从原始森林转变为冷杉人工林 42 年后叶片和表土化学计量之间的密切关系

IF 2.7 3区 农林科学 Q2 ECOLOGY Frontiers in Forests and Global Change Pub Date : 2023-12-15 DOI:10.3389/ffgc.2023.1268262
Can-can Zhang, Yuxin Li, Xin Li, Fusheng Chen, Zhifang Jin, Yaoqi Li, Yaohua Ma, Shiqi Zeng, Shiyun Yang, Wensheng Bu
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引用次数: 0

摘要

土壤中 C:N:P 的化学计量可以调节植物的存活率,并反映土壤肥力和养分利用率。尽管原始森林普遍转变为人工林或次生林,但人们对这些转变如何影响叶片和土壤的化学计量关系知之甚少。我们研究了中国亚热带地区冷杉人工林、次生林和原始森林中 75 个地块(20 m × 20 m)的地形、叶片和土壤化学计量学。我们发现(1)不同林分类型的叶、氮、磷及其化学计量比存在显著差异;(2)林分类型对土壤SOC、TP、C:N、C:P、N:P(TN除外)有显著影响;(3)叶化学计量对土壤化学计量的解释比例随原始森林向冷杉人工林的转化而增加一倍,而随原始森林向次生林的转化而减少两倍。地形对土壤化学计量的解释比例随着原始森林向杉木人工林或次生林的转化而至少下降了一倍。我们的研究结果表明,将原始森林转变为人工林或次生林会造成土壤养分的短缺,这表明迫切需要保护剩余的原始森林,并通过减少森林干扰来增加林分年龄。因此,确定最佳的林分类型和坡度位置可以有效促进表土中碳、氮、磷养分的积累,这对于改进适当的森林恢复和生态系统管理战略的规划和实施至关重要。
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Tight relationships between leaf and topsoil stoichiometries after 42 years of forest conversion from old-growth forests to Chinese fir plantations
Soil C:N:P stoichiometry can regulate plant survival and reflect soil fertility and nutrient utilization. Despite the widespread conversion of old-growth forests to plantations or secondary forests, there is little knowledge about how these conversions affect the relation between leaf and soil stoichiometries. We examined the topography, leaf, and soil stoichiometries of 75 plots (20 m × 20 m) across Chinese fir plantations, secondary forests, and old-growth forests in subtropical China. We found that: (1) There were significant differences in leaf carbon, nitrogen, phosphorus, and their stoichiometry ratios among different stand types (2) stand type significantly affected soil SOC, TP, C:N, C:P, and N:P, except TN and (3) the explanation percentage of leaf stoichiometry on soil stoichiometry doubled with the conversion of old-growth forest to Chinese fir plantation, whereas it was twofold decreased with the conversion of old-growth forest to secondary forest. The explanation percentage of topography on soil stoichiometry decreased onefold at a minimum with the conversion of the old-growth forest to the Chinese fir plantation or the secondary forest. Our results show the shortages of soil nutrients from transforming old-growth forests into plantations or secondary forests and indicate the urgent need to preserve the remaining old-growth forests and increase stand ages by reducing forest disturbances. Therefore, determining the optimal stand type and slope location can effectively promote the accumulation of carbon, nitrogen, and phosphorus nutrients in the topsoil, which is essential for improving the planning and implementation of appropriate forest restoration and ecosystem management strategies.
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来源期刊
CiteScore
4.50
自引率
6.20%
发文量
256
审稿时长
12 weeks
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