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Development processes and growth pattern of Pinus densiflora stands in central eastern Korea
Authors:Pil Sun Park  Kyung Yoon Kim  Ahreum Han  Woongsoon Jang  Yowhan Son  Myong Jong Yi  Byung Bae Park  Yeongmo Son
Affiliation:(1) Department of Forest Sciences, Seoul National University, Seoul, 151-921, Republic of Korea;(2) Division of Environmental Science and Ecological Engineering, Korea University, Seoul, 136-701, Republic of Korea;(3) Department of Forest Resources, Kangwon National University, Chuncheon, 200-701, Republic of Korea;(4) Korea Forest Research Institute, Seoul, 130-712, Republic of Korea
Abstract:Stand growth and developmental processes were investigated in Pinus densiflora Siebold et Zucc. stands of different ages in the central eastern region of Korea. Stands were inventoried and five trees per stand were sampled for stem analysis, age estimation, and growth analysis. More than 80% of sampled trees in a stand were established within 3–5 years, and most stands had a single cohort structure. The initial growth of pine seedlings was slow, but the height growth accelerated beyond 2–3 m height, 5–10 years after establishment. Linear growth was maintained until 10–12 m height, at which suppressed trees fell behind and might die out. The young stand was composed of pure pines, while few pine seedlings and saplings were found in the understory of older stands. The peak of diameter growth rate occurred around 5–15 years after tree establishment, implying that competition begins during that period. The pine stand development follows four stages: (1) the young stage when the growth rate increases and peaks; (2) the height competition stage when trees focus on height growth for light while maintaining a narrow DBH and height distribution; (3) the differentiation stage when suppressed trees die out, and the DBH distribution becomes wider; and (4) the mature stage when stands have a multi-canopy structure with a wide DBH and height distribution, while the understory is dominated by other tree species. The changes in growth rates and stand structure through forest development would be implemented to predict alterations of above-ground carbon sequestration rates.
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