DiscussionEnvironmental variability

Discussion
Environmental variability is the main limiting factor for the
benthic fauna abundance and distribution. The test of forami-
nifers has high preservation potential, as such; it provides use-
ful proxy for the long as well as short-term temporal variation
in the marine environments, in particular the near-shore
coastal areas. Knowing that the reproduction cycle of forami-
nifera is relatively short, ranging from 3 months to 2 years,
short-term environmental changes are recorded in the sedi-
ment by its calcified tests. In an area of a high sedimentation
rate such as ‘‘2 mm/year”, (Frihy et al., 1991), a sediment core
of 20 cm length represents about 100 years of sedimentation,
and consequently associated foraminiferal test-layer reflects
its relevant environmental conditions. According to (Frihy
et al., 1991), it is assumed that Alexandria core roughly cov-
ered the last 275 years, while Port Said core and Suez core
might cover about the last 300 and 250 years, respectively.
Benthic foraminiferal assemblages of Alexandria core well
reflect site environment variability, represent typical
near-shore environments that are clear from industrial
pollution as well as impacted by domestic wastes. In General,
un-polluted, oligotrophic and well-ventilated environment is
clearly posted by the dominance of epifaunal, marine shelf
and pollution-sensitive taxa, as miliolids (Quinqueloculina
and Triloculina), (Fig. 6). They are living in marine hypersaline
water (32–65%), (Murray, 1991), and reported as less tolerant
to pollution, (Rao and Rao, 1979). Factor scores plotting of
factor 2, showed that the highest significant values are typical
for samples from carbonate inner-shelf with highest percentage
of Amphistegina that are recorded at the upper samples in
Alexandria core (0–35 cm). Amphistegina is a phytal, epifaunal
genus living free on coarse carbonate sediments in marine envi-
ronment with temperature generally >20 C and water depth
range of 0–130 m. Amphistegina is particularly abundant and
flourishes in warm, clean shallow water with sea grasses
(Reiss and Hottinger, 1984; Murray, 1991). Accordingly,
factor 2 represents normal marine inner shelf having active
water energy, hard substrate (algae) and carbonate bottom
sediments. Flourishing of algal-bearing foraminifera as
Amphistegina and Peneroplis at top samples as demonstrated
by factor 2, and poverty of fauna reflect increase in water
activity revealing high-energy erosive environment. Improve-
ment in water clarity and transparency at younger samples
could be corresponding to the diminishing of Nile river dis-
charge to Mediterranean coast post construction of Aswan
High Dam in 1964.Port Said study area has specific characters; it is very shal-
low, under the direct influence of Manzala Lake freshwater
discharge via Bougaz El Gamel outlet, (Fig. 1). It is indicative
of freshwater discharge resulting in strong and continuous
wash out of sea bed sediment. The faunas of Port Said core dif-
fer considerably from those at Alexandria site, although both
sites are located along Mediterranean cost, (Fig. 6). These fau-
nas are characterized by none-to rare retrieval of foraminifera,
low density, reduce diversity and poorly preserved tests,
(abraded and rounded). The fauna is dominated by salinity
and temperature-tolerant shallow infaunal genera Ammonia.
Ammonia is living freely in muddy sediments with water
depth of 0–50 m and water salinity 0–70% (brackish to hyper-
saline). It is considered as eurotrophic- eurhaline and Iso-
bathal genus indicative of coastal area, (Murray, 1991). Port
Said core samples recorded high negative scores with factor
2 with predominant of Ammonia genus. It has been reported
to dominate in areas close to outfalls discharging (Seiglie,
1971), chemical and thermal influents (Seiglie, 1975), fertilizer
byproducts (Setty, 1976; Setty and Nigam, 1984). Frequent
abundance of Quinqueloculina and Adelosina genera were
recorded. According to Melis and Stanley (2006), these genera
are isobathyal as indicative genus for coastal area associated
with proximal high-energy transport conditions in nearshore
environments. This site could be considered as highly stressed
environment influenced by fresh water flush, rapid sedimenta-
tion, temperature and salinity fluctuations associated with low
organic matter content. The factor scores plotting shows that
factor 3 dominated by Spiroloculina is more significant below
35 cm core depth in Alexandria and Port Said cores.
Spiroloculina is epifaunal, free or clinging, living in marine-
hypersaline temperate-warm water with depth range from
0–40 m. It flourished in lagoons and inner shelf environment,
(Melis and Stanley, 2006) consequently, bottom section of
Alexandria and particularly, Port Said cores indicating hyper-
saline environment before the effect of Industrial and domestic
pollution.Suez site is considered as the most polluted areas along the
investigated sites, (Hamed and Said, 2000), it receives substan-
tial amounts of pollutants from the surrounding industrial
area, agricultural and domestic effluents, with common increasing trend from the bottom to up, indicated for prompt
propagation of anthropogenic influence time a head. Forami-
niferal assemblages (Factor 1) well reflected this stressed envi-
ronment by the dominance of the pollution-tolerant genera
Elphidium and Ammonia, (Fig. 6). Elphidium is epifaunal, it
has free mobility, its environmental preference is sand, vegeta-
tion, and herbivore, within marine inner shelf temperate-warm
from 0–5 m, as well as lagoons (Murray, 1991). Several studies
illustrated that Elphidium exhibits particular tolerance to vari-
ous contaminants and compete successfully in polluted near-
shore environments, (Schafer, 1973; Buckley et al., 1974;
Schafer and Young, 1977; Bates and Spencer, 1979; Schafer
et al., 1991). In addition, Ammonia is commonly encountered
in restricted environments under stress, (Setty and Nigam,
1984). Suez core, reflects warm, shallow, and hypersaline
inner-shelf environment with high levels of nutrients as
reflected by the dominance of Peneroplis and Discorbis genera.
Reiss and Hottinger (1984) have showed that Peneroplis nor-
mally occurs in shallow vegetated hypersaline marine environ-
ments in protected shoals. Discorbis is reported as epifaunal,
clinging or attached, firm substrate, temperate to warm marine
inner-shelf (Murray, 1991). This is characteristic of confined
environment under stress, where the significant increase in
nutrients availability associated with high organic matter in
clay sediments of Suez core linked to intensified levels of indus-
trial and domestic pollution leading to enhanced organic mat-
ter fluxes and low bottom and pore water oxygen.
Consequently, the influence of industrial pollution is the con-
trolling factors which strongly influence the distribution of for-
aminifers in the Suez site. Factor scores plotting of factor 4
showed that the highest significant values are typical for the
upper most sample at Suez core.) It is worthy to say that the
dominant genera which came up from factor 4 is Sigmolinita
that, is recorded in warm hypersaline inner shelf of Arabian
Gulf, according to Murray (1991). As such, hypersaline envi-
ronment is a significant parameter in Suez site as represented by factors 1 and 4. Maximum intensification of anthropogenic
impact is detected in the uppermost section of Suez core (from
25 cm to surface sample), indicated by low-diverse benthic for-
aminiferal assemblages, and represented mainly by small spec-
imens with weak and fragile tests, and dominated by faunal
taxa which are adapted to high organic matter fluxes, low oxy-
gen level and hypersaline environment as represented by factor
1. On the contrary, the bottom section of the core emphasizes
hypersaline environment as a major environmental parameter,
which most probably corresponds to the period prior to indus-
trial and domestic discharge.