| Abstract: | Abstract. In 1991, the catastrophic Typhoon 9119 created many treefall gaps in an old‐growth beech (Fagus crenata) forest on Mt. Garyu, southwestern Japan. In a 3.3‐ha plot, the density and basal area of fatally damaged trunks (DBH ≥ 20 cm) were 29.1 trunks/ha (16.9% of all pre‐typhoon trunks) and 9.1 m2/ha (24.4% of total pre‐typhoon basal area), respectively. Many of the dominant beech were lost and larger trunks were damaged. The pre‐ and post‐typhoon DBH distribution both had an inverse J‐shape. Spatial distribution of living trunks was not random but clustered irrespective of typhoon damage or DBH size, suggesting that the stand structure of the study plot would be an unusual one as compared with the previous study stands in Japanese beech forests. The death of pre‐typhoon trunks, seemed to die standing or to be killed by snap‐off, occurred singly; however, the typhoon fatally damaged many clustered trunks at the same time. Uprooting was the most frequent cause of gaps created by the typhoon. The intermediate DBH size class (40–70 cm) would be more likely to be uprooted than snapped‐off. The DBH distribution of snap‐off may reflect the total pre‐typhoon trunk distribution. Branch‐fall had a flat DBH distribution. Uprooting might have a clustered distribution, while snap‐off and branch‐fall both had random distributions. The smaller trunks of snap‐off and branch‐fall seemed to result from injuries caused by the fall of larger trunks. |
