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3366300 
Journal Article 
Introduce lichen Lepraria incana as biomonitor of Cesium-137 from Ramsar, northern Iran 
Dalvand, A; Jahangiri, A; Iranmanesh, J 
2016 
Yes 
Journal of Environmental Radioactivity
ISSN: 0265-931X
EISSN: 1879-1700 
160 
36-41 
WOS:000378465500005 
Lichens have been used as biomonitors of airborne radionuclides released in conjunction with nuclear bomb testing as well as nuclear power plant accidents. The potential of lichens for monitoring of radionuclides has been well documented. However, there are no studies that determine natural and artificial radionuclide monitoring by lichens, in Iran. Thus, as a first step, we have conducted a comparison of Cs-137 activity concentration capacity of three epiphytic lichen species including Lepraria incana, Xanthoria parietina and Ramalina farinacea from Ramsar Northern Iran. In this work, accumulation capacity of Cs-137 was determined in 36 lichen samples using a gamma spectrometer equipped with a high purity germanium (HPGe) detector. The results showed that highest accumulation capacity of Cs-137 in the lichen species was found in Lepraria incana and Xanthoria parietina, 30.2, 9.8 Bq/kg respectively, and lowest average accumulation capacity were found in Ramalina farinacea 2.7 Bq/kg (dry weight). This study showed that activity concentration Cs-137 is in crustose > foliose > fruticose lichens in the same biotope. Thus, crustose lichens are capable to accumulate higher Cs-137 than foliose and fruticose species because of different factors such as special morphological characteristics in these species and large surface/volume ratio or longer biological half-life of Cs-137 in lichen Lepraria incana. Therefore, Lepraria incana due to high concentration capability of Cs-137 (approximately 3 and 11 time higher than Xanthoria parietina and Ramalina farinacea, respectively), is introduced as biomonitor of Cesium-137 from Ramsar, North of Iran. (C) 2016 Elsevier Ltd. All rights reserved. 
Lichen; Biomonitor; Airborne; Radionuclides; Epiphytic lichen; Ramsar