林分密度对晋西黄土区油松人工林生长特性的影响

doi:10.13292/j.1000-4890.202505.021

摘要/Abstract

摘要： 探讨不同密度人工林的生长、生物量及其分配特征，可为人工林的可持续经营和高质量发展提供理论支撑。通过野外样地调查，选择标准木进行树干解析，探究50年生林分密度为600、930、1200和1650株·hm^-2的油松人工林生长过程、生物量及其分配差异。结果表明：（1）50年生油松胸径快速生长期为5～20 a，20 a之后进入缓慢生长期；树高快速生长期为5～15 a，之后进入缓慢生长期；不同密度油松胸径和树高进入缓慢生长期林龄存在差异，总体表现为600株·hm^-2密度最晚，1650株·hm^-2最早；胸高断面积在林龄40 a之前均有较高的增量，50 a时930株·hm^-2密度油松胸高断面积仍在快速增长。（2）50年生油松地上生物量未进入缓慢生长期，在林龄50 a时930株·hm^-2密度生长最快，1650株·hm^-2最慢。（3）不同密度油松单株地上生物量在55.78～105.21 kg，生物量随着林分密度增大而减小，各密度条件下油松地上器官生物量大小均为树干>枝条>针叶。研究区域内油松人工林在进行密度调整时，以大径材为培育目标的林分密度应控制在600株·hm^-2，并以胸径指标为依据确定密度调整时期为20 a；以发挥固碳释氧功能为目标的水土保持林需要累积更多的生物量，此时根据胸高断面积指标确定密度调整时期为40 a，调控林分密度以930株·hm^-2为宜。在实际油松人工林抚育管理工作中，应依据不同营林需求选择相应的密度调控措施。

关键词: 林分密度, 林木生长规律, 油松人工林, 晋西黄土区

Abstract: Investigating the growth, biomass, and biomass allocation characteristics of forest plantations under different stand densities offers theoretical support for the sustainable management and high-quality development of plantations. We conducted field surveys and stem analysis of sample trees to explore the differences in growth process, biomass, and biomass allocation of 50-year-old Pinus tabuliformis plantations with stand densities of 600, 930, 1200, and 1650 trees·hm^-2. The results showed that: (1) The rapid growth period of the diameter at breast height (DBH) of Pinus tabuliformis was between 5 and 20 years old, and then entered a slow growth phase. Tree height had a rapid growth phase between 5 and 15 years old, followed by a slow growth stage. The ages at which DBH and tree height entered the slow growth phase varied among different stand densities. The lowest density (600 trees·hm^-2) delayed such transition, while the highest density (1650 trees·hm^-2) entered the slow growth phase earliest. The basal area growth remained fast before the age of 40 years, and continued to grow rapidly at 50 years for the density of 930 trees·hm^-2. (2) Aboveground biomass did not enter a slow growth phase at the age of 50. The growth was fastest at 930 trees·hm^-2 and slowest at 1650 trees·hm^-2 at the age of 50. (3) Aboveground biomass of individual trees ranged from 55.78 to 105.21 kg and decreased with increasing stand density. Across all stand densities, biomass allocation in various organs was in order of trunk > branch > needle. For cultivating large-diameter timber, the density of 600 trees·hm^-2 is recommended. The density should be adjusted at the age of 20 years. For carbon sequestration and ecological functions in water and soil conservation forests, biomass accumulation should be prioritized. In this situation, stand density should be adjusted to 930 trees·hm^-2 at around 40 years based on the basal area. In the actual tending and management of Pinus tabuliformis plantations, appropriate density regulation measures should be selected according to different silvicultural requirements.

Key words: stand density, forest growth regularity, Pinus tabuliformis plantation, loess region of western Shanxi Province

杨周, 张建军, 赵炯昌, 胡亚伟, 李阳, 唐鹏, 王勃. 林分密度对晋西黄土区油松人工林生长特性的影响[J]. 生态学杂志, 2025, 44(5): 1427-1435.

YANG Zhou, ZHANG Jianjun, ZHAO Jiongchang, HU Yawei, LI Yang, TANG Peng, WANG Bo. Effects of stand densities on growth characteristics of Pinus tabuliformis plantation in loess region of western Shanxi Province.[J]. Chinese Journal of Ecology, 2025, 44(5): 1427-1435.

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林分密度对晋西黄土区油松人工林生长特性的影响

Effects of stand densities on growth characteristics of Pinus tabuliformis plantation in loess region of western Shanxi Province.

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