花开的时候,我们回收的更快!凋落物与花凋落物分解的种内相互混合效应。

IF 3.5
Proceedings. Biological sciences Pub Date : 2025-09-01 Epub Date: 2025-09-24 DOI:10.1098/rspb.2025.0234
Mery Ingrid Guimarães de Alencar, Bertrand Guenet, André M Amado, Adriano Caliman
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引用次数: 0

摘要

植物器官的形态和功能影响植物的分解。花凋落物通常分解得更快,质量也比同种凋落物高。然而,植物器官间凋落物质量的种内差异如何驱动凋落物混合对分解的影响尚不清楚。我们假设:(1)花凋落叶混合分解比单独分解更快;(2)凋落叶分解的协同效应更强;(3)凋落叶混合效应是由多元凋落叶性状互补介导的。为了验证这些假设,我们利用28种热带木本植物的凋落物和凋落叶进行了一项普通的园林田间试验。正如预测的那样,两种凋落物类型的协同效应是共同的、相互的,其中凋落叶分解的协同效应更强。不同的功能性状预测了不同凋落物类型的凋落物混合效应,支持多元性状互补假说。两种凋落物类型凋落物混合效应的变异中,原生性状(凋落物本身固有的)占三分之二,而外来性状(来自相关凋落物)占三分之一。这些发现表明,植物器官之间的功能差异会影响凋落物混合对分解的影响。这促进了我们对凋落物多样性-分解关系及其在养分循环和植物-土壤反馈中的意义的理解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
When blooming, we recycle faster! Reciprocal intraspecific litter-mixing effects of floral and leaf litter decomposition.

The form and function of plant organs influence plant decomposition. Floral litter typically decomposes faster and is of higher quality than conspecific leaf litter. However, how intraspecific differences in litter quality between plant organs drive litter-mixing effects on decomposition remains unclear. We hypothesized that: (i) floral and leaf litter decompose faster when mixed than when decomposed alone, (ii) these synergistic effects are stronger for leaf litter decomposition, and (iii) litter-mixing effects are mediated by multivariate litter trait complementarity. To test these hypotheses, we conducted a common garden field experiment using floral and leaf litter from 28 tropical woody species. As predicted, synergistic effects were common and mutual for both litter types, with stronger effects observed in leaf litter decomposition. Different functional traits predicted litter-mixing effects for each litter type, supporting the hypothesis of multivariate trait complementarity. Autochthonous traits (inherent to the litter itself) accounted for two-thirds of the variation in litter-mixing effects for both litter types, while allochthonous traits (from associated litter) explained one-third of the variation. These findings highlight that functional differences between plant organs influence litter-mixing effects on decomposition. This advances our understanding of the litter diversity-decomposition relationship and its implications for nutrient cycling and plant-soil feedback.

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