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Variations in resistance to canopy disturbances and their interactions with the spatial structure of major species in a cool‐temperate forest
Authors:Takeshi Torimaru  Naoyuki Nishimura  Kiyoshi Matsui  Toshihiko Hara  Shin‐Ichi Yamamoto
Affiliation:1. Graduate School of Environmental Management, Nagoya Sangyo University, Owariasahi 488‐8711, Japan;2. Present address: Takeshi Torimaru, Faculty of Agriculture and Life Science, Hirosaki University, Hirosaki 036‐8561, Japan;3. E‐mail nishinao@nagoya‐su.ac.jp;4. Biological Laboratory, Nara University of Education, Nara 630‐8528, Japan;5. E‐mail kmatsui@nara‐edu.ac.jp;6. Institute of Low Temperature Science, Hokkaido University, Sapporo 060‐0819, Japan;7. E‐mail t‐hara@pop.lowtem.hokudai.ac.jp;8. Laboratory of Forest Plant Ecology, Graduate School of Bioagricultural Sciences, Nagoya University, Nagoya 464‐8601, Japan;9. E‐mail siyamamo@agr.nagoya‐u.ac.jp
Abstract:Question: How does typhoon‐related disturbance (more specifically, disturbance in the understorey due to tree‐fall and branch‐fall) affect different species mortality rates in a vertically well‐structured forest community? Location: Cool‐temperate, old‐growth forest in the Daisen Forest Reserve, Japan. Methods: We investigated the canopy dynamics and mortality rate trends of trees ≥5 cm diameter at breast height in a 4‐ha study plot, and analysed the effects of tree diameter and spatial structure on the mortality risks for major tree species in the understorey. Results: Significant differences were found in the mortality rates and proportions of injured dead stems between census periods, which were more pronounced in the understorey than in the canopy. Acer micranthum, which showed increased mortality during typhoon disturbance periods, had a clumped distribution. In contrast, Acer japonicum and Viburnum furcatum, which showed similar mortality rates between census periods, had a loosely clumped spatial distribution and a negative association with canopy trees, respectively. In the understorey stems of Acanthopanax sciadophylloides and Fagus crenata, whose spatial distribution patterns depended on canopy gaps, significant increases in mortality rates were observed only during severe typhoon‐related disturbance periods. Conclusions: The sensitivity of trees to typhoon‐related canopy disturbance is more pronounced in the lower layers of vertically structured forest communities. Differences in mortality patterns generated through the combined effects of spatial variation in disturbance regime and species‐specific spatial distribution patterns (spatial aggregation, association with canopy trees, and canopy gap dependency) contribute to the co‐existence of understorey species in forest communities that are subject to typhoon‐related disturbance.
Keywords:Canopy dynamics  Mortality rate  Spatial aggregation  Typhoon disturbance  Understorey
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