Differential roles of seed and sprout regeneration in forest diversity and productivity after disturbance

IF 3.8 1区 农林科学 Q1 FORESTRY
Marek Mejstřík , Martin Svátek , Martina Pollastrini , Martin Šrámek , Radim Matula
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引用次数: 0

Abstract

Natural regeneration after disturbances is a key phase of forest development, which determines the trajectory of successional changes in tree species composition and diversity. Regenerating trees can originate from either seeds or sprouts produced by disturbed trees with sprouting ability. Although both regeneration strategies often develop and co-occur after a disturbance, they tend to affect forest development differently due to significant functional differences. However, the origin of tree regeneration is rarely distinguished in post-disturbance forest surveys and ecological studies, and the differential roles of seed and sprout regeneration in forest productivity and diversity remain poorly understood. To address these research gaps, we explored the role of sprout and seed regeneration in the formation of woody species diversity and above-ground biomass (AGB) productivity in early-stage forest development. Data were collected in two experimental forest stands in the Czech Republic, where trees were cut with varying intensities with the density of residual (uncut) trees ranging from 0 to 275 trees per hectare. All trees were mapped and their sizes were measured before cutting and then, either as a stump with sprouts or a residual tree, remeasured 11 years later. In addition, all tree saplings were mapped and measured 11 years after logging, and their origin (sprout or seed) was identified. To assess abundances and productivity, we estimated AGB of all 2,685 sprouting stumps of 19 woody species and 504 generative (i.e., seed origin) individuals of 16 woody species, using allometric equations. Mixed-effects models were used to analyze the effects of each regeneration strategy on woody species diversity and the total AGB under varying densities of residual trees. Nonmetric multidimensional scaling was used to evaluate the effect of regeneration strategies on species composition. AGB and diversity of sprouts were significantly higher than those of seed regeneration. Sprouts formed on average 97.1% of the total regeneration AGB in Hády and 98.6% in Soběšice. The average species richness of sprouts was 4.7 in Hády and 2.2 in Soběšice, while the species richness of seed regeneration averaged 2.1 and 1.1 in Hády and Soběšice, respectively. Increasing density of residual trees reduced AGB and diversity of both sprouts and seed regeneration, but seed regeneration was affected to a greater extent. Residual trees had an especially strong inhibitory effect on the establishment of seed regeneration. Consequently, seed-originated saplings were nearly absent in plots with high residual tree density, and abundant sprouts accounted for most of the AGB and diversity. However, unlike sprouts whose species composition resembled that of the original stand, seed regeneration brought in new species, enriching the stand's overall species pool and beta diversity. Our results demonstrated differential roles of sprout and seed regeneration in the early stage of forest succession. Sprout regeneration was the main source of woody AGB productivity as well as species diversity, and its importance increased with the increasing density of standing mature trees. The results indicate the crucial yet previously underestimated role of sprout regeneration in post-disturbance forest dynamics. They suggest that the presence of residual mature trees, whether retained after partial cutting or undisturbed, can substantially suppress seed regeneration while the role of sprout regeneration in early succession becomes more distinctly evident.

扰动后种子和萌芽再生对森林多样性和生产力的不同作用
扰动后的自然再生是森林发展的一个关键阶段,它决定了树种组成和多样性的演替变化轨迹。再生树木既可以来自种子,也可以来自具有萌芽能力的受干扰树木产生的新芽。虽然这两种再生策略经常在受干扰后同时出现,但由于功能上的显著差异,它们对森林发展的影响往往不同。然而,在受干扰后的森林调查和生态研究中,树木再生的起源很少被区分开来,而且人们对种子和萌芽再生在森林生产力和多样性中的不同作用仍然知之甚少。为了填补这些研究空白,我们探索了萌芽和种子再生在森林发展早期形成木质物种多样性和地上生物量(AGB)生产力中的作用。我们在捷克共和国的两个实验林分中收集了数据,在这些林分中,树木的砍伐强度各不相同,残留(未砍伐)树木的密度从每公顷 0 棵到 275 棵不等。所有树木在砍伐前都绘制了地图,并测量了其大小,11 年后又重新测量了带芽树桩或残留树木的大小。此外,在砍伐 11 年后,对所有树苗进行绘图和测量,并确定其来源(萌芽或种子)。为了评估丰度和生产力,我们使用异速方程估算了 19 种木本植物的 2,685 个发芽树桩和 16 种木本植物的 504 个发芽(即种子来源)个体的 AGB。采用混合效应模型分析了在不同的残留树木密度下,每种再生策略对木本物种多样性和总 AGB 的影响。使用非度量多维标度评估了再生策略对物种组成的影响。新芽的AGB和多样性明显高于种子再生。在哈迪(Hády)和索贝希斯(Soběšice),新芽平均占再生总AGB的97.1%和98.6%。新芽的平均物种丰富度在哈迪为 4.7,在索贝希策为 2.2,而种子再生的平均物种丰富度在哈迪和索贝希策分别为 2.1 和 1.1。残留树木密度的增加降低了萌芽和种子再生的AGB和多样性,但种子再生受到的影响更大。残留树木对种子再生的抑制作用尤为明显。因此,在残留树木密度较高的地块中,几乎没有种子再生的树苗,大量的萌芽占了AGB和多样性的大部分。然而,与物种组成与原始林分相似的萌芽不同,种子再生带来了新物种,丰富了林分的整体物种库和β多样性。我们的研究结果表明了萌芽和种子再生在森林演替早期阶段的不同作用。萌芽再生是木质AGB生产力和物种多样性的主要来源,其重要性随着立木成龄树密度的增加而增加。研究结果表明,萌芽再生在受干扰后的森林动态中起着至关重要的作用,但这一作用以前被低估了。这些结果表明,残留成熟树木的存在,无论是部分砍伐后保留的还是未受干扰的,都会大大抑制种子再生,而萌芽再生在早期演替中的作用则变得更加明显。
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来源期刊
Forest Ecosystems
Forest Ecosystems Environmental Science-Nature and Landscape Conservation
CiteScore
7.10
自引率
4.90%
发文量
1115
审稿时长
22 days
期刊介绍: Forest Ecosystems is an open access, peer-reviewed journal publishing scientific communications from any discipline that can provide interesting contributions about the structure and dynamics of "natural" and "domesticated" forest ecosystems, and their services to people. The journal welcomes innovative science as well as application oriented work that will enhance understanding of woody plant communities. Very specific studies are welcome if they are part of a thematic series that provides some holistic perspective that is of general interest.
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