@article{oai:kumadai.repo.nii.ac.jp:00023284,
 author = {Ino, Naoko and 金柿, 主税 and Kanagaki, Chikara and Iino, Naoko and 飯野, 直子 and 金柿, 主税},
 journal = {熊本大学教育学部紀要 自然科学},
 month = {Dec},
 note = {application/pdf, 論文(Article), Miyakejima volcano has been ejecting enormous amounts of volcanic gas since mid-August 2000. We discussed the continuous
measurement SO2 data at the foot of Miyakejima volcano, in conjunction with upper wind data at Hachijyojima near-by, synoptic charts, atmospheric conditions and satellite images of the distribution of vegetation. The following results are obtained. Fresh wind is the main cause of high SO2 concentrations for each gas monitoring station. The winter monsoon wind brings high SO2 concentrations for many hours to the stations located east of the volcano. Travelling high/low pressure systems that move eastward are characteristic of spring and autumn weather, and high SO2 concentrations produced by strong, changeable winds were recorded at various stations as low pressure systems accompanying cold fronts passed near the island. In addition, the position of typhoon and deep low pressure system accompanying cold front, and the path of them dominantly affects the high SO2 concentrations.The frequency of high SO2 concentration events corresponds well to the distribution of vegetation shown in an image of TERRA/ASTER. The Ministry of  Education, Culture, Sports, Science & Education have improved the course of studies from elementary school to upper secondary school in 2008 (elementary school and lower secondary school) and in 2009 (upper secondary school). In order to develop the teaching materials based on the new course of studies, we discuss the usage of Miyakejima results as teaching materials for meteorological and environmental educations.},
 pages = {45--53},
 title = {火山噴煙・ガスと周辺環境の教材化},
 volume = {58},
 year = {2009},
 yomi = {カナガキ, チカラ and イイノ, ナオコ}
}