the
Adriatic Sea where Wwas lower.RFcomparison suggests that Fdifferences
could be attributable to intra-seasonal or/and inter-annual variations, but also to
fecundity differences among the Mediterranean anchovy stocks. In relation to
the Sicilian Channel, RFincreased 30% in 1999. Although Wwas 1g lower in
1999,Fincreased in ± 1000 eggs/batch.
Restimates were quite consistent over time and space.
Sestimates in the Sicilian Channel showed the greatest variation in compar-
ison to the rest of the Mediterranean areas.
Anchovy females who are actively spawning are more vulnerable to trawl
capture causing an oversampling of day-0 females. Since day-1 and day-2
females were utilised to estimate Sin the Sicilian Channel, these low S cannot
be attributed to this spawning behaviour.S(asF) increases with size and age
(10), but this does not explain the lowSestimates in the Sicilian Channel since
other Mediterranean regions with similar population structure showed much
greaterSestimates.
Stends to 0 as the population moves farther from the peak of spawning. The
gonad-somatic index evolutions in the Sicilian Channel indicate that the DEPM
samplings were done within the peak spawning. One of the most precise meth-
ods of determining the end of the spawning period is analysing the degree of
atresia. In 1998 the incidence of atretic females was unusually high in some of
the first samples, reaching 37.5%. If this atresia was indicative of the end of the
spawning period, it could be expected that it increased with time. However, no
specimens showed atresia in the subsequent 10 hauls. Therefore, this atresia
does not indicate the end of the peak spawning period but the end of the spawn-
ing activity of a fraction of this population. In 1999 a substantial amount of
inactive females were observed, but not atresia.
If feeding resources are scarce during the spawning period, anchovies can
react reabsorbing the oocytes (atresia), prolonging the intervals between spawn-
ing and even becoming inactive (11). The Sicilian Channel waters are of olig-
otrophic nature and the environment is subject to drastic changes in short time
periods. The high degree of atretic stages in 1998, the amount of inactive
females in 1999, and the low S estimates can be related to these particular con-
ditions. These features can also affect FandP, that are lower than in the other
Mediterranean regions analysed.
The inter-annual variation in the Sicilian Channel can be attributable to envi-
ronmental variability, mainly wind regime, which drives the intensity of
upwelling. The great decrease of the anchovy population from 1998 to 1999
could also cause lower competition and a greater feeding availability resulting
in the higher reproductive potential observed in 1999 (higher values of FandS
with lower W).
References
1 - Palomera I., Pertierra J.P., 1993. A
n
c
h
ovy spawning biomass estimate by the daily eg
g
production method in 1990 in the Western Mediterranean Sea. Sci. Mar., 57(2-3) : 243-251.
2 - García A., Palomera I, 1996. Anchovy early life history and its relation to its
surrounding environment in the Western Mediterranean basin. Sci. Mar., 60(2) : 155-166.
3 - Tsimenides N., Somarakis S., Magoulas A., Tserpes G., 1995. Evaluation of the
anchovy stocks in the Aegean Sea. Research Study MED/91/011. Final Report. 58 p.
4 - Somarakis S., Tsimenides N., 1997. A daily egg production method biomass estimate
of the Northern Aegean Sea anchovy stock.
Ozeanografika, 2 : 133-148.
5 - Casavola N., 1998. Daily egg production method
for spawning biomass estimates of anchovy in the
South-Western Adriatic during 1994. Rapp. Comm.
int. Médit., 35(2) : 394-395.
6 - Quintanilla L.F., García A., 2001. Daily egg
production method for estimating Sicilian Channel
anchovy spawning biomass in 1998 and 1999. Rapp.
Comm. int. Médit, (this volume).
7 - Mazzola, S., García, A., García, J., 1999.
Distribution, biology and biomass estimates of the
Sicilian Channel anchovy. DGXIV Research Study
MED/96/052. Final Report. 81 p.
8 - Hunter J.R., Lo N.C.H., Leong J.H., 1985. Batch
fecundity in multiple spawning fishes. In : Lasker R.
(Ed.). An egg production method for estimating
spawning biomass of pelagic fish : application to the
northern anchovy,Engraulis mordax. NOAA Technical
Rep.NMFS 36:79-93.
9 - Laroche J.L., Richardson S.L., 1980. Reproduction
of northern anchovy, Engraulis mordax, off Oregon
andWashington.Fish. Bull., 78(3) : 603-618.
10 - Parrish R.H., Mallicoate D.L., Klingbeil R.A.,
1986. Age dependent fecundity, number of spawnings
per year, sex ratio, and maturation stages in northern
anchovy,Engraulis mordax. Fish. Bull. U.S.84 : 503-
517.
11 - Hunter J.R., Macewicz B.J., 1985. Rates of atresia
in the ovary of captive and wild northern anchov
y,
E
n
g
raulis mordax. Fish. Bull. U.
S. 83 : 119-136
METHODOLOGICAL, BIOLOGICAL AND ENVIRONMENTAL FACTORS AFFECTING
THE DEPM PARAMETERS VARIABILITY IN THE MEDITERRANEAN ANCHOVY
Luis Fco. Quintanilla and Alberto García*
Instituto Español de Oceanografía, Centro Oceanográfico de Málaga, Fuengirola, Málaga, Spain - luis.quintanilla@ma.ieo.es
Abstract
Methodological, biological and environmental factors affecting the DEPM egg and adult parameter estimates in the Sicilian Channel in
1998 and 1999 are identified, analyzed and compared with other Mediterranean regions. The Sicilian Channel anchovy population
represents a discrete stock highly in?uenced by the hydrological/climatic regime prevailing in the area and the oligotrophic nature of its
waters. These environmental conditions affect its reproductive potential as shown by the batch fecundity, spawning fraction and daily egg
production estimates that represent the lowest found in the Mediterranean.
Keywords : Pelagic, Fishes, Reproduction, Sicilian Channel
ª,
temperaturerange(ºC)
P
1
, dailyeggproduction perm
2
g
isteredinthepositive stratum (spawningarea).F,batchfecundity
,
total surveyarea(km
2
)
P,dailyeggproductionper m
2
gisteredinthe wholesampled area
S,spawningfraction
Tª A A
1
P
1
PZP
t
F S W RRFDS
F
SF B
Jun-Jul18.513295532965.5526.271.630.1448350.1415.180.5931926713224
SICILIAN199822.5
(0.21)(0.33)(0.33)(0.33)(0.16)(0.12)(0.06)(0.12)
(0.22)
CHANNELJun18.4131876943.6225.442.060.0258710.1714.080.55416396853
199922.7
(0.21)(0.27)(0.23)(0.27)(0.11)(0.10)(0.07)(0.10)
(0.25)
May17.6170818095120.6157.160.560.4680060.3614.250.5456211034199
CATALAN199019.6
(0.15)(0.29)(0.44)(0.22)(0.02)(0.10)(0.04)(0.09)
(0.26)
SEA
Jul
72830.3112.790.56569993
1990
(0.12)(0.16)(0.10)(0.10)
July13.3445543301286.6764.221.092.1249580.3114.310.6434669330849
CATALAN SEA199322.5
(0.15)(0.17)(0.26)(0.17)(0.11)(0.13)(0.07)(0.05)
(0.30)
GULF OF LIONSMay-Jun420853169281.7161.530.471.9570390.2122.920.5930738552557
1994
(0.18)(0.21)(0.26)(0.21)(0.02)(0.20)(0.06)(0.19)
(0.36)
LIGURIAN ANDJuly18.915424822193.5749.870.860.4148940.3214.170.633457035829
TYRRHENIAN199322.5
(0.28)(0.32)(0.34)(0.32)(0.10)(0.11)(0.07)(0.05)
(0.36)
Jun16.71739617396259.49259.491.044.51115420.2822.730.5550878458988
199325.0
(0.32)(0.32)(0.46)(0.32)(0.04)(0.15)(0.02)(0.04)
(0.35)
Jul-Aug14790924450.1131.320.550.29118660.1618.570.556395668129
1994
(0.16)(0.10)(0.12)(0.10)(0.03)(0.08)(0.03)(0.05)
(0.24)
AEGEAN SEA
SW ADRIATIC
Egg Parameters
Adult Parameters
Table 1. DEPM egg and adult parameter estimates from different Mediterranean regions.
