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2016 | 25 | 6 |

Tytuł artykułu

Using phytoremediation with canola to remove cobalt from agricultural soils

Autorzy

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN
The goal of my study is to propose an improved method for reclaiming cobalt (Co) contamination in agricultural lands using canola (Brassica napus L.). Cobalt (100 mg/kg) in the form of CoSO4 was given to each parcel. Afterward ethylenediaminetetraacetic acid (EDTA) chelate was given to every single parcel in four doses (0 mmol/kg, 5 mmol/kg, 10 mmol/kg, and 15 mmol/kg) in the course of the spadix period of the plants. The plants were harvested four months after sowing. Although the quantities of available Fe, Mn, and Cu of the experimental area soil sample were adequate, the available Zn quantity was determined to be inadequate. The texture of research area soil was clay (C). In respect to the field experiment results, increasing EDTA doses had a negative affect on roots and shoots of canola plants. Furthermore, cobalt concentrations in underground parts and aboveground plant parts increased with increasing EDTA applications. These results were found to be statistically significant at the level of 1%. Consequently, cobalt heavy metal contaminants of Tekirdağ country soils could be improved by the phytoremediation method as shown in this research.

Słowa kluczowe

Wydawca

-

Rocznik

Tom

25

Numer

6

Opis fizyczny

P.2251-2254,fig.,ref.

Twórcy

autor
  • Faculty of Agriculture, Department of Soil Science and Plant Nutrition, Namik Kemal University, Tekirdag, Turkey

Bibliografia

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  • 2. SAIFULLAH A.G., QUADIR M. Lead Phytoextraction by Wheat in Response to the EDTA Application Method. International J. of Phytoremediation, 11, 268, 2009.
  • 3. KÖSEOĞLU C. An Investigation on Phytoremediation Methods of Sweadge Sludge. Çukurova University Graduate School of Natural and Applied Sci. MSc thesis, Adana. 2007.
  • 4. BAHTİYARCA BAĞDAT R., EID E.M. Phytoremedation Behaviour of Some Medicinal and Aromatic Plants to Various Pollutants. J. of Central Research Institute For Field Crops. 16, 1, 2007.
  • 5. NOWACK B., KARI F.G., KRÜGER H.G. The Remobilization of Metals from Iron Oxides and Sediments by Metal-EDTA Complexes. Water, Air and Soil Poll. 125, 243, 2001.
  • 6. ADILOĞLU S., SAĞLAM M.T., ADILOĞLU A., SÜME A. Removal of Nickel (Ni) from Agricultural Field Soils by Phytoremediation using Canola (Brassica napus L.). Desalination and Water Treatment. 57 (6), 2383, 2016.
  • 7. ADILOĞLU S., ADILOĞLU A., ERYILMAZ AÇIKGÖZ F., YENIARAS T., SOLMAZ Y. Phytoremediation of Cadmium From Soil Using Patience Dock (Rumex patientia L.) Analytical Letters. 49, 601, 2016.
  • 8. HOVSEPYAN A. GREIPSSON S. EDTA Enhanced Phytoremediation of Lead-Contaminated Soil by Corn, Journal of Plant Nutrition. 28, 2037, 2005.
  • 9. DINÇ B.E. An Investigation on Yield and Yield Components of Canola Plant. Namık Kemal University Graduate School of Natural and Applied Sciences. Master Thesis, 136, 2010.
  • 10. LINDSAY W.L., NORVELL W.A. Development of a DTPA Soil Test for Zinc, Iron, Manganase and Copper. Soil Sci. Soc. Am. J. 42, 421, 1978.
  • 11. SAĞLAM M.T. Chemical Analysis Methods of Soil and Water. Namık Kemal University, Publ. 2, 220, 2012.
  • 12. KACAR B., İNAL A. Plant Analysis, Nobel Publ. 1241, Ankara, 2010.
  • 13. ALPASLAN M., GÜNEŞ A., İNAL A. Experiment Techniques. A.Ü. Agricultural Faculty Publ. 1501, Ankara. 2005.
  • 14. FAO. Micronutrient, Assesment and the Country Level: An International Study. FAO Soils Bulletin 63, 218, 1990.
  • 15. ESRINGÜ A. Removing of Some Heavy Metals from the Soil with Canola (Brassica nopus) and Mustard. Atatürk University, Graduate School of Natural and Applied Sciences. Master Thesi. 86, 2005.
  • 16. KARAMAN M.R., ADILOĞLU A., BROHI R., GÜNEŞ A., İNAL A., KAPLAN M., KATKAT V., KORKMAZ A., OKUR N., ORTAŞ İ., SALTALI K., TABAN S., TURAN M., TÜFENKÇI Ş., ERASLAN F., ZENGIN M. Plant Nutrition. Dumat offset, 1080, 2012.
  • 17. ÇAKMAKCI T., UCAR Y. Efficiency of Canola (Brassica Napus L.) as an Accumulator of Heavy Metals in Wastewater Applications. Pol. J. Environ. Stud. 23, 2309, 2014.
  • 18. STINGU A., VOOLF I., ROBU B., POPA V. Phytoremediation potential of Brassica napus in heavy metal polluted environment. International Conference on Environmental Pollution and Clean/Phytoremediation, 16-19 June, Pisa, Italy, 2010.
  • 19. ADILOĞLU S., SAĞLAM M.T., SÜME A. Chrome (Cr) Pollution In Agricultural Areas Improvement By Phytoremediation Method With Canola (Brassica Napus L.) Plant Growing. Journal of Essential Oil Bearing Plants 18, 1180, 2015.

Typ dokumentu

Bibliografia

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