P. Wirabuana, R. Hendrati, L. Baskorowati, M. Susanto, . Mashudi, Harry Budi Santoso Sulistiadi, D. Setiadi, . Sumardi, Syamsu Alam
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Results demonstrated that the incremental rate of diameter and height was higher during the initial period between 1 and 3 years. The mean volume increased along with age and reached its maximum value at 14 years (164.54 m3 ha−1). Biomass distribution in each tree component varied from 8.75 to 66.72%. More than 80% biomass production was accumulated above ground. Total carbon stock improved from 2.68 Mg ha−1 at 1 year to 54.01 Mg ha−1 at 14 years. Our study noted that the total energy storage in clonal teak plantation increased progressively from 22.71 × 106 MJ ha−1 at 1 year to 377.74 × 106 MJ ha−1 at 14 years. Overall, this study concluded the growth, biomass, carbon, and energy in clonal teak increased progressively with age. 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引用次数: 2
摘要
克隆柚木人工林在爪哇得到了广泛的发展,并为提高国有森林的生产力做出了有意义的贡献。它还在减缓气候变化方面发挥关键作用,是可再生能源的主要来源。然而,关于其林分动态的资料很少被文献记载。研究了无性系柚木人工林生长、生物量、碳储量和能量的变化规律。研究地点位于肯德尔森林管理股。从14个不同的室收集数据,作为克隆柚木建立的优先地点。各隔室立地质量相近,但年龄层不同。结果表明:在1 ~ 3年的初始阶段,直径和高度的增量速率较高;平均体积随年龄增长而增加,在14岁时达到最大值(164.54 m3 ha−1)。各组分生物量分布在8.75% ~ 66.72%之间。超过80%的生物量是在地上积累的。总碳储量从1年的2.68 Mg ha - 1增加到14年的54.01 Mg ha - 1。结果表明,克隆柚木人工林总蓄能从22.71 × 106 MJ ha - 1增加到377.74 × 106 MJ ha - 1。总体而言,随着年龄的增长,克隆柚木的生长、生物量、碳和能量逐渐增加。克隆柚木在不同地点的林分动态还需要进一步的研究。
Growth performance, biomass accumulation, and energy production in age series of clonal teak plantation
Abstract Clonal teak plantation has been extensively developed in Java and providing a purposeful contribution to improve the productivity of the state forests. It also plays a crucial role in climate change mitigation and serves as a primary source of renewable energy. However, information about its stand dynamics has been rarely documented. This study investigated the growth, biomass, carbon stock, and energy storage along an age series of clonal teak plantation. The study site was located in the Kendal Forest Management Unit. Data were collected from 14 different compartments as the priority sites of clonal teak establishment. Every compartment had similar site quality but different in age stand. Results demonstrated that the incremental rate of diameter and height was higher during the initial period between 1 and 3 years. The mean volume increased along with age and reached its maximum value at 14 years (164.54 m3 ha−1). Biomass distribution in each tree component varied from 8.75 to 66.72%. More than 80% biomass production was accumulated above ground. Total carbon stock improved from 2.68 Mg ha−1 at 1 year to 54.01 Mg ha−1 at 14 years. Our study noted that the total energy storage in clonal teak plantation increased progressively from 22.71 × 106 MJ ha−1 at 1 year to 377.74 × 106 MJ ha−1 at 14 years. Overall, this study concluded the growth, biomass, carbon, and energy in clonal teak increased progressively with age. Further investigations are still required to understand the stand dynamics of clonal teak at different sites.