滑坡位移应力下的护植效应

IF 1.5 4区农林科学 Q2 FORESTRY

Iforest - Biogeosciences and Forestry Pub Date : 2023-04-30 DOI:10.3832/ifor4017-015

Jian-hong Yang, L. Chang, Kai-Chi Hsu, C. Fan, D. Doley, G. Song, Michael Song, G. Vacchiano

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引用次数: 0

摘要

虽然树木对浅层滑坡的缓解作用已得到充分认识，但滑坡对树木群落结构和树-树相互作用的影响却很少得到研究关注。对25 ha亚热带森林滑坡前后树木群落结构进行了比较。通过分析滑坡前和滑坡后大(胸径≥20 cm)和小(1 cm≤胸径< 20 cm)树群的空间点格局，研究了树与树之间的相互作用。在滑坡坡面，104棵大树中有35棵(34%)存活，3072棵小树中有467棵(13%)存活。将大(L)和小(S)树队列配对在一起进行空间分析，包括滑坡前(PL) (L PL -S PL)、幸存(S) (L S -S S)和缺失(M)大小树木配对队列(L M -S M)。我们从滑坡前的树木队列中随机选择树木，创建了两个虚拟成对队列，l34% - s13%和l66% - s87%成对队列，其种群大小分别与现场观察到的L S -S S和L M -S M成对队列相同，但具有随机的空间模式。滑坡后树木成活率随胸径单调增加。被山体滑坡移走的大树几乎没有减少小树的存活。这方面的证据包括:(i) L M -S M配对队列的小树到最近的大树的距离与虚拟L 66% -S 87%配对队列没有显著差异;(ii)靠近lm个体的小树存活率与附近没有大树的存活率无显著差异。大树成活对小树成活有正向影响，表现为:(1)L S -S -S配对组小树到最近大树的距离显著低于虚拟L 34% -S - 13%配对组;(ii) S -S个体聚集在L -S个体周围，而虚拟L - 34% -S - 13%的空间关系是随机的。大树通过护生植物的作用防止相邻小树的滑坡移动。我们的研究表明，只要持续保持一个临界的大树密度，就可以减少坡地森林的滑坡损害。

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The nurse-plant effect under the dislodgement stress of landslides

While the mitigating effects of trees on shallow landslide occurrence are well recognised, the impact of landslides on tree community structure and tree-tree interactions have received much less research attention. The structures of tree communities before and after landslides were compared in a 25-ha subtropical forest plot. Tree-tree interactions were examined by analysing the pre-and post-landslide spatial point patterns of large (DBH ≥ 20 cm) and small (1 cm ≤ DBH < 20 cm) tree cohorts. In landslide scarps, 35 (34%) of 104 large trees and 467 (13%) of 3,072 small trees survived. Large (L) and small (S) tree cohorts were paired together for spatial analyses, including pre-landslide ( PL ) (L PL -S PL ), surviving ( S ) (L S -S S ), and missing ( M ) large-small tree paired cohorts (L M - S M ). We randomly selected trees from the pre-landslide tree cohorts to create two virtual paired cohorts, the L 34% -S 13% and L 66% -S 87% paired cohorts, whose population sizes were identical to the field-observed L S -S S and L M -S M paired cohorts respectively, but with random spatial patterns. Post-landslide survival rates of trees increased monotonically with DBH. Large trees dislodged by landslides scarcely reduced small-tree survival. Evidence for this included: (i) the distance from small trees to the nearest large trees of the L M -S M paired cohort did not differ significantly from that of the virtual L 66% -S 87% paired cohort; (ii) survival rates of small trees near L M individuals did not differ significantly from those without large trees nearby. Surviving large trees had positive effects on the survival of small trees, indicated by: (i) the distance from small trees to the nearest large trees of the L S -S S paired cohort was significantly lower than that of the virtual L 34% -S 13% paired cohort; (ii) S S individuals clumped around L S individuals, whereas the virtual L 34% -S 13% spatial relationship was random. Large trees prevent landslide dislodgement of adjacent small trees through the nurse-plant effect. Our study suggests that landslide damage in sloping forests may be reduced simply by constantly maintaining a critical density of large trees.

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来源期刊

Iforest - Biogeosciences and Forestry FORESTRY-

CiteScore

3.30

自引率

0.00%

发文量

审稿时长

6 months

期刊介绍： The journal encompasses a broad range of research aspects concerning forest science: forest ecology, biodiversity/genetics and ecophysiology, silviculture, forest inventory and planning, forest protection and monitoring, forest harvesting, landscape ecology, forest history, wood technology.