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应用生态学报 ›› 2020, Vol. 31 ›› Issue (6): 1916-1922.doi: 10.13287/j.1001-9332.202006.004

• 研究报告 • 上一篇    下一篇

长白山云冷杉针阔混交林不同林隙下幼苗幼树密度及空间分布

贺丹妮1, 杨华1*, 温静2, 谢榕3   

  1. 1北京林业大学林学院, 北京 100083;
    2北京市西山试验林场, 北京 100093;
    3浙江省玉环市自然资源和规划局, 浙江玉环 317600
  • 收稿日期:2019-12-27 出版日期:2020-06-15 发布日期:2020-06-15
  • 通讯作者: * E-mail: huayang8747@163.com
  • 作者简介:贺丹妮, 女, 1995年生, 硕士研究生。主要从事森林资源监测与评价研究。E-mail: 841778457@qq.com
  • 基金资助:
    国家重点研发计划项目(2017YFC0504101)资助

Density and spatial distribution of seedlings and saplings in different gap sizes of a sprucefir mixed stand in Changbai Mountains, China

HE Dan-ni1, YANG Hua1*, WEN Jing2, XIE Rong3   

  1. 1College of Forestry, Beijing Forestry University, Beijing 100083, China;
    2Beijing Xishan Experimental Forest Farm, Beijing 100093, China;
    3Yuhuan Bureau of Natural Resources and Planning, Yuhuan 317600, Zhejiang, China
  • Received:2019-12-27 Online:2020-06-15 Published:2020-06-15
  • Contact: * E-mail: huayang8747@163.com
  • Supported by:
    This work was supported by the National Key R&D Program of China (2017YFC0504101).

摘要: 2019年8月在云冷杉针阔混交林样地(0.36 hm2),对48个林隙及幼苗(0.2<更新高度RH<1 m)、幼树(RH≥1 m,胸径DBH<5 cm)进行调查,分析林隙大小(<20 m2,小;20~50 m2,中;50~120 m2,大;>120 m2,特大)对林隙内红松、鱼鳞云杉及冷杉幼苗幼树密度和生长指标(高、基径)的短期影响,并采用核密度估计法分析其空间分布规律。结果表明: 云冷杉更新的密度通常随林隙增大而降低,仅对幼树影响显著,小林隙下云冷杉幼树密度分别为0.34和1.74株·m-2,红松密度不受林隙大小的影响。林隙大小对冷杉幼苗幼树生长指标的影响最大,对红松影响最小,平均最大值多出现在大林隙。红松和云杉幼树的基径和树高最大值均分布在小、中、大林隙东北部,在特大林隙中转移至冠空隙西北部。小林隙有助于幼苗的建立和萌发,可通过择伐冷杉创造小林隙,随后扩大林隙面积(>50 m2)促进幼树生长,需要持续监测来确定林隙大小对森林更新的长期影响。

Abstract: In August 2019, we investigated natural regeneration (seedlings height between 0.2 m and 1 m; saplings ≥1 m in height and <5 cm in DBH) inside canopy gaps (n=48) in a plot (0.36 hm2) established in a typical mixed spruce-fir conifer broadleaved stand. To examine the short-term effects of gap size (small <20 m2, medium 20-50 m2, large 50-120 m2, and extra large >120 m2) on the regeneration density and growth (height and ground diameter) of Korean pine (Pinus koraiensis), Ezo spruce (Picea jezoensis) and Khingan fir (Abies nephrolepis), the kernel density estimation was used to examine their spatial distribution within gaps. The results showed that spruce and fir regeneration density generally decreased with the increases of gap size (significant effect only on saplings). The density of spruce and fir saplings in small gaps was 0.34 and 1.74 trees·m-2, respectively. In contrast, the density of Korean pine was not affected by gap size. The effects of gap size on seedling and sapling growth were strongest in Khingan fir and weakest in Korean pine, with greater height and ground diameter in larger gaps. Within a given canopy gap, the Korean pine and Ezo spruce saplings in small, medium, and large gaps were taller and had larger DBH in the northeastern corner of the expanded gap than in other sections, whereas those in extra large gaps had the highest growth in the northwestern part of the core gap. Small gaps favoring seed germination and seedling establishment could be created through selective removal of Khingan fir, which should be expanded later to larger sizes (>50 m2) to enhance sapling growth. Further monitoring would be required to understand the long-term effects of gap size on natural regeneration of spruce-fir forest.