Abstract. 120 liverwort specimens collected in peninsular Malaysia for oil body studies belonged to 80 species, 6 of which (Frullania subocellata S. Hatt., Chiloscyphus integerrimus Schiffn., Bazzania assamica (Steph.) S. Hatt., Bazzania bilobata Kitag., Telaranea quadriseta (Steph.) J. Engel & G. L. Merrill and Radula assamica Steph.) proved to be new for Malaysia and 9 to its peninsular part or to Selangor or Pahang states. The most interesting occurrences were of Frullania subocellata, hitherto known only from Seram Island, Chiloscyphus integerrimus, known from Java, and Telaranea quadriseta, an Australian element. The majority of the collected species are of Indomalesian distribution. Microphotos and distribution maps of the more interesting species are provided.
This study characterises and evaluates an Al2O3:C-based optically stimulated luminescent dosemeter (OSLD) system, commercially known as the nanoDot™ dosemeter and the InLight® microStar reader, for personal and in vivo dose measurements in diagnostic radiology. The system characteristics, such as dose linearity, reader accuracy, reproducibility, batch homogeneity, energy dependence and signal stability, were explored. The suitability of the nanoDot™ dosemeters was evaluated by measuring the depth dose curve, in vivo dose measurement and image perturbation. The nanoDot™ dosemeters were observed to produce a linear dose with ±2.8% coefficient variation. Significant batch inhomogeneity (8.3%) was observed. A slight energy dependence (±6.1%) was observed between 60 and 140 kVp. The InLight® microStar reader demonstrated good accuracy and a reproducibility of ±2%. The depth dose curve measured using nanoDot™ dosemeters showed slightly lower responses than Monte Carlo simulation results. The total uncertainty for a single dose measurement using this system was 11%, but it could be reduced to 9.2% when energy dependence correction was applied.
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