Abstract
Purpose
To study the distribution of 210Po concentrations in various parts of spice plants cultivated by conventional farming in Nilgiris, South India and estimate effective radiation dose received.
Materials and methods
Parts of plant such as leaf, fruit, seed, flower bud and rhizome of selected spice plants cultivated at various locations in the study area have been collected for estimation of 210Po concentration. Organic materials in known mass of processed samples have been removed by chemical method. 210Po concentration in the digested sample has been electrostatically deposited on pre-polished silver disks at constant temperature. ZnS(Ag) detector-based alpha counting system with minimal detectable value 3.2 mBq has been used for estimation of 210Po activity concentration.
Results
Leaves of Curcuma longa have registered a high concentration of 45.6 ± 4.5 Bq kg−1 of 210Po and rhizome of Allium sativum has registered a low value of 4.7 ± 0.8 Bq kg−1. Leaves of spice plants have registered higher concentration of 210Po than their fruits, seeds, flower buds or rhizomes. Soil to plant transfer factor of 210Po has been found to vary from 0.13 for rhizome of A. sativum to 2.23 corresponding to leaf of C. longa. Concentration of 210Po estimated in leaves and mean leaf areas of spice plants has been found to have a correlation coefficient of 0.83, which indicates that absorption of 210Po deposited on surface area of leaves is the main source of this isotope in plant parts.
Conclusions
Consumption of various parts of spice plant does not pose significant radiological risk as effective dose received by the general public as 210Po has been found to vary from 6.34 to 46.05 µSv y−1, less than the value recommended by ICRP.
Acknowledgements
The author is thankful to Dr. V. Meenakshisundaram, former Head, Radiation Safety section, Indira Gandhi Center for Atomic Research, Kalpakkam and Dr. S. Selvasekarapandian, former Professor, Karunya University, Coimbatore for their continued support and encouragement throughout this work. The cooperation and assistance provided by administration, co faculty members of GS department are gratefully acknowledged.
Disclosure statement
The author declares no conflict of interest.
Additional information
Notes on contributors
R. Sivakumar
R. Sivakumar is an Assistant Professor of Physics in the department of general studies, Jubail University college Saudi Arabia.