Tree community composition modulates early-stage decomposition of standard litter through chemical and physical engineering

IF 4.4 1区农林科学 Q1 FORESTRY

Forest Ecosystems Pub Date : 2026-04-01 Epub Date: 2025-10-01 DOI:10.1016/j.fecs.2025.100387

Joachim López , Karen Vancampenhout , Bart Muys , Quentin Ponette

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引用次数: 0

Abstract

Litter decomposition is an essential ecosystem process influenced by multiple factors, including substrate quality, climate, edaphic environment, and decomposer communities. However, the role of canopy species identity and diversity on leaf litter decomposition in forests remains understudied. By controlling for macroclimate, soil properties, and litter substrate in a mature common garden, we investigated whether a three-month tea bag incubation of standardized green and rooibos tea substrate is driven by canopy tree species characteristics and diversity. Our study hypothesized two primary pathways: a chemical engineering effect, where trees alter soil properties and decomposer communities through litter input, and a physical engineering effect, where tree canopy structure modulates the local microclimate. The results showed that even under uniform macroclimatic and initial soil conditions, mass loss rates varied widely for green tea (27.4%–73.2%) and rooibos tea (6.1%–34.7%), comparable as found in other research between distinct biomes. While substrate quality was the dominant factor, both engineering pathways and, to a minor extent, tree diversity modulated mass losses. For green tea, tree chemical and physical characteristics seemed equally important, while the physical environment showed an increased importance for rooibos. Incubation depth played a key role, where forest floor decomposition rates are more susceptible to temporal climate variations, and soil-layer decomposition rates are less susceptible to climate variations and more determined by tree species identity. Our findings suggest that tea bag experiments focusing solely on topsoil burial may underestimate processes in the forest floor and the mineral-organic boundary layer. This study underscores the critical role of litter substrate quality in decomposition while demonstrating that tree community composition and the associated herbaceous layer, through both chemical and physical engineering pathways, strongly modulate decomposition rates.

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树木群落组成通过化学和物理工程调节标准凋落物的早期分解

凋落物分解是一个重要的生态系统过程，受基质质量、气候、土壤环境和分解者群落等多种因素的影响。然而，林冠物种身份和多样性对凋落叶分解的影响尚未得到充分研究。通过控制大气候、土壤性质和凋落物基质，我们研究了标准绿茶和路易波士茶基质3个月的茶包孵化是否受到树冠树种特征和多样性的驱动。我们的研究假设了两种主要途径：化学工程效应，即树木通过凋落物输入改变土壤性质和分解者群落；物理工程效应，即树冠结构调节当地小气候。结果表明，即使在相同的宏观气候和初始土壤条件下，绿茶（27.4% ~ 73.2%）和路易波士茶（6.1% ~ 34.7%）的质量损失率也有很大差异，这与不同生物群系之间的其他研究结果相当。虽然基质质量是主要因素，但工程途径和树木多样性在较小程度上调节了质量损失。对于绿茶来说，树木的化学和物理特性似乎同样重要，而物理环境对路易波士红茶的重要性则更大。孵化深度发挥了关键作用，其中森林地面分解率更容易受到时间气候变化的影响，而土层分解率不太容易受到气候变化的影响，更多地取决于树种特性。我们的研究结果表明，仅仅关注表土埋藏的茶包实验可能低估了森林地面和矿物-有机边界层的过程。本研究强调了凋落物基质质量在分解中的关键作用，同时表明树木群落组成和相关草本层通过化学和物理工程途径强烈调节分解速率。

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来源期刊

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.