تعداد نشریات | 31 |
تعداد شمارهها | 748 |
تعداد مقالات | 7,108 |
تعداد مشاهده مقاله | 10,239,955 |
تعداد دریافت فایل اصل مقاله | 6,897,688 |
Ability of Cyperus papyrus in the bioaccumulation of some heavy elements in the Shatt Al-Basrah canal, Iraq | ||
Caspian Journal of Environmental Sciences | ||
دوره 20، شماره 3، مهر 2022، صفحه 603-609 اصل مقاله (822.57 K) | ||
نوع مقاله: Research Paper | ||
شناسه دیجیتال (DOI): 10.22124/cjes.2022.5704 | ||
نویسندگان | ||
Majida Sabah AL-Enazi* 1؛ Israa Ibrahim Lazim2؛ Huda Hilo Ali2 | ||
1Department of Biology, College of Education for pure science, University of Basrah, Basrah, Iraq | ||
2Department of Biology, College of Science, University of Misan, Maysan, Iraq | ||
چکیده | ||
The current study aimed to estimate the efficiency of Cyperus papyrus for the accumulation of some heavy elements in Shatt al-Basrah Canal - southern Iraq. Six elements (Co, Mn, Cu, Ni, Pb, Fe) were used during a seasonally period that extended from the autumn 2018 to the summer 2019. These elements were studied in the dissolved and particulate phase of water. In addition, the same elements were studied in the exchangeable and residual phase of the precipitate and in the tissues of C. papyrus. The current study also showed the mechanism of accumulation of heavy elements through water-sediments-aquatic plants. C. papyrus, which was well developed in the Shatt Al Basrah, was used. The system of abundance of elements in water in the dissolved phase was as follows: Ni < Pb < Cd < Cu < Mn < Fe. As for the exchangeable phase of the sediment, it was as follows: Ni < Pb < Cd < Mn < Cu < Fe. The abundance of elements in C. papyrus was as follows: Ni < Pb < Cd < Mn < Cu < Fe. The study concluded that the accumulation of the studied elements follows the ascending system (water - sediment - aquatic plant). The bioaccumulation factor of the studied elements in the tissues of C. papyrus was as follows: 3.62, 11.27, 8.47, 10.37, 12.58, 11.08 once as much as their concentrations in water, respectively. | ||
کلیدواژهها | ||
Cyperus papyrus؛ Heavy elements؛ Bioaccumulation؛ Shatt al-Basrah canal | ||
مراجع | ||
Abdullah, SRS, Basri, H, Idris, M, Anuar, N & Mukhlisin, M 2011, A review on heavy metals (as, pb, and hg) uptake by plants through phytoremediation. Hindawi Publishing Corporation. International Journal of Chemical Engineering, 31.
Ahmed, MK, Islam, S, Rahman, S, Haque, MR, Islam, MM 2010, Heavy metals in water, sediment and some fishes of Buriganga River, Bangladesh. International Journal of Environmental Research, 4: 321- 332.
Al Enazi, MS 2014m, Wastewater treatment by using some technologies of bioremediation and evaluates the efficiency of Hammdan plant - Basrah. PhD Dissertation, University of Basrah, 191 p.
AL Enazi, MS, Akbar, MM & Abdul Sahib, IM 2020, Wastewater treatment by using schoenoplectus litoralis. Alutroha Journal, 6: 101 - 118.
Alkam, FM 2002, The impact of water pollution in the Diwaniyah river on the efficiency of the aquatic complexes of the two villagers Al - Nawaser and Al Hammadi, Qadisiyah Governorate. Al-Qadisiyah Journal of Pure Science, 7: 16 - 21.
Al Saadi, HA, Al Lami, AA, Kassim, TI & Al Jabero, HH 1998, Heavy metals in Qadisia Lake and its aquatic plants. Journal of the College of Education for Women University Bagdad, 10: 281-292.
Al Taee, MMS 1999, Some metals in water, sediments and plants of the shatt Al-Hilla River. PhD Dissertation, Biology Department, College of Science, University of Babylon, 129 p.
Americam Public Health Association (APHA) 2003, Standard methods for examination of water and wastewater, 20th Ed. Washington DC, USA.
Aziza, NM, Al Adhuba, AHY & Al Imarah, FJM 2006, Phragmites australis and Typha domengensis as bioaccumulators and biomonitors of three trace metals along Shatt Al-Basrah canal, south of Hammer marsh. Marsh Bulletin, 1: 173-183.
Bai, L, Liu, X, Hu, J, Li, J, Wang, Z, Han, G, Li, S & Liu, C 2018, Heavy metal accumulation in common aquatic plants in rivers and lakes in the Taihu Basin. International Journal of Environmental Research and Public Health, 15 (12): 2857, DOI: 10.3390/ijerph15122857.
Blanco, A 2005, The impact of solid and liquid wastes from a rural town on the Chorobamba, river, Oxapampa, Peruvian Amazon MSc. Dissertation, Florida International University. 52 p.
Boulos, L 2005, Flora of Egypt: volume 4. Monocotyledons Alimataceae - Orchidaceae. Cairo: Al Hadara Publishing, Cairo, Egypt, p 617 p.
Demina, LL, Galkin, SV & Shumilin, EN 2009, Bioaccumulation of some trace elements in the biota of hydrothermal fields of the Guaymas Basin (Gulf California). Bulletin De LA Sociaeded Geologica Mexicana, 61: 31-45.
Deng, H, YE, ZH & Wong, MH 2004, Accumulation of lead, zinc, copper and cadmium by 12 wetland plant species thriving in metal contaminated sites in China. Environmental Pollution, 132: 29-40.
Duruibe, JO, Ogwuegbu, MOC & Egwurugwu, JN 2007, Heavy metal pollution and human biotoxic effects. International Journal of Physical Science, 2: 112-118.
Forouhar Vajargah, M, Sattari, M, Imanpur, J & Bibak, M 2020, Length-weight relationship and some growth parameters of Rutilus kutum (Kaminski 1901) in the South Caspian Sea. Experimental Animal Biology, 9:11- 20.
Forouhar Vajargah, M, Sattari, M, Imanpour Namin, J & Bibak, M 2020, Length-weight, length-length relationships and condition factor of Rutilus kutum (Actinopterygii: Cyprinidae) from the southern Caspian Sea, Iran. Journal of Animal Diversity, 2: 56-61.
Forouhar Vajargah, M, Sattari, M, Imanpour Namin, J, Bibak, M 2021, Evaluation of trace elements contaminations in skin tissue of Rutilus kutum Kamensky 1901 from the south of the Caspian Sea. Journal of Advances in Environmental Health Research, DOI: 10.22102/jaehr.2021.259190.1201
Jackson, L, Kalkff, J & Rsmussen, JR 1994, Sediment pH and redox potential effect the bioavailability of Al, Cu, Fe, Mn, and Zn to rooted aquatic macrophytes. Canadian Journal of Fisheries and Aquatic Sciences, 50: 143-148.
Khudhair, IH, Lazim, II, Al Naqeeb, NA & Maktoof, AA 2021, Estimation of some trace metals in water, sediments and two species of aquatic plants in the Al-Garaf River at Al-Rafa District- Southern Iraq. Journal of Chemical Health Risks, 11: 227-236.
Marsille, F, Tiffrean, C, Laboudigue, C & Lecomte, P 2000, District-Southern Iraq impact of vegetation on the mobility and bioavailability of trace elements in a dredged sediment deposit: a greenhouse study. Agronomie, 20: 547-556.
Memon, AR, Aktoprakligil, D, Ozelemir, A & Vertii, A 2001, Heavy metal Accumulation and Detoxification Mechanisms in Plant. Turkish Journal of Botany, 25: 111-121.
Mohamad, HH & Abdul Latif, PA 2010, Uptake of cadmium and zinc from synthetic effluent by water hyacinth (Eichhornia crassipes). Environment Asia, 3: 36- 42.
Naaz, S & Pandy, SN 2010, Effects of industrial wastewater on heavy metal accumulation, growth and biochemical responses of lettuce (Lactuca sativa L.). Journal of Environmental Biology, 31: 273- 276.
Nakanishi, Y, Sumitn, M, Yumita, K, Yamada, T & Honjo, T 2004, Heavy metal pollution and its state in Algae in Kakehashi river and Godani river at the foot of Ogoya Mine, Ishikawa prefecture. Analytical Science, 20: 73-78.
Newete, SW & Byrne, MJ 2016, The capacity of aquatic macrophytes for phytoremediation and their disposal with specific reference to water hyacinth. Environmental Science and Pollution Research, 23: 10630-10643. DOI: 10.1007/s11356- 016-6329-6.
Orson, RA, Simpson, RL & Good, RE 1992, A mechanism for the accumulation of retention of heavy metals in tidal fresh water marshes of the upper Delaware river Estuary. Estuarine, Coastal and Shelf Science, 34: 171-186.
Park, N, Kim, JH & Cho, J 2008, Organic matter, anion and metal wastewater treatment in Damyang surface flow constructed wetlands in Korea. Journal of Ecological Engineering, 32: 68- 71.
Prasad, MNV 1998, Metal-biomolecule complexes in plants: Occurrence, functions, and applications. Analysis Magazine, 26: 25-28.
Riley, JP & Taylor, DT 1968, Chelating resins for the concentration of trace elements from sea water and their analytical use in conjunction with atomic absorption spectrophotometry. Analytica Chimica Acta, 40: 479-485.
Salman, JM 2006, Environmental study of potential pollution in the Euphrates river between Hindia Sada and the Kufa area, Iraq, PhD Dissertation, Biology Department, College of Science, University of Babylon.
Salman, JM 2007, Bioaccumulation of some heavy metals in aquatic plant Myriophyllum verticilatum. Um-Salama Science Journal, 4: 358 – 362.
Sasaki, K, Ogino, T, Hori, O, Endo, Y, Kurosawa, K & Tsunekawa, M 2003, Chemical transportation of heavy metals in the constructed wetland impacted by acid drainage. Materials Transactions, 44: 305-312.
Sattari, M, Namin, JI, Bibak, M, Vajargah, MF, Bakhshalizadeh, S & Faggio, C 2019a, Determination of trace element accumulation in gonads of Rutilus kutum (Kamensky, 1901) from the south Caspian Sea trace element contaminations in gonads. Proceedings of the National Academy of Sciences, India Section B: Biological Sciences, pp.1-8. DOI: 10.1007/s40011-019-01150-5.
Sattari, M, Namin, JI, Bibak, M, Vajargah, MF, Faggio, C & Haddad, MS 2019b, Trace and macro elements bioaccumulation in the muscle and liver tissues of Alburnus chalcoides from the south Caspian Sea and Razooqi 501 potential human health risk assessment. Journal of Energy, Environmental & Chemical Engineering, 1: 13- 20.
Sattari, M, Imanpour, J, Bibak, M, Forouhar Vajargah, M & Khosravi, A 2019c, Investigation of metal element concentrations in tissue of Rutilus frisii in the Southwest Caspian Sea. Iranian Scientific Fisheries Journal, 28: 149-161 (In Persian).
Sattari, M, Namin, JI, Bibak, M, Vajargah, MF, Hedayati, A, Khosravi, A & Mazareiy, MH 2019d, Morphological comparison of western and eastern populations of Caspian kutum, Rutilus kutum (Kamensky 1901) (Cyprinidae) in the southern Caspian Sea. International Journal of Aquatic Biology, 6: 242-247.
Sattari, M, Vajargah, MF, Bibak, M & Bakhshalizadeh, S 2020a, Relationship between trace element content in the brain of bony fish species and their food items in the southwest of the Caspian Sea due to anthropogenic activities. Avicenna Journal of Environmental Health Engineering, 7: 78-85.
Sattari, M, Bibak, M, Bakhshalizadeh, S & Forouhar Vajargah, M 2020b, Element accumulations in liver and kidney tissues of some bony fish species in the Southwest Caspian Sea. Journal of Cell and Molecular Research, 12: 33-40.
Sattari, M, Imanpour Namin, J, Bibak, M, Forouhar Vajargah, M and Mazareiy, MH 2020c, Trace elements contamination in Alosa braschnikowi of the southern basins of Caspian Sea-Guilan Province. Journal of Animal Environment, 12: 115-122.
Sattari, M, Bibak, M & Forouhar Vajargah, M 2020d, Evaluation of trace elements contaminations in muscles of Rutilus kutum (Pisces: Cyprinidae) from the Southern shores of the Caspian Sea. Environmental Health Engineering and Management Journal, 7: 89-96.
Scheid, DL, Marco, RD, Grolli, AL, Da Silva, RF, Da Ros, FC, Andreazza, R 2017, Growth, tolerance and zinc accumulation in Senna multijuga and Erythrina crista-galli seedlings. Revista Brasileira de Engenharia Agrícola e Ambiental, 21: 465-470.
Sekomo, C. B. (2012). Development of a low-cost alternative for metal removal from textile
Sekomo, CB 2012, Development of a low-cost alternative for metal removal from textile wastewater. PhD Dissertation, UNESCO-IHE Institute for Water Education Delft, The Netherlands.
Serag, MS 2003, Ecology and biomass production of Cyperus papyrus L. on the Nile Bank at Damietta, Egypt. Journal of Mediterranean Ecology, 4: 15-24.
Singh, N, Kaur, M & Katnoria, JK 2017, Analysis on bioaccumulation of metals in aquatic environment of Beas River Basin: A case study from Kanjli wetland. GeoHealth, 1: 93-105.
Sturgeon, RE, Desaulincrs, JA, Berman, SS & Russeil, DS 1982, Determination of trace metals in estuarine sediment by graphite fernace atomic absorption spectrophotometry. Analytica Chimica Acta, 134: 288-291.
wastewater. PhD thesis, UNESCO-IHE Institute for Water Education Delft, The Netherlands
Yi, L, Hong, Y, Wang, D & Zhu, Y 2007, Determination of free heavy metal ion concentration in soil around a cadmium rich zinc deposit. Geochemical Journal, 41: 235-240.
ZAR, JH 1984, Biostatistical Analysis, 2nd Ed. Prentice-Hall, Incorporation. Englewood Cliffs, NJ, USA. | ||
آمار تعداد مشاهده مقاله: 287 تعداد دریافت فایل اصل مقاله: 302 |