分散限制、土壤和火灾对废弃牧场景观中热带次生林功能特性的影响

IF 3.5 3区 环境科学与生态学 Q1 ECOLOGY
Francisco S. Álvarez , Bryan Finegan , Diego Delgado , Zayra Ramos , Luis P. Utrera , Vanessa Granda
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引用次数: 1

摘要

森林年龄是次生林功能特性的主要预测因子,并且通过时间序列方法继续成为局部、景观和区域尺度的次生林演替研究的主要焦点。最近的研究表明,潮湿和季节性干燥低地森林功能特性的时间变化模式有显著差异,这表明光照减少和水分供应增加分别是演替变化的主要驱动因素。然而,与此同时,人为因素(特别是火)、土壤、气候和扩散限制对森林特征在景观上的变化的潜在显著影响仍然知之甚少。研究了哥斯达黎加尼科亚半岛牧草废弃后5-35年季节性干次生林的功能特征。在0.12 ha的52个样地中,测定了63种优势树种和棕榈的11个功能性状。我们使用线性回归和变异划分来确定土壤、气候、立地利用、火灾史、空间因子和林龄在确定群落加权平均(CWM)性状值中的相对重要性。52个样地的叶性状和茎性状谱在主成分排序中呈正交关系。我们的季节性森林假说,即其他作者提出的森林功能属性随着年龄的增长而变得更容易获得,可能是因为我们的时间序列相对较短。我们的耐火性假设是,树皮厚度、木材比重和呼吸能力会随着暴露在火灾中的时间而增加。这一假设不支持树皮厚度。相反,我们的研究结果表明,木材比重和再生能力是更好的预测耐火能力。此外,我们的研究结果表明,10年的火灾暴露会导致森林防火策略的变化,从高CWM树皮厚度到高木材比重。最后,利用气候、土壤、人为和空间变量矩阵的变异分块分析,验证了以邻域矩阵(PCNM)特征函数为主坐标表示的空间变量预测森林功能特性变化的扩散限制假设。总体模型R2 = 0.46)表明,空间变量是森林功能性状值的最佳综合预测因子,其次是土壤(酸度、深度和可提取Mn),支持这一假设。总体而言,火灾、扩散限制和土壤特征解释了这些次生林的功能特性,在5-35年范围内没有年龄的影响。这表明迫切需要考虑到所有这些因素的抽样设计和分析方法,以促进对景观尺度上热带季节性森林恢复的了解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Dispersal limitation, soil, and fire affect functional properties of tropical secondary forests on abandoned cattle ranching landscapes

Forest age is a major predictor of secondary forest functional properties and through the chronosequence approach continues to be a principal focus in local, landscape, and regional-scale studies of secondary succession. Recent work has shown that patterns of temporal change in functional properties differ markedly between wet and seasonally dry lowland forests, suggesting that decreasing light and increasing water availability, respectively, are the main drivers of successional change. Meanwhile, however, the potentially marked effects of anthropogenic factors (especially fire), soils, climate, and dispersal limitation on the variation of forest characteristics over landscapes remain poorly understood. We studied the functional properties of seasonally dry secondary forests 5–35 years after pasture abandonment on the Nicoya Peninsula, Costa Rica. We measured 11 functional traits for 63 dominant tree and palm species in 52 plots of 0.12 ha. We used linear regression and variation partitioning to determine the relative importance of soil, climate, site use, fire history, spatial factors, and forest age in the determination of community weighted mean (CWM) trait values. CWM leaf trait and stem trait spectra of the 52 plots were orthogonal in a PCA ordination. Our seasonal forest hypothesis, that forest functional properties become more acquisitive with age as suggested by other authors, was not supported, perhaps because our chronosequence was relatively short. Our fire tolerance hypothesis was that bark thickness, wood specific gravity and resprouting capacity would increase with time of exposure to fires. This hypothesis was not supported for bark thickness. Rather, our results suggest that wood specific gravity and resprouting capacity are better predictors of fire tolerance. Also, our results suggest that >10 years of exposure to fire generates changes in forest fire tolerance strategies from high CWM bark thickness to high wood specific gravity. Finally, we tested our dispersal limitation hypothesis, that spatial variables, expressed as principal coordinates of neighbor matrices (PCNM) eigenfunctions, predict variation in forest functional properties, using variation partitioning analysis with matrices of climate, soil, anthropogenic and spatial variables. The results (overall model R2 = 0.46) indicated that spatial variables, followed by soil (acidity, depth, and extractable Mn), are the best overall predictors of forest functional traits values, supporting this hypothesis. Overall, fire, dispersal limitation and soil characteristics explain the functional properties of these secondary forests, with no effect of age in the 5–35 years range. This indicates a critical need for sampling designs and analytical approaches that take into account all these factors to advance understanding of tropical seasonal forest recovery at the landscape scale.

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来源期刊
CiteScore
6.50
自引率
0.00%
发文量
28
审稿时长
67 days
期刊介绍: Perspectives in Plant Ecology, Evolution and Systematics (PPEES) publishes outstanding and thought-provoking articles of general interest to an international readership in the fields of plant ecology, evolution and systematics. Of particular interest are longer, in-depth articles that provide a broad understanding of key topics in the field. There are six issues per year. The following types of article will be considered: Full length reviews Essay reviews Longer research articles Meta-analyses Foundational methodological or empirical papers from large consortia or long-term ecological research sites (LTER).
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