Relationship in litter mixture effects between above- and belowground in a temperate typical steppe

doi:10.1093/jpe/rtaf178

J Plant Ecol ›› 2026, Vol. 19 ›› Issue (3): rtaf178.DOI: 10.1093/jpe/rtaf178

• Research Article •

Relationship in litter mixture effects between above- and belowground in a temperate typical steppe

Hua Qing¹, Shangwen Zhi¹, Fujin Zhang², Pujin Zhang^2,*, Wenzhi Bao¹, Guolong Zhang¹, Liqing Zhao¹ and Jianhui Huang^3,4,*

¹Ministry of Education, Key Laboratory of Ecology and Resource Use of the Mongolian Plateau & Inner Mongolia Key Laboratory of Grassland Ecology, School of Ecology and Environment, Inner Mongolia University, Hohhot 010021, China, ²Institute of Grassland Research, Inner Mongolia Academy of Agricultural and Animal Husbandry Sciences, Hohhot 010031, China, ³State Key Laboratory of Vegetation and Environmental Change, Institute of Botany, Chinese Academy of Sciences, Beijing 100093, China, ⁴College of Resources and Environment, University of Chinese Academy of Science, Beijing 100049, China

^*Corresponding authors. E-mails: zhangpujin0819@163.com(P.Z.); jhhuang@ibcas.ac.cn(J.H.)

Published:2026-06-01
Supported by:
This work was funded by the National Natural Science Foundation of China (32060268), the Natural Science Foundation of Inner Mongolia Autonomous Region (2022MS03036), and Science and Technology Major Project of Inner Mongolia Autonomous Region ‘Assessing the ecological impacts of wind and solar energy development in Inner Mongolia and formulating adaptive mitigation strategies’.

温带典型草原地上和地下凋落物混合分解效应关系及其影响因素

Abstract

Abstract: Leaf and root litter profoundly impact soil carbon sequestration and nutrient cycling in terrestrial ecosystems. Recent evidence indicates that within single-species contexts resource traits are coordinated between leaves and roots driving parallel decomposition dynamics of leaf and root litters, yet it remains unclear whether this coordination also underlies parallel mixing effects in leaf and root litter mixture decomposition. In a 501-day field experiment in a temperate steppe, we incubated leaf and fine root litters from six species alone and in all pairwise mixtures. We assessed the relationship between leaf and fine root litter decomposition responses to litter mixing, and examined how trait dissimilarity between component species and decomposition responses of four carbon fractions (soluble compounds, hemicellulose, cellulose and lignin) shape this relationship. We found litter trait dissimilarities drove contrasting fraction-level responses to litter mixing. Most leaf and fine root litter mixtures exhibited non-additive effects in soluble-compound and cellulose decomposition, with soluble compounds contributing most to the overall non-additive effects of mixed leaf and fine root litters. Coordinated dissimilarity in leaf and root traits led to parallel decomposition responses of leaf and root soluble compounds to litter mixing, but to negative correlations for hemicellulose and cellulose and no correlation for lignin. These divergent fraction-level relationships blurred overall coordination of decomposition response between leaf and fine root litters to litter mixing, causing uncoordinated bulk-litter mixing effects. Our results demonstrate that resolving fraction-level processes is critical for understanding mixed-litter decomposition and for predicting ecosystem carbon and nutrient fluxes under changing plant communities.

Whether the “phosphorus-acquiring advantage” of legumes in subtropical regions can persist under long-term nitrogen deposition remains unclear. Here, we demonstrate that prolonged high-nitrogen inputs accelerate the loss of this advantage in legume plantations.

Key words: carbon fractions, decomposition, fine roots, leaf litter, litter mixture, physical and chemical traits

摘要：
植物叶和根凋落物分解在陆地生态系统碳与养分循环中扮演重要角色。研究表明，单物种叶根性状呈现协同变异，进而使二者凋落物的分解动态表现出协同性。然而，叶根性状协同变异是否促进叶根凋落物混合分解效应的协同变化仍不清楚。为此，本研究在温带草原选取6个物种叶和细根凋落物，分别设置单物种与任意两物种混合处理，开展了为期501天的野外分解试验。研究分析了叶与细根凋落物混合分解效应之间的关系，并探究了凋落物种间性状差异及4类碳组分(可溶性物质、半纤维素、纤维素和木质素)如何影响上述混合分解效应。结果显示：1)种间性状差异使不同碳组分对凋落物混合的分解响应不同。多数叶与细根混合凋落物在可溶性物质和纤维素的分解上表现出非加和效应，其中可溶性物质对叶与细根凋落物的总体非加和效应的贡献最大。2)叶与细根混合凋落物的种间性状差异具有协同性，使两者可溶性物质的分解对凋落物混合的响应呈协同关系，而半纤维素和纤维素的分解响应呈负相关，木质素则无显著相关性。3)叶与细根凋落物混合分解效应的关系在碳组分水平上的差异削弱了两者的整体协同性，表现出非协同变化。上述结果表明，在碳组分水平上解析分解过程对于理解混合凋落物分解，以及预测植物群落变化背景下生态系统碳与养分循环至关重要。

关键词: 碳组分, 分解, 细根, 叶凋落物, 混合凋落物, 理化性状

Hua Qing, Shangwen Zhi, Fujin Zhang, Pujin Zhang, Wenzhi Bao, Guolong Zhang, Liqing Zhao, Jianhui Huang. Relationship in litter mixture effects between above- and belowground in a temperate typical steppe[J]. J Plant Ecol, 2026, 19(3): 1-.

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Relationship in litter mixture effects between above- and belowground in a temperate typical steppe

温带典型草原地上和地下凋落物混合分解效应关系及其影响因素

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