氮沉降与环境磷异质性对杉木根系形态、化学性状以及养分效率的协同影响

doi:10.1093/jpe/rtaf062

Journal of Plant Ecology ›› 2025, Vol. 18 ›› Issue (4): 1-50.DOI: 10.1093/jpe/rtaf062

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氮沉降与环境磷异质性对杉木根系形态、化学性状以及养分效率的协同影响

收稿日期:2024-11-09 接受日期:2025-04-24 出版日期:2025-08-01 发布日期:2025-08-22

Synergistic Effects of Nitrogen Deposition and Phosphorus Distribution Patterns on Root morphological and chemical traits, and Nutrient Efficiency in Chinese Fir

Ya-Jing Zhang¹, Ya-Li Si¹, Shi-Bo Ju¹, Wan-Ying Jiang¹, Ming-Zhen Zhao¹, Jing Liu¹, Mulualem Tigabu¹, Xiang-Qing Ma^1,2, Ming Li^1,2*

¹College of Forestry, Fujian Agriculture and Forestry University, Fuzhou 350002, China
²Chinese Fir Engineering Technology Research Center of National Forestry and Grassland Administration, Fuzhou 350002, China.

^*Correspondence: limingly@126.com (M.L.)

Received:2024-11-09 Accepted:2025-04-24 Online:2025-08-01 Published:2025-08-22
Supported by:
This work was by the Central Government Guided Local Science and Technology Development Fund（2024L3003）and National Natural Science Foundation of Fujian Province, China (2022J011224).

摘要/Abstract

摘要： 氮沉降加剧了亚热带杉木人工林的磷限制，然而不同无性系杉木根系对异质磷环境的适应机制尚不明确。为此，本研究通过模拟氮沉降(低N：48 kg hm^–2 a^–1；高N：180 kg hm^–2 a^–1)与环境磷异质性(均质低磷vs.异质低磷)，探究了3种杉木无性系(Y061/Y020：磷高效型；Y2C：磷敏感型)的生长与代谢响应规律。结果表明，在异质磷环境中，高氮沉降促进了杉木地上和地下生物量，特别是显著促进了Y061的根长和根表面积。高氮沉降显著提高根系酸性磷酸酶(APase)活性，但抑制有机酸分泌量，尤其在均质缺磷条件下更为显著。代谢组学分析表明，氮输入驱动根系分泌物组分重构：乳酸、丙二酸、琥珀酸和草酸占比上升，而莽草酸、奎宁酸和苹果酸减少。磷高效无性系(Y061/Y020)通过根系形态可塑性(根长与表面积)实现更高的磷吸收效率，而磷敏感型无性系(Y2C)则依赖酶促磷活化策略，但其生物量积累受限。高氮条件下氮磷吸收效率呈现显著协同效应。该研究表明，氮沉降通过“形态-酶促”轴重构根系养分获取策略：磷高效无性系优先通过根系增殖(而非有机酸分泌)利用空间异质性磷资源。基于此本研究提出：(1)高氮沉降区优先选育Y061/Y020无性系以提升林分生产力；(2)构建具有异质磷分布的针阔混交林可增强生态系统养分弹性。上述研究结果为亚热带杉木人工林的精准育林与可持续经营提供了理论依据。

关键词: 酸性磷酸酶活性, 养分互作, 磷效率, 氮沉降, 根系动态, 根系有机酸

Abstract: Increasing nitrogen (N) deposition exacerbates phosphorus (P) limitations in subtropical Chinese fir plantations, yet clonal mechanisms mediating root adaptation to heterogeneous P environments remain unclear. This study investigates the growth and metabolic responses of three clones (Y061/Y020: P-efficient; Y2C: P-sensitive) under N deposition and contrasting P distributions. Elevated N deposition enhanced aboveground and belowground biomass under heterogeneous P conditions, particularly enhancing Y061’s root length and surface area. Elevated N deposition significantly increased APase activity while decreasing organic acid secretion, particularly under homogeneous P-deficient conditions. Heterogeneous P supply amplified clonal divergence: P-efficient clones exhibited higher phosphorus absorption efficiency (PAE) than Y2C through root morphological plasticity, while N deposition upregulated APase activity but reduced total organic acids secretion. Metabolomic revealed N-driven shifts in exudate profiles, with lactic, malonic, succinic, and oxalic acid increasing while shikimic, quinic and malic acids decreased. Notably, nitrogen absorption efficiency (NAE) synergistically enhanced PAE under high N conditions. Clones Y061 and Y020 demonstrated superior N and P absorption capabilities, while clone Y2C prioritized enzymatic P mobilization in homogeneous deficiency but showed compromised growth. We demonstrate that N deposition restructures root foraging strategies along a “morphological-enzymatic” axis, where P-efficient clones exploit spatial nutrient heterogeneity through root proliferation rather than organic acid investment. These findings provide actionable solutions: (1) Deploying Y061 and Y020 clones in high-N regions improves productivity; (2) Mixed plantations mimicking heterogeneous P distribution enhance nutrient resilience. Our findings contribute to a deeper understanding of nutrient dynamics and providing targeted strategies for sustainable forestry in acidified subtropical soils.

Key words: APase activity, nutrient interactions, phosphorus efficiency, nitrogen deposition, root dynamics, root organic acids

. 氮沉降与环境磷异质性对杉木根系形态、化学性状以及养分效率的协同影响[J]. Journal of Plant Ecology, 2025, 18(4): 1-50.

Ya-Jing Zhang, Ya-Li Si, Shi-Bo Ju, Wan-Ying Jiang, Ming-Zhen Zhao, Jing Liu, Mulualem Tigabu, Xiang-Qing Ma, Ming Li. Synergistic Effects of Nitrogen Deposition and Phosphorus Distribution Patterns on Root morphological and chemical traits, and Nutrient Efficiency in Chinese Fir[J]. J Plant Ecol, 2025, 18(4): 1-50.

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氮沉降与环境磷异质性对杉木根系形态、化学性状以及养分效率的协同影响

Synergistic Effects of Nitrogen Deposition and Phosphorus Distribution Patterns on Root morphological and chemical traits, and Nutrient Efficiency in Chinese Fir

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