Year 2021,
Volume: 4 Issue: 2, 152 - 156, 30.06.2021
Fatma Ekmekyapar Torun
,
Şahset İrdemez
,
Sinan Kul
,
Yaşar Nuhoğlu
References
- J.E. Fergusson. The Heavy Elements: Chemistry, Environmental Impact, and Health Effects, 1 st ed. Pergamon Press, Oxford, England.1990.
- D. Tolunay, “Aladağ (Bolu) Kartalkaya bölgesinde büyük saha siperinde yetiştirilmiş sarıçam meşcerelerinin toprak özellikleri üzerine araştırmalar”, Yüksek Lisans Tezi, İ.Ü. Fen Bilimleri Enstitüsü, İstanbul, Türkiye, 1992.
- D.E. Salt and W.E. Rauser, “MgATP-dependent transport of phytochelatins across the tonoplast of oat roots”, Plant Physiology, Vol. 107, pp. 1293-1301, 1995.
- D.J. Glass. The 2000 Phytoremediation industry, glass associates, Needham, MA, USA. 2000.
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- V. Bert, B. Girondelot, V. Quatannens, and A. Laboudigue, “A phytostabilisation of a metal polluted dredged sediment deposit-mesocosm experiment and field trial, in Proceedings of the 9th International FZK/TNO Conference on soil–water systems remediation concepts and technologies, pp. 1544-1550, 2005.
- W.R. Berti and S.D. Cunningham, “Phytostabilization of Metals, Phytoremediation of Toxic Metals: Using Plants to Clean-up the Environment, [I. Raskin and B.D Ensley (eds.)]. Wiley, New York, USA. 2000.
- EPA, “Contaminants and remedial options at select metals-contaminated sites”, EPA/540/R-95/512.6, 1995.
Lead removal from soil by phytoremediation method
Year 2021,
Volume: 4 Issue: 2, 152 - 156, 30.06.2021
Fatma Ekmekyapar Torun
,
Şahset İrdemez
,
Sinan Kul
,
Yaşar Nuhoğlu
Abstract
Many control approaches are used today to prevent the contamination of soils with heavy metals and to remove pollution. One of these approaches is phytoremediation for the on-site treatment of pollutants. In phytoremediation, hyperaccumulator plants are used, which absorb heavy metals, accumulate at high levels in their tissues, and neutralize them after various processes. It was aimed to determine the effects of heavy metals on plant growth and the heavy metal accumulation capacity of plants in this study. Using the phytoremediation method, the growth process of the canola plant and its lead removal capacity from the soil were investigated. The study was carried out in 3 replicates by watering the plants only with tap water and tap water containing different concentrations of lead in greenhouse conditions. The prepared soil mixture was placed in pots as 2000 g pot-1. The sown seeds were germinated using tap water in the plant growing room and the water requirement of the plants was met with tap water containing a certain concentration of lead during the next growing period. Plants were harvested at the end of the 3 month growth period. The plants irrigated with the lead solution were compared only with the plants irrigated with tap water, and the elongation amounts of root and stem lengths were determined. Plant samples with dry weights determined were burned with certain chemicals using the microwave method, and then the amount of lead in the plants was measured with the ICP-MS device.
References
- J.E. Fergusson. The Heavy Elements: Chemistry, Environmental Impact, and Health Effects, 1 st ed. Pergamon Press, Oxford, England.1990.
- D. Tolunay, “Aladağ (Bolu) Kartalkaya bölgesinde büyük saha siperinde yetiştirilmiş sarıçam meşcerelerinin toprak özellikleri üzerine araştırmalar”, Yüksek Lisans Tezi, İ.Ü. Fen Bilimleri Enstitüsü, İstanbul, Türkiye, 1992.
- D.E. Salt and W.E. Rauser, “MgATP-dependent transport of phytochelatins across the tonoplast of oat roots”, Plant Physiology, Vol. 107, pp. 1293-1301, 1995.
- D.J. Glass. The 2000 Phytoremediation industry, glass associates, Needham, MA, USA. 2000.
- M. Arshad, J. Silvestre, E. Pinelli, J. Kallerhoff, M. Kaemmerer, and A. Tarigo, “A field study of lead phytoextraction by various, Scented Pelargonium Cultivars”, Chemosphere, Vol 71, pp. 2187-2192, 2008.
- I. Raskin, R.D. Smith, and D.E Salt, “Phytoremediation of metals using plants to remove pollutants from the environment, Current Opinion Biotechnology, Vol 8, pp. 221-226, 1997.
- D.J. Glass. Economic Patential of Phytoremediation, Phyforemediation of Toxic Metals: Using Plants to Clean up the Environment, [I. Raskin and B.D. Ensley (eds.)]. John Wiley&Sans, New York, USA. 1999.
- V. Bert, B. Girondelot, V. Quatannens, and A. Laboudigue, “A phytostabilisation of a metal polluted dredged sediment deposit-mesocosm experiment and field trial, in Proceedings of the 9th International FZK/TNO Conference on soil–water systems remediation concepts and technologies, pp. 1544-1550, 2005.
- W.R. Berti and S.D. Cunningham, “Phytostabilization of Metals, Phytoremediation of Toxic Metals: Using Plants to Clean-up the Environment, [I. Raskin and B.D Ensley (eds.)]. Wiley, New York, USA. 2000.
- EPA, “Contaminants and remedial options at select metals-contaminated sites”, EPA/540/R-95/512.6, 1995.