Variation in leaf trait networks of xerophytes along a dune stabilization gradient

doi:10.1093/jpe/rtag024

J Plant Ecol ›› Advance articles DOI:10.1093/jpe/rtag024

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Variation in leaf trait networks of xerophytes along a dune stabilization gradient

Mingze Xu^1,2, Yun Tian^*1, Tianshan Zha¹, Charles P.-A. Bourque^1,3, Xiaoqian Ju¹, Xin Jia¹, Peng Liu¹, Lei Ma^4,2, Cheng Li²

^1. School of Soil and Water Conservation, Beijing Forestry University, Beijing 100083, China
^2. Observation and Research Station of Ecological Restoration for Chongqing Typical Mining Areas, Ministry of Natural Resources, Chongqing Institute of Geology and Mineral Resources, Chongqing 401120, China
^3. Faculty of Forestry and Environmental Management, University of New Brunswick, P.O. Box 4400, Fredericton, E3B 5A3, Canada
^4. College of Resources and Safety Engineering, Chongqing University, Chongqing 400044, China
Correspondence to: T. Yun (tianyun@bjfu.edu.cn + 86 15712969958).

Received:2025-11-05 Accepted:2026-01-29 Published:2026-03-03
Supported by:
This work was supported by the Fundamental Research Funds for the National Natural Science Foundation of China (NSFC, grant numbers 31901366 and 32071842).

旱生植物叶片性状网络沿沙丘固定阶段的变化特征

Abstract

Abstract: In sandy desert environments, plants experience substantial variation in growing conditions throughout the dune fixation process. Despite its ecological importance, the link between xerophytic plant trait adaptation and dune stabilization remains poorly understood. To address this gap, we evaluated 13 leaf functional traits related to physiological, structural, and biochemical properties in selected xerophytic species across four dune stabilization stages in northwest China, namely semi-fixed dunes (D1; vegetation cover, 23%), fixed dunes (D2; 32%), biocrusted-fixed dunes (D3; 46%), and herbaceous-plant-fixed dunes (D4; 60%). We applied leaf trait network (LTN) analysis to explore complex trait interrelationships and assess changes in network parameters during stabilization. Results revealed that both leaf traits and LTNs varied with stabilization stage. At the fixed dune stage (D2), xerophytes shifted from a resource-acquisitive strategy emphasizing rapid carbon and nutrient uptake to a more conservative strategy characterized by slower returns on investment. Leaf trait network connectivity increased with stabilization, as indicated by decreasing average path length and increasing edge density. Connectivity was positively correlated with soil bulk density (BD) and negatively correlated with soil volumetric water content, suggesting that increasing BD and water stress drove plants to adopt broader trait combinations, enhancing stress tolerance and physiological plasticity during dune stabilization.

Increasing soil bulk density and water stress drove plants to adopt broader trait combinations, enhancing stress tolerance and physiological plasticity during dune stabilization.

Key words: leaf trait network, leaf economic spectrum, dune stabilization stages, xerophytic plants, drought

摘要：
在荒漠环境中，植物的生长环境会随着沙丘固定过程发生很大变化。尽管植被固沙这一过程具有重要生态意义，但旱生植物性状适应策略与沙丘固定阶段之间的关系仍存在较大不确定性。因此，本研究以中国毛乌素沙地4个沙丘不同固定阶段[即半固定沙丘（D1，植被覆盖度23%）、固定沙丘（D2，植被覆盖度32%）、土壤生物结皮固定沙丘（D3，植被覆盖度46%）和草本植物固定沙丘（D4，植被覆盖度60%） ]的旱生植物为研究对象，通过分析与生理、结构及生化特征相关的13个叶片功能性状变化特征，采用性状网络分析方法，探究沙丘固定过程中叶片功能性状间的拓扑关系，以及叶片性状网络参数的变化规律。研究结果表明，旱生植物的叶片功能性状及叶片性状网络特征均随沙丘固定阶段发生显著变化。在D2阶段，旱生植物的资源获取策略由侧重碳与养分快速吸收利用的资源获取型，向资源投入回报速率更慢的资源保守型转变。叶片性状网络的连通性随着沙丘固定阶段的推进而加强，具体表现为网络的平均路径长度减小、边密度增加。叶片性状网络的连通性与土壤容重呈显著正相关关系，与土壤体积含水量呈显著负相关关系，这一结果表明，沙丘土壤容重增加与水分胁迫加剧，会促使旱生植物形成更广泛的性状组合模式，进而提升其在沙丘固定过程中的抗逆性与生理可塑性。

关键词: 叶片性状网络, 叶经济谱, 沙丘固定阶段, 旱生植物, 干旱

Mingze Xu, Yun Tian, Tianshan Zha, Charles P.-A. Bourque, Xiaoqian Ju, Xin Jia, Peng Liu, Lei Ma, Cheng Li. Variation in leaf trait networks of xerophytes along a dune stabilization gradient[J]. J Plant Ecol, DOI: 10.1093/jpe/rtag024.

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Variation in leaf trait networks of xerophytes along a dune stabilization gradient

旱生植物叶片性状网络沿沙丘固定阶段的变化特征

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