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3 "Hwa-Yong Lee"
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Data Article
The Funga of Higher Fungi of Mountain Minjuji in Korea
Eunsu Park, Sangyoung Park, Sohee Kim, Eunjin Kim, Hwa-Yong Lee, Ju-Kyeong Eo
GEO DATA. 2024;6(4):330-339.   Published online December 31, 2024
DOI: https://doi.org/10.22761/GD.2024.0037
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AbstractAbstract PDF
In this study, we conducted basic research on the classification and ecology of higher fungi as part of the 2023 biomimicry research. These fungal strains will be used in mycofabrication research for the development of textile materials. We investigated the biodiversity of higher fungi in Mountain Minjuji from May to October 2023. We identified two divisions, seven classes, 19 orders, 52 families, 95 genera, and 181 species of fungi. We divided the Ascomycota strains into four classes, seven orders, 12 families, 14 genera, and 17 species, and the Basidiomycota strains into three classes, 12 orders, 39 families, 81 genera, and 164 species. The top three most frequently discovered taxa were Russula Pers., with a total of 19 species identified, followed by Amanita Pers., with 12 species, and Lactarius Pers., with 11 species. Our results provide basic data on the higher fungi of Mountain Minjuji and will assist with fungal monitoring research.
Original Paper
The Funga of Higher Fungi of Mt. Jeombong in Korea: A Survey of Mongolian Oak Forest in 2017
Seung Won Lee, Juo Choi, Ho-Yeon Won, Young Sang Lee, Dongsu Yu, Areum Han, Hwa-Yong Lee, Hee-Su Lee, Ju-Kyeong Eo
GEO DATA. 2023;5(1):40-48.   Published online March 30, 2023
DOI: https://doi.org/10.22761/GD.2023.0001
  • 1,369 View
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AbstractAbstract PDF
This research was conducted to determine the biodiversity of higher fungi at the supersite of Mt. Jeombong from July to October 2017 during the second long-term ecology research by the National Institute of Ecology under the management of the Ministry of Environment of Korea. Forty-three families, 74 genera, and 130 species of higher fungi were found within the permanent square area of Mt. Jeombong and a 10 m radius of the ecological flux tower. Russulaceae (54 species, 21.9%), Amanitaceae (17 species, 6.9%), and Boletaceae (17 species, 6.9%) were the top three species taxa found in mycorrhizal mushrooms. Mycenaceae (nine species, 8.5%), Polyporaceae (11 species, 4.5%), and Strophariaceae (11 species, 4.5%) were the top three species taxa found in saprophytic mushrooms. These results were analyzed and compared with those of previous fungal mushroom studies.
Article
The Funga of Higher Fungi of the Mongolian Oak Forest in Mt. Jeombong, Korea
Ju-Kyeong Eo, Eunsu Park, Ho-Yeon Won, Young Sang Lee, Dongsu Yu, Areum Han, Hwa-Yong Lee, Hee-Su Lee
GEO DATA. 2021;3(2):1-11.   Published online July 21, 2021
DOI: https://doi.org/10.22761/DJ2021.3.2.001
  • 808 View
  • 23 Download
AbstractAbstract PDF
This study was conducted to find the biodiversity of higher fungi at the supersite of Mt. Jeombong from July to October 2016 during the Second Long Term Ecology Research project. A total of 31 families, 52 genera, and 120 species of higher fungi were found within the permanent 1 ha qaudrat and in a 10 m radius of the ecological flux tower. From a taxonomical and ecological perspcetive, Russulaceae (22 species, 18.0%), Boletaceae (17 species, 13.9%), and Amanitaceae (10 species, 8.2%) were the top 3 taxa with the most species found in mycorrhizal mushrooms. Marasmiaceae (10 species, 9.8%), Mycenaceae (8 species, 6.6%), and Polyporaceae (6 species, 4.9%) were also the top 3 taxa with the most species found in saprophytic mushrooms.

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