Article Type: Research Article Article Citation: Dr. Arzu Morkoyunlu Yüce. (2020). DETERMINING
THE EFFECTS OF POLLUTANTS ON SOME TYPES OF MICRO ALGAE AND MYTILUS
GALLOPROVINCIALIS (LAMARCK, 1819). International Journal of Research
-GRANTHAALAYAH, 8(10), 319-322. https://doi.org/10.29121/granthaalayah.v8.i10.2020.2074 Received Date: 15 October 2020 Accepted Date: 31 October 2020 Keywords: Algae Mussels Water pollution Environment This study was conducted to determine the effects of aquatic pollutants on aquatic organisms. Izmit Bay, which is polluted both domestically and industrially, was chosen as the study area. Densely populated areas and industry are located around the Izmıt Bay. For this purpose, mussel and micro algae samples were taken from selected stations. In the study, salinity value was measured in the range of 22% - 28%. Water temperature, pH and conductivity varied from 9.20 – 25.01 ℃, 6.81 - 8.3, 30.42 - 45.11 µS/cm, dissolved oxygen values as minimum and maximum 4.62 – 12.61 mg l−1 were determined respectively. In heavy metal analyses Al, Mn, Zn, Cu, Pb, Cr, Ni, Cd and Fe) of seawater were determined in the study. As a result of the study, the highest heavy metal ratio in Mytilus galloprovincialis was determined to be iron. In the study, Oscilatoria sp., Ulnaria sp. and Nitzschia sp. taxa were determined as dominant. These species have high tolerance to aquatic pollution parameters.
1. INTRODUCTIONEnvironmental parameters are effective on both terrestrial and aquatic ecosystems. It is very important to determine the factors that cause the temporal changes of the physical and chemical properties of sea water. Izmit Bay is an economically and ecologically important region. The bay, marine transportation, residential areas and marine
ecosystems is an area that should be examined in terms of diversity. Therefore,
a lot of research has been done in the region and it is still being done. The
environment sea water pollution problems have increased since 1960 due to the
rapid growth of heavy industry and population growth in the Izmit area. Plants
have been built in the area surrounding the bay (Morkoç
et al., 2001). Previous research in Izmit Bay showed that the bay’s sea waters
have been eutrophic (Tuğrul et al., 1986; Morkoç et al., 2001). Many researches have been carried out
in Izmit Bay from past to present. In these studies, it was determined that bay
is under the influence of different pollutants (Legoviç et al. 1994; Morkoç et al. 1994; Morkoç et al.
1997; Algan et al. 1999; Okay et al., 2001) It has
been stated that in the micro algae composition of Izmit Bay, species that have
adapted to eutrophic conditions and have high pollution tolerance show spread (Yerli et al. 2006; Küçük and Ergül, 2011; Morkoyunlu Yüce 2017). In these
studies, wave movements, environmental effects, annual water regime, climatic
effects and physicochemical parameters were determined effective in
distribution. This study was conducted
to determine the effects of aquatic pollutants on aquatic organisms. 2. MATERIALS AND METHODSİzmit Bay is 50-km-long and 1.8–9 km wide and has a surface area of 261 km2. İzmit Bay is located between 29° 37' 16'' and 29° 56' 70'' E and 40° 39' 73'' and 40° 49' 46'' N (Morkoç et al., 1994). In this study was taken samples of sea water, micro algae and mussel (Mytilus galloprovincialis). The research area and stations are given in figure 1. Figure 1: The research area in Izmit Bay (http://www.koeri.boun.edu.tr.sismo.map) 2.1. SAMPLE COLLECTION AND ANALYTICAL PROCEDUREIn this study, microlgae samples were collected in a littoral region (up to 2 m.) and brought to the laboratory in labelled bags. Mussel samples were taken and laboratory procedures were done according to standard techniques and methods (Bernhard 1976). After proper pretreatment (Hot Plate Heating, Microwave Pretreatment), metals were analyzed by ICP-OES. In this study, EPA METHOD 200.7 and ICP- OES analysis method was applied. Physico-chemical parameters were measured in situ with the YSI multiparameter at the time of sampling. 3. RESULT AND DISCUSSIONThe heavy metal levels of Mytilus galloprovincialis, Fe (144.07±37.62), Al (92.54±22.05), Cu (55.50±16.48), Mn (24.74±5.32), Zn (22.54±4.58), Cr (12.53±2.31), Pb (3.63±0.97), Ni (1.86±0.17) and Cd (1.06±0.04) were determined. The heavy metal levels in Mytilus galloprovincialis was determined as (Fe>Al>Cu>Mn>Zn>Cr>Pb>Ni>Cd). In the Mytilus galloprovincialis in research stations, iron was determined to be at the highest ratio. These results were given in figure 4. Figure 4: Heavy metal concentrations in Mytilus galloprovincialis (mg kg-1/ age weight) It has been determined that aquatic pollutants are effective in the distribution of species in micro algae samples. Especially, species with high pollution tolerance were identified. In the study, Oscilatoria sp., Ulnaria sp. and Nitzschia sp. taxa were determined as dominant. In the study, the salinity value was measured in the range
of 22‰ - 28‰. Average value of water temperature, pH and conductivity varied
from 16.91 ℃,
7.46, 37.85 µS/cm, and the dissolved oxygen values as 9.14 mg l−1
were determined respectively. Sea water temperature was the lowest at the first
station as 9.2 ℃ and the highest as 25 ℃ were measured
at the third station. The annual average water temperature in the İzmit
Bay was determined as 16.91°C. Although there is a difference
in temperature between stations, it was found to be seasonally appropriate.
Electrical conductivity, at the lowest 30.2 µS/cm and the highest 45.1 µS/cm
were measured at the third station. The
annual average electrical conductivity value was determined as 37.85 µS/cm. The pH value was the lowest at the first station as 6.9 and the highest as 8.3 were
measured at the sixth station. The annual average pH value was determined as 7.46. There was no
significant difference in the pH values among the stations. The dissolved oxygen value was the lowest at
the third station as 4.6 mg l−1
and the highest as 12.7 mg l−1 at the first station. The
average dissolved oxygen value of the Bay at 9.14 mg l−1 was
determined. According to the dissolved oxygen values, there was an
increase in the oxygen level with the decrease of the water temperature in
winter months, while a decrease in the oxygen level was determined in summer
because of the increase in the water temperature. In the study, the lowest
oxygen value was determined at the third station. This result was thought to be
due to the fact that this station is very dirty in terms of organic wastes. The water depth was low, the stationary water
movements increased the pollution load in this region, and this was determined
as a dirty area. When all stations were examined according to their pH
values, it was determined that sea water showed slightly alkaline
properties. In the research, the sixth
station was determined as the cleanest zone compared to other stations. The
fact that the sixth station is far from domestic and industrial settlement has
been effective in this situation. 4. CONCLUSIONSSea ecosystems are one of the most important life sources of the earth’s ecosystem with their physical, chemical and biological structures. In the study, it was aimed to evaluate İzmit Bay regarding the relationship between the biological and environmental parameters. In general, It was concluded that heavy industry, ship transport and domestic wastes around the bay were still effective on the marine ecosystem. In recent years, environmental inspections in the Izmit Bay, collection of ship wastes, sea surface cleaning, stream recreation and monitoring of sea water quality are carried out regularly by the relevant legal institutions. As a result, it is very important for these applications to be sustainable for aquatic environmental management. SOURCES OF FUNDINGThis article has received financial support from Kocaeli University (project number: 2017/078). CONFLICT OF INTERESTThe author have declared that no competing interests exist. ACKNOWLEDGMENTThis research was supported
by Kocaeli University, BAP Unit (project number:
2017/078). I would like to thank Kocaeli University
for their support. REFERENCES
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