Research Article
BibTex RIS Cite

Bitlis’te Yetişen Bazı Bitkilerde Radon Konsantrasyonlarının İstatistiksel Olarak Analizi

Year 2019, , 49 - 55, 31.12.2019
https://doi.org/10.17798/bitlisfen.648348

Abstract

Bu
çalışmada, Bitlis’te yetişen bazı bitkilerin radon (222Rn) konsantrasyonlarının
istatistiksel olarak analizi yapıldı. Radon konsantrasyonları Radosys radon
ölçüm sistemi ile belirlendi. PR15 numaralı örneğin (Urtica) en yüksek radon
konsantrasyonuna (997,67 ±28,90 Bq/m3) ve PR13 numaralı örneğin (Polygonum
Cognatum) en düşük radon konsantrasyonuna (255,70 ± 14,63 Bq/m3) sahip olduğu
görülmüştür. 

References

  • Reference1 UNSCEAR., 1988. Sources and effects of ionising radiation. United Nations Scientific Committee on the Effects of Atomic Radiation., Annex A, United Nations, New York.
  • Reference2 Elzain A.E.A. 2015. Estimation of Soil Gas Radon Concentration and the Effective Dose Rate by Using SSNTDs. International Journal of Scientific and Research Publications, 5(2):1-5.
  • Reference3 UNSCEAR., 2000. Sources and effects of ionising radiation. United Nations Scientific Committee on the Effects of Atomic Radiation., United Nations, New York.
  • Reference4 Arafa W. 2004. Specific Activity and Hazards of Granite Samples Collected from The Eastern Desert of Egypt.. J. Environ. Radioact., 75: 315–327.
  • Reference5 Rahman S.U., Rafique M., Matiullah A.J. 2010. Radon Measurement Studies in Workplace Buildings of The Rawalpindi Region and Islamabad Capital Area, Pakistan. Build. Environ., 45: 421–426.
  • Reference6 Agarwal T.K., Sahoo B.K., Gaware J.J., Joshi M., Sapra B.K. 2014. CFD Based Simulation of Thoron (220Rn) Concentration in a Delay Chamber for Mitigation Application. J. Environ. Radioact, 136: 16–21.
  • Reference7 Ghany H.A.A., Aassy I.E.E., Ibrahim E.M., Gamil S.H. 2018. White Sand Potentially Suppresses Radon Emission from Uranium Tailings. Radiat. Phys. Chem., 144: 100–105.
  • Reference8 Dieguez-Elizondo P.M., O´Donuhoe P.G., Gil-Lopez T., Castejon-Navas J., Gálvez-Huerta M.A. 2019. Calculation Methods of Radon-222 Radiological Activity for NORM Plant with Ventilation. Journal of Petroleum Science and Engineering, 183(106360): 1-9.
  • Reference9 Little J.B. 1997. What Are The Risks of Low-Level Exposure to a Radiation from Radon?. P. Natl. Aca. Sci. USA, 94: 5996–5997.
  • Reference10 ICRP., 2008. Nuclear decay data for dosimetric calculations. Ann. ICRP 38: 7–96.
  • Reference11 Li P., Zhang R., Zheng G. 2018. Genetic and Physiological Effects of the Natural Radioactive Gas Radon on the Epiphytic Plant Tillandsia Brachycaulos. Plant Physiology and Biochemistry, 132: 385-390.
  • Reference12 Kılıç Ö. 2015. Bitlis Kaynak Sularında Radon Seviyesinin Belirlenmesi. Bitlis Eren Üniversitesi, Fen Bilimleri Enstitüsü, Ders Semineri, Bitlis.
  • Reference13 http://www.mta.gov.tr/v2.0/bolgeler/van/index.php?id=bitlis (Erişim tarihi: 30.03.2015).
  • Reference14 Kılıç Ö. 2016. Bitlis’te Yetişen Bazı Tıbbi ve Aromatik Bitkilerde Radon Seviyesinin Belirlenmesi. Bitlis Eren Üniversitesi, Fen Bilimleri Enstitüsü, Yüksek Lisans Tezi, 46s, Bitlis.
  • Reference15 Şahin Bal S., Kılıç Ö., Gönültaş F. 2017. Bitlis Kaynak Sularında Radon Konsantrasyonunun Belirlenmesi. Sakarya Üniversitesi Fen Bilimleri Enstitüsü Dergisi, 21(3): 302-306.
  • Reference16 Radosys, 2011. Radosys Kullanma Kılavuzu, Hungary: Radosys.
  • Reference17 Erol H., 2010. SPSS Paket Programı ile İstatistiksel Data Analizi. Nobel kitapevi, Adana.
  • Reference18 Sussa F.V., Damatto S.R., Alencar M.M., Mazzilli B.P., Silva P.S.C. 2013. Natural Radioactivity Determination in Samples of Peperomia Pellucida Commonly Used as a Medicinal Herb. Journal of Environmental Radioactivity, 116: 148-151.
  • Reference19 Njinga R.L., Jonah S.A., Gomina M. 2015. Preliminary Investigation of Naturally Occurring Radionuclides in Some Traditional Medicinal Plants Used in Nigeria, Journalof Radiation Research and Applied Sciences, 8: 208-215.
  • Reference20 Chandrashekara K., Somashekarappa H.M. 2016. Estimation of Radionuclides Concentration and Average Annual Committed Effective Dose Due to Ingestion for Some Selected Medicinal Plants of South India. Journal of Radiation Research and Applied Sciences, 9: 68-77.
  • Reference21 Okeji M.C., Kenneth K.A., Felicitas U.I. 2012. Natural Radioactivity in Cultivated Land in the Vicinity of a Phosphate Fertilizer Plant in Nigeria. Radiation Physics and Chemistry, 81: 1823–1826.
  • Reference22 Alsaffar M. S., Jaafar M. S., Kabir N. A., Ahmad N. 2015. Distribution of 226Ra, 232Th and 40K in Rice Plant Components and Physico-Chemical Effects of Soil on Their Transportation to Grains. Journal of Radiation Research and Applied Sciences, 8: 300-310.
Year 2019, , 49 - 55, 31.12.2019
https://doi.org/10.17798/bitlisfen.648348

Abstract

References

  • Reference1 UNSCEAR., 1988. Sources and effects of ionising radiation. United Nations Scientific Committee on the Effects of Atomic Radiation., Annex A, United Nations, New York.
  • Reference2 Elzain A.E.A. 2015. Estimation of Soil Gas Radon Concentration and the Effective Dose Rate by Using SSNTDs. International Journal of Scientific and Research Publications, 5(2):1-5.
  • Reference3 UNSCEAR., 2000. Sources and effects of ionising radiation. United Nations Scientific Committee on the Effects of Atomic Radiation., United Nations, New York.
  • Reference4 Arafa W. 2004. Specific Activity and Hazards of Granite Samples Collected from The Eastern Desert of Egypt.. J. Environ. Radioact., 75: 315–327.
  • Reference5 Rahman S.U., Rafique M., Matiullah A.J. 2010. Radon Measurement Studies in Workplace Buildings of The Rawalpindi Region and Islamabad Capital Area, Pakistan. Build. Environ., 45: 421–426.
  • Reference6 Agarwal T.K., Sahoo B.K., Gaware J.J., Joshi M., Sapra B.K. 2014. CFD Based Simulation of Thoron (220Rn) Concentration in a Delay Chamber for Mitigation Application. J. Environ. Radioact, 136: 16–21.
  • Reference7 Ghany H.A.A., Aassy I.E.E., Ibrahim E.M., Gamil S.H. 2018. White Sand Potentially Suppresses Radon Emission from Uranium Tailings. Radiat. Phys. Chem., 144: 100–105.
  • Reference8 Dieguez-Elizondo P.M., O´Donuhoe P.G., Gil-Lopez T., Castejon-Navas J., Gálvez-Huerta M.A. 2019. Calculation Methods of Radon-222 Radiological Activity for NORM Plant with Ventilation. Journal of Petroleum Science and Engineering, 183(106360): 1-9.
  • Reference9 Little J.B. 1997. What Are The Risks of Low-Level Exposure to a Radiation from Radon?. P. Natl. Aca. Sci. USA, 94: 5996–5997.
  • Reference10 ICRP., 2008. Nuclear decay data for dosimetric calculations. Ann. ICRP 38: 7–96.
  • Reference11 Li P., Zhang R., Zheng G. 2018. Genetic and Physiological Effects of the Natural Radioactive Gas Radon on the Epiphytic Plant Tillandsia Brachycaulos. Plant Physiology and Biochemistry, 132: 385-390.
  • Reference12 Kılıç Ö. 2015. Bitlis Kaynak Sularında Radon Seviyesinin Belirlenmesi. Bitlis Eren Üniversitesi, Fen Bilimleri Enstitüsü, Ders Semineri, Bitlis.
  • Reference13 http://www.mta.gov.tr/v2.0/bolgeler/van/index.php?id=bitlis (Erişim tarihi: 30.03.2015).
  • Reference14 Kılıç Ö. 2016. Bitlis’te Yetişen Bazı Tıbbi ve Aromatik Bitkilerde Radon Seviyesinin Belirlenmesi. Bitlis Eren Üniversitesi, Fen Bilimleri Enstitüsü, Yüksek Lisans Tezi, 46s, Bitlis.
  • Reference15 Şahin Bal S., Kılıç Ö., Gönültaş F. 2017. Bitlis Kaynak Sularında Radon Konsantrasyonunun Belirlenmesi. Sakarya Üniversitesi Fen Bilimleri Enstitüsü Dergisi, 21(3): 302-306.
  • Reference16 Radosys, 2011. Radosys Kullanma Kılavuzu, Hungary: Radosys.
  • Reference17 Erol H., 2010. SPSS Paket Programı ile İstatistiksel Data Analizi. Nobel kitapevi, Adana.
  • Reference18 Sussa F.V., Damatto S.R., Alencar M.M., Mazzilli B.P., Silva P.S.C. 2013. Natural Radioactivity Determination in Samples of Peperomia Pellucida Commonly Used as a Medicinal Herb. Journal of Environmental Radioactivity, 116: 148-151.
  • Reference19 Njinga R.L., Jonah S.A., Gomina M. 2015. Preliminary Investigation of Naturally Occurring Radionuclides in Some Traditional Medicinal Plants Used in Nigeria, Journalof Radiation Research and Applied Sciences, 8: 208-215.
  • Reference20 Chandrashekara K., Somashekarappa H.M. 2016. Estimation of Radionuclides Concentration and Average Annual Committed Effective Dose Due to Ingestion for Some Selected Medicinal Plants of South India. Journal of Radiation Research and Applied Sciences, 9: 68-77.
  • Reference21 Okeji M.C., Kenneth K.A., Felicitas U.I. 2012. Natural Radioactivity in Cultivated Land in the Vicinity of a Phosphate Fertilizer Plant in Nigeria. Radiation Physics and Chemistry, 81: 1823–1826.
  • Reference22 Alsaffar M. S., Jaafar M. S., Kabir N. A., Ahmad N. 2015. Distribution of 226Ra, 232Th and 40K in Rice Plant Components and Physico-Chemical Effects of Soil on Their Transportation to Grains. Journal of Radiation Research and Applied Sciences, 8: 300-310.
There are 22 citations in total.

Details

Primary Language Turkish
Journal Section Araştırma Makalesi
Authors

Sultan Şahin Bal 0000-0001-7896-0771

Önder Kılıç This is me

Fikriye Gönültaş This is me

Murat Kurşat This is me

Nazlım Deniz Aral This is me

Seval Şahin

Publication Date December 31, 2019
Submission Date November 18, 2019
Acceptance Date December 19, 2019
Published in Issue Year 2019

Cite

IEEE S. Şahin Bal, Ö. Kılıç, F. Gönültaş, M. Kurşat, N. D. Aral, and S. Şahin, “Bitlis’te Yetişen Bazı Bitkilerde Radon Konsantrasyonlarının İstatistiksel Olarak Analizi”, Bitlis Eren Üniversitesi Fen Bilimleri Dergisi, vol. 8, pp. 49–55, 2019, doi: 10.17798/bitlisfen.648348.



Bitlis Eren Üniversitesi
Fen Bilimleri Dergisi Editörlüğü

Bitlis Eren Üniversitesi Lisansüstü Eğitim Enstitüsü        
Beş Minare Mah. Ahmet Eren Bulvarı, Merkez Kampüs, 13000 BİTLİS        
E-posta: fbe@beu.edu.tr