Analysis of Environmental Characteristics in Habitat of Amanita hemibapha
2011
Sou, H.D., Korea Forest Research Institute, Seoul, Republic of Korea | Hur, T.C., Korea Forest Conservation Association, Seoul, Republic of Korea | Jung, S.C., Korea Forest Research Institute, Seoul, Republic of Korea | Joo, S.H., Kyungpook National University, Daegu, Republic of Korea | Park, H., Korea Forest Research Institute, Seoul, Republic of Korea
Amanita hemibapha is a kind of mycorrhizal mushroom which has a relation with host plants and environmental factors. For the purpose of studying the relationship between environmental factors and mushrooms, in this study we conducted to investigate the soil physicochemical properties, the distribution of plants and the diversity of mushrooms in Gwangyang, Chungdo and Daegu. Soil texture in habitate of Amanita hemibapha was Sandy Loam and Sandy Clay Loam which contains a high rate of sand. Soil pH was approximately 5.0 in all study sites. Total nitrogen contents, C/N ratio and available phosphate(P₂O∧5) were the highest at the Chungdo. However, Gwangyang and Chungdo represent similar Cation Exchange Capacity(C.E.C) and Daegu has much less than other areas. Exchangeable cations, Ca²+ content was higher at Gwangyang and Chungdo than Daegu and Na+ content was the highest at Chungdo among three sites. Daegu has much Mg²+ contents followed by Chungdo and Gwangyang. Interestingly, K+ content listed in reverse order of Mg²+ at Gwangyang, Chungdo and Daegu. The main woody plants in study sites are confirmed as Carpinus laxiflora, Quercus mongolica, Q. serrata and Pinus densiflora. Quercus species are found as a common species in three study sites. Lastly, 8 family and 12 species of mushrooms are emerged in Gwangyang, also 8 family and 12 species and 5 family and 10 species are found in Chungdo and Daegu, respectively. Amanita pantherina, Boletus edulis, Tylopilus felleus and Marasmius maximus, which found in study sites, are also kind of mycorrhizal mushroom same as A. hemibaph. By using correspondence analysis, Q. mongolica, Q. serrata, Q. variabilis and C. laxiflora are expected to as a host plant of A. hemibapha.
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