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    林隙大小对天山云杉幼树更新的影响

    Effects of gap size on regeneration of saplings in Picea schrenkiana in Xinjiang of northwestern China

    • 摘要:
      目的 明确林隙面积大小对新疆天山云杉幼树更新的影响,探究各林隙等级下幼树的空间分布规律,为云杉林隙内幼树更新提供理论依据。
      方法 本研究对3块1 hm2样地内49个林隙的幼树密度、生长指标和空间位置进行调查,应用核密度估计法和空间点格局分析法,研究不同林隙大小对幼树更新的影响及空间分布规律。
      结果 (1)不同林隙面积等级对云杉幼树密度和生长指标(胸径、树高、冠幅)影响显著(P < 0.05),对幼树地径影响不显著。幼树密度在林隙等级Ⅰ(< 20 m2)中最大;幼树生长指标的最大值多出现在林隙等级Ⅱ(20 ~ 40 m2)中。(2)幼树主要集中在林隙等级Ⅰ(< 20 m2)、林隙等级Ⅱ(20 ~ 40 m2)、林隙等级Ⅲ(40 ~ 90 m2)的东北方向冠下和东南方向冠下,随林隙等级的增加幼树逐渐从林隙边缘向林隙中心转移。(3)幼树在林隙尺度上主要以随机分布为主,随着尺度的增加,从随机分布中逐渐过渡到聚集分布,后期又趋于随机分布。
      结论 林隙大小对天山云杉更新有显著影响,小于20 m2的林隙有助于促进幼树的存活,20 ~ 40 m2的林隙有助于幼树的生长,且幼树在林隙东北部冠下、东南部冠下区域分布集中,生长指标最佳,表明这两个方向有助于幼树生长。因此,可沿这两个方向扩大林隙面积至20 ~ 40 m2来促进幼树的更新生长。

       

      Abstract:
      Objective This paper aims to clarify the effects of gap size on regeneration of saplings of Picea schrenkiana in Xinjiang of northwestern China, and to explore the spatial distribution of saplings under different gap sizes, so as to provide theoretical basis for regeneration of saplings in gaps of P. schrenkiana.
      Method We investigated the density, growth indexes and spatial location of saplings of 49 gaps in three sample plots (1 ha). Kernel density estimation method and spatial point pattern analysis method were used to analyze the influence of different forest gap sizes on sapling regeneration and spatial distribution patterns within gaps.
      Result (1) The density and growth indexes (DBH, tree height, crown width) of saplings were significantly affected by different gap area grades (P < 0.05), but the ground diameter was not significantly affected. The density of saplings was the highest in gap class Ⅰ (< 20 m2). The maximum growth indexes of saplings appeared mostly in gap class Ⅱ(2 040 m2). (2) Saplings mainly concentrated under canopy of gap class Ⅰ(< 20 m2), gap class Ⅱ(20−40 m2) and gap class Ⅲ(40−90 m2) in northeast and under canopy in southeast. Saplings gradually moved from gap edge to gap center with the increase of gap class. (3) The distribution of saplings was random at gap scale, and with the increase of gap scale, the distribution changed from random to aggregated, and then tended to random again.
      Conclusion Gap size has significant effect on regeneration of Picea schrenkiana, which smaller than 20 m2 is helpful to the survival of saplings, and 20−40 m2 is helpful to the growth of saplings. Saplings are concentrated under canopy of the northeast and under the canopy in the southeast of the gap. The growth index is the best, which indicates that these two directions are helpful to the growth of saplings. Therefore, gap size can be expanded to 20−40 m2 along these directions to promote the regeneration growth of saplings.

       

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