不同形态氮添加与丛枝菌根真菌对外来入侵植物白花鬼针草竞争力的影响

doi:10.17521/cjpe.2025.0297

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不同形态氮添加与丛枝菌根真菌对外来入侵植物白花鬼针草竞争力的影响

邹纪开, 吴佳怡, 谷云懿, 陈宝明

中山大学生命科学学院, 广东省植物逆境生物学重点实验室, 广州 510275, 北京中国

收稿日期:2025-08-10 修回日期:2025-09-14
基金资助:
国家自然科学基金(32471739); 广东省基础与应用基础研究基金(2023A1515010669，2024A1515011095)

Effects of different nitrogen forms and arbuscular mycorrhizal fungi on the competitive ability of the invasive alien plant Bidens alba

ZOU Ji-Kai, WU Jia-Yi, GU Yun-Yi, CHEN Bao-Ming

, School of Life Sciences, Guangdong Provincial Key Laboratory of Plant Stress Biology, Sun Yat-sen University, Guangzhou 510275, China , China

Received:2025-08-10 Revised:2025-09-14
Supported by:
the National Natural Science Foundation of China(32471739); and the GuangDong Basic and Applied Basic Research Foundation(2023A1515010669，2024A1515011095)

摘要/Abstract

摘要： 丛枝菌根真菌（AMF）与入侵植物的共生能显著影响其对于本地植物的竞争力，且不同形态的氮对入侵植物的竞争力的影响也存在差异。在氮沉降日益严重的背景下，探讨不同形态的氮添加条件下AMF对入侵植物生长与竞争的影响，能更好地理解入侵植物对土壤氮形态的适应性。本研究采用同质园种植实验，选择常见入侵植物白花鬼针草（Bidens alba）与伴生本地植物一点红（Emilia sonchifolia），设置单独种植与混合种植两种种植方式，设置3个氮处理（铵态氮 [NH4+]，硝态氮 [ NO3−]，不加氮）和2个微生物处理（有AMF，无AMF）。所有氮处理条件下AMF均显著提高了本地植物一点红的生物量，且单种时添加NO3−时AMF对其生物量的促进作用最大，说明本地植物一点红存在显著的AMF依赖性，这种依赖性也受土壤氮形态的影响。无论单种还是混种时AMF对入侵植物白花鬼针均未表现出显著的影响，在不添加氮时AMF对白花鬼针草竞争响应的提升作用最大，但并未发现AMF能够帮助入侵植物白花鬼针草适应不同形态的氮来维持其竞争力，这可能与其具有较强的菌根自调节能力有关。本研究证明植物-AMF共生作用受氮添加与氮形态的影响，强调了氮形态影响入侵植物菌根响应的重要性，有助于加深理解氮沉降背景下AMF对入侵植物生长与竞争的影响。

关键词: AMF, 氮沉降, 氮形态, 植物入侵, 竞争响应

Abstract: Aims Arbuscular mycorrhizal fungi (AMF) can enhance the competitive ability of invasvie plant against native species, which is likely influenced by soil nitrogen forms. Against the backdrop of increasing nitrogen deposition, exploring the effects of AMF on the growth and competitiveness of invasive plants under different forms of nitrogen addition can enhance our understanding of how invader adapts to soil nitrogen patterns shaped by nitrogen deposition. Methods A common garden experiment was conducted using the invasive plant Bidens alba and the native species Emilia sonchifolia. The experimental design included two planting regimes (monoculture and mixture), three nitrogen treatments (ammonium [NH₄⁺], nitrate [NO₃⁻], and no nitrogen addition), and two microbial treatments (with or without AMF). Important findings Under all nitrogen treatments, AMF significantly increased the biomass of the native plant E. sonchifolia. Specifically, when grown in monoculture with NO3- addition, AMF exhibited the greatest promotiing effect on its biomass, indicating high mycorrhizal dependence in the native species, which is also influenced by soil nitrogen forms. AMF did not show a significant impact on the invasive plant B. alba under either monoculture or mixed planting. The greatest enhancement of the competitive response of B. alba by AMF occurred under no nitrogen addition, but no evidence was found that AMF could help the invasive plant adapt to different forms of nitrogen to maintain its competitiveness. This may be related to its strong mycorrhizal autoregulation. ability. The results suggest that the invasive plant B. alba thrive under high nitrogen deposition conditions through direct nutrient uptake pathways and its mycorrhizal autoregulation ability. This study demonstrates that plant-AMF symbiosis is influenced by nitrogen addition and nitrogen forms, highlighting the importance of nitrogen forms in shaping the mycorrhizal responses of invasive plants and deepening the understanding the role of AMF in growth and competitive response of invasive plants under nitrogen deposition.

Key words: AMF, Nitrogen deposition, Nitrogen forms, Plant invasion, Competitive response

邹纪开, 吴佳怡, 谷云懿, 陈宝明. 不同形态氮添加与丛枝菌根真菌对外来入侵植物白花鬼针草竞争力的影响. . DOI: 10.17521/cjpe.2025.0297

ZOU Ji-Kai, WU Jia-Yi, GU Yun-Yi, CHEN Bao-Ming. Effects of different nitrogen forms and arbuscular mycorrhizal fungi on the competitive ability of the invasive alien plant Bidens alba. Chinese Journal of Plant Ecology. DOI: 10.17521/cjpe.2025.0297

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