氮素形态调控珊瑚岛土壤养分留存及植物吸收：基于15N示踪试验的证据

doi:10.1093/jpe/rtaf191

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氮素形态调控珊瑚岛土壤养分留存及植物吸收：基于¹⁵N示踪试验的证据

收稿日期:2025-07-24 接受日期:2025-11-04

Nitrogen form governs nutrient retention and plant uptake in coral island soils: Evidence from a¹⁵N-tracing experiment

Han Chen^1,2,3, Hua He^1,2,3, Jinge Zhou^1,2,3, Xiaolin Huang^2,3, Yingwen Li^1,2, Yongxin Li^1,2, Yicheng Bai^1,2,3, Jingfan Zhang^1,2,3, Guoming Qin^1,2,3, Zhian Li^1,2,3, Hai Ren^1,2,3, Faming Wang^1,2,3,4*

1.Guangdong Provincial Key Laboratory of Applied Botany, Xiaoliang Research Station for Tropical Coastal Ecosystems, and Key Laboratory of Vegetation Restoration and Management of Degraded Ecosystems, South China Botanical Garden, Chinese Academy of Sciences, Guangzhou, P. R. China

2. South China National Botanical Garden, Guangzhou, P.R. China

3. University of Chinese Academy of Sciences, Beijing 100049, China

4. Southern Marine Science and Engineering Guangdong Laboratory (Zhuhai), Zhuhai 519082, China

^*Corresponding author: Dr. Faming Wang

Email: wangfm@scbg.ac.cn

Tel: +86- 18926127932

Received:2025-07-24 Accepted:2025-11-04
Supported by:
This study was funded by National Key R&D Program of China (Key Special Project for Marine Environmental Security and Sustainable Development of Coral Reefs 2021-400, 2023YFE0113100, 2023YFF1304500).

摘要/Abstract

摘要： 在养分严重匮乏的热带珊瑚岛生态系统中，氮素的可利用性是限制植物生产力的关键因子，因此亟需投入大量外源氮肥。然而，过度或不均衡的施肥也会对环境可持续性构成风险。本研究在珊瑚砂土壤条件下，评估了三种氮肥形态施加—铵态氮(NH₄⁺-N)、硝态氮(NO₃^–-N)和酰胺态氮(NH₂-N)—对土壤性质和植物生长的影响。我们以两种适应热带珊瑚岛环境的树种细叶榕(Ficus macrocarpa)和大叶榄仁(Terminalia catappa)为研究对象，在温室条件下开展了¹⁵N标记试验。结果表明，NO₃^–-N显著促进了土壤氮素留存、微生物生物量氮以及植株整体生长，而NH₄⁺-N则促进了微生物生物量碳的增加。细叶榕和大叶榄仁均在NO₃^–-N处理下长势最佳，但大叶榄仁在NH₂-N处理下获得了更高的叶片养分浓度，这反映了它们在养分吸收偏好上的差异。同位素示踪结果显示，土壤中的氮素回收效率高于植物组织，其中NO₃^–-N处理下的氮素回收效率最高。上述结果表明，氮素形态在调控沙质碱性土壤中土壤–植物互作方面具有关键作用，并为构建具有针对性且可持续的珊瑚岛施肥管理策略提供了重要的机理性见解。

关键词: 珊瑚砂土壤, 施肥策略, ¹⁵N同位素标记, 土壤–植物互作, 沿海生态系统

Abstract: Nitrogen (N) availability critically limits plant productivity in nutrient-depleted coral island ecosystems, necessitating substantial inputs of exogenous N fertilizer. However, excessive or unbalanced fertilization poses risks to environmental sustainability. In this study, we assessed how three N fertilizer forms, ammonium (NH₄⁺-N), nitrate (NO₃^–-N) and amide nitrogen (NH₂-N), affect soil properties and plant performance in coral sand environments. A 15N-labeled greenhouse experiment was conducted using two island-adapted species, Ficus microcarpa and Terminalia catappa. Results showed that NO₃^–-N markedly enhanced nitrogen retention, microbial biomass nitrogen, and overall plant growth, while NH₄⁺-N promoted microbial biomass carbon. F. microcarpa and T. catappa both exhibited superior growth under NO₃^–-N, although T. catappa achieved higher leaf nutrient concentrations with NH₂-N, reflecting differences in nutrient uptake preferences. Isotopic tracing revealed greater nitrogen retention in soils than in plant tissues, with NO₃^–-N fertilization yielding the highest nitrogen recovery efficiency. These findings highlight the importance of nitrogen form in shaping soil–plant interactions in sandy, alkaline soils and offer mechanistic insights for designing targeted, sustainable fertilization strategies for coral island ecosystems.

Key words: Coral sand soils, Fertilization strategy, ¹⁵N isotopic labeling, Soil–plant interactions, Coastal ecosystems

. 氮素形态调控珊瑚岛土壤养分留存及植物吸收：基于¹⁵N示踪试验的证据[J]. Journal of Plant Ecology, DOI: 10.1093/jpe/rtaf191.

Han Chen, Hua He, Jinge Zhou, Xiaolin Huang, Yingwen Li, Yongxin Li, Yicheng Bai, Jingfan Zhang, Guoming Qin, Zhian Li, Hai Ren, Faming Wang. Nitrogen form governs nutrient retention and plant uptake in coral island soils: Evidence from a¹⁵N-tracing experiment[J]. J Plant Ecol, DOI: 10.1093/jpe/rtaf191.

氮素形态调控珊瑚岛土壤养分留存及植物吸收：基于¹⁵N示踪试验的证据

Nitrogen form governs nutrient retention and plant uptake in coral island soils: Evidence from a¹⁵N-tracing experiment

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