Increased precipitation magnifies the effects of N addition on performance of invasive plants in subtropical native communities

doi:10.1093/jpe/rtab103

Abstract

Abstract:

Nitrogen (N) deposition, precipitation and their interaction affect plant invasions in temperate ecosystems with limiting N and water resources, but whether and how they affect plant invasions in subtropical native communities with abundant N and precipitation remains unclear.

We constructed in situ artificial communities with 12 common native plant species in a subtropical system and introduced four common invasive plant species and their native counterparts to these communities. We compared plant growth and establishment of introduced invasive species and native counterparts in communities exposed to ambient (CK), N addition (N+), increased precipitation (P+) and N addition plus increased precipitation (P+N+). We also investigated the density and aboveground biomass of communities under such conditions.

P+ alone did not enhance the performance of invasive species or native counterparts. N+ enhanced only the aboveground biomass and relative density of invasive species. P+N+ enhanced the growth and establishment performance of both invasive species and native counterparts. Most growth and establishment parameters of invasive species were greater than those of native counterparts under N+, P+ and P+N+ conditions. The density and aboveground biomass of native communities established by invasive species were significantly lower than those of native communities established by native counterparts under P+N+ conditions. These results suggest that P+ may magnify the effects of N+ on performance of invasive species in subtropical native communities where N and water are often abundant, which may help to understand the effect of global change on plant invasion in subtropical ecosystems.

Key words: community aboveground biomass, community density, growth and establishment, increased precipitation, invasive plants, nitrogen addition, subtropical native communities

摘要：
亚热带本地植物群落中增加降水扩大了氮增加对入侵植物表现的影响
氮沉降、降水以及它们的交互作用会影响氮和水是限制性资源的温带生态系统中的外来植物入侵，但它们是否会影响以及怎样影响外来植物在富氮和降水丰富的亚热带植物群落中的入侵，仍不清楚。本研究在亚热带生态系统中，在野外用12种常见本地植物构建群落，将4种入侵植物及其近缘的4种本地植物分别引入到群落中，对群落进行氮添加(0和5 g N m⁻² a⁻¹)和降水增加(自然降水和增加降水30%)交互处理，比较了引入的入侵植物和近缘本地植物在群落中的生长和定居表现以及群落特征(包括群落密度和地上生物量等)。研究结果显示，只增加降水没有提高入侵植物或近缘本地植物的表现；氮添加仅提高入侵植物地上生物量和相对密度；氮和降水同时增加提高了入侵植物和近缘本地植物在群落中的生长和定居表现。在氮添加、降水增加和氮与降水同时增加处理下，入侵植物的大多数生长和定居参数高于近缘本地植物。在氮与降水同时增加时，入侵植物所定居本地群落的密度和地上生物量显著低于近缘本地植物所定居本地群落的密度和地上生物量。这些结果说明，在富氮和降水丰富的亚热带本地群落中，降水增加扩大了氮增加对入侵植物表现的影响。这将有助于理解在富氮和降水丰富的亚热带生态系统中，全球变化对植物入侵的影响。

关键词: 群落地上生物量, 群落密度, 生长和定居, 降水增加, 入侵植物, 氮添加, 亚热带本地群落

Xiang-Qin Li, Sai-Chun Tang, Yu-Mei Pan, Chun-Qiang Wei and Shi-Hong Lü. Increased precipitation magnifies the effects of N addition on performance of invasive plants in subtropical native communities[J]. J Plant Ecol, 2022, 15(3): 473-484.

[1]	Qiuhua Li, Yakun Liu, Xinyue Jin, Xiaotian Fan, Jiaqiang Wang, Wanbing Liu, Chunbo Li, Jishuai Su, Osbert Jianxin Sun, Xingguo Han, Yong Jiang, Heyong Liu. Changes in nutrient resorption efficiency with nitrogen and zinc addition and mowing in a meadow steppe [J]. J Plant Ecol, 2026, 19(2): 0-.
[2]	Fangling Ma, Yao Zheng, La Wei, Lin Xiang, Lifei Ren, Wenming Bai, Qiuying Tian, Wen-Hao Zhang. Soil chemistry exerts a more significant influence on bacterial responses to nitrogen disturbances than root exudates [J]. J Plant Ecol, 2025, 18(6): 1-37.
[3]	Ting-Ting Liu, Dan-Dan Zhang, Meng-Ying He, Jin-Sheng Li, Hong-Miao Wu, Wen-Yu Jiang, Yi-Yi Long, Xu-Rui Zhu, Zhen Zhang. Effects of different intensities of artificial light at night on functional traits of invasive and native plants [J]. J Plant Ecol, 2025, 18(5): 1-14.
[4]	Zhilong Zhao, Jinyang Yu, Wenxuan Zhao, Miao Ma, Jieshi Tang. Intraspecific differentiation and phenotypic plasticity help the invasive success of Xanthium italicum [J]. J Plant Ecol, 2025, 18(5): 1-31.
[5]	Fanjiao Kong, Dingli Wang, Yu Shi, Liya Ma, Jianqing Ding. Variation in niche effects on microbiota in two invasive plants [J]. J Plant Ecol, 2025, 18(4): 1-16.
[6]	Lei Wang, Muhammad Hasnain, Zhanhui Tang, Kobayashi Makoto. Soil water availability alters plant‐soil feedback effects on invasive plant growth and foliar herbivory [J]. J Plant Ecol, 2025, 18(3): 1-13.
[7]	Xiaoyi Wang, Anne D. Bjorkman, Xin Li, Mengdi Luan, Mengqian Wang, Xuebin Yan, Ying Wang, Xianhui Zhou, Miaojun Ma, Hui Guo. Shifts in plant reproductive phenology induced by multiple global change factors depend on phenological niche and pollination mode [J]. J Plant Ecol, 2025, 18(3): 1-14.
[8]	Jingyuan Yang, Qi Xu, Yuxuan He, Meiguang Jiang, Minglu Ji, Linyu Qi, Huan Qi, Cancan Zhao, Yuan Miao, Shasha Liu, Yanfeng Sun. Effects of nitrogen and phosphorus addition on soil respiration in a soybean cropping system [J]. J Plant Ecol, 2024, 17(6): 1-13.
[9]	Jing-Fang Cai, Kai Sun, Lin Li, Si-Ha A, Yi-Luan Shen, Hong-Li Li. Nitrogen addition increased resistance of resident plant community to Solidago canadensis invasion by altering allelopathic effect [J]. J Plant Ecol, 2024, 17(2): 0-rtae015.
[10]	Yuan Su, Shuaikai Wu, Jie Hao, Huajie Diao, Kuanhu Dong, Changhui Wang. Nutrient resorption exacerbates nitrogen-phosphorus imbalances in plants under increasing nitrogen addition in a saline-alkaline grassland [J]. J Plant Ecol, 2024, 17(1): 1-.
[11]	Jiangshan Yu, Zhaopeng Song, Jihua Hou. Life form-dependent nitrogen-phosphorous allocation strategies of leaf and fine root in a temperate natural forest under long-term nitrogen addition [J]. J Plant Ecol, 2023, 16(5): 0-rtad013.
[12]	Pei Zheng, Ruonan Zhao, Liangchao Jiang, Guojiao Yang, Yinliu Wang, Ruzhen Wang, Xingguo Han, Qiushi Ning. Increasing nitrogen addition rates suppressed long-term litter decomposition in a temperate meadow steppe [J]. J Plant Ecol, 2023, 16(3): 0-rtac078.
[13]	Rui-Ling Liu, Wen-Gang Zhang, Benjamin R. Lee, Gang Liu, Xing-Jiang Song, Xiao-Yan Chen, Jia-Bin Zou, Fang-Fang Huang and Zhi-Hong Zhu. Rhizosphere and root fungal community of the invasive plant Galinsoga quadriradiata changes along its elevational expansion route [J]. J Plant Ecol, 2023, 16(1): 0-.
[14]	Qiang Guo, Ruo-Hui Zhang, Xue-Li Li, Xiao-Wei Liu, Ya-Nan Li and Fu Xing. Nitrogen addition overrides the effects of Stellera chamaejasme litter on the growth of Leymus chinensis and its associated mycorrhizal fungi [J]. J Plant Ecol, 2022, 15(5): 1007-1020.
[15]	Qiushi Ning, Liangchao Jiang, Ruzhen Wang, Jing Wang, Xingguo Han and Junjie Yang. Greater soil microbial biomass loss at low frequency of N addition in an Inner Mongolia grassland [J]. J Plant Ecol, 2022, 15(4): 721-732.

Increased precipitation magnifies the effects of N addition on performance of invasive plants in subtropical native communities

HTML

PDF

Knowledge

Abstract

Cite this article

share this article

References

Related Articles 15

Recommended Articles

Metrics

Comments