昼夜增温背景下入侵植物对土壤氮转化的影响及其与氨氧化微生物的相关性

doi:10.13292/j.1000-4890.202512.032

摘要/Abstract

摘要： 全球变暖存在明显的昼夜不对称增温现象，外来入侵植物对土壤氮(N)转化产生显著的影响，氨氧化细菌(AOB)与氨氧化古菌(AOA)是调节氮转化的关键微生物。然而，尚不清楚外来入侵植物在昼夜增温背景下对土壤N转化的影响作用及微生物机制。本研究选取两种入侵植物（白花鬼针草和假臭草）与一种本地植物（一点红），在同质园种植条件下比较了昼夜增温背景下它们对土壤N转化的影响及其与氨氧化微生物的关系。结果表明，白天增温提高了白花鬼针草生长的土壤NH₄⁺含量和一点红土壤NO₃^-含量，而夜间增温提高了白花鬼针草的土壤NO₃^-含量，却降低了假臭草的土壤NH₄⁺含量，说明昼夜增温对土壤NH₄⁺和NO₃^-的影响明显不同，且这种影响作用依赖于植物物种。白天增温与夜间增温显著提高了假臭草的土壤AOB丰度，而白花鬼针草的土壤AOB丰度只在夜间增温处理下显著提高，而增温对土壤AOA丰度无显著影响。两种入侵植物生长的土壤AOB丰度与NO₃^-呈显著正相关，说明增温背景下入侵植物对土壤NO₃^-含量的促进作用主要与AOB丰度的增加有关。本研究丰富了昼夜增温背景下外来入侵植物对土壤N转化的影响及氨氧化微生物机制，有助于更好地认识全球变暖与外来入侵植物的生态影响。

关键词: 入侵植物, 增温, 氮转化, 氨氧化微生物

Abstract: Global warming shows a diurnal asymmetrical trend. Invasive plant species have significant impacts on soil nitrogen (N) transformation. Ammonia-oxidizing bacteria (AOB) and archaea (AOA) are the key microorganisms regulating N transformation. However, the effects of invasive plants on soil N transformation under day and night-warming and its relationship with ammonia-oxidizing microorganisms remain unclear. Two invasive alien plants (Bidens alba and Praxelis clematidea) and a native plant (Emilia sonchifolia) were selected. A common garden experiment with three warming treatments (day warming, night warming and whole day warming) and a control (no warming) was set up. We investigated the effects of different plants on soil N transformation under day and night-warming and the relationship between soil N content and ammonia-oxidizing microorganisms. The results showed that day warming increased the soil NH₄⁺ of B. alba and the soil NO₃^- content of E. sonchifolia, while night warming increased soil NO₃^- content of B. alba but decreased soil NH₄⁺ content of P. clematidea. Those results indicate that different warming had different effects on soil nitrogen content, which depended on plant species. Day and night-warming increased the abundance of AOB of P. clematidea, while soil AOB abundance of B. alba was only increased under night warming, and warming had no significant effects on abundance of soil AOA. There was a signi-ficant positive correlation between the abundance of AOB and NO₃^- of the two invasive species, indicating that the promotion effect of invasive plants on soil NO₃^- content was mainly related to the increases of AOB abundance under warming. This study is helpful for understanding the effects of day and night-warming on soil N transformation with plant invasion, and the role of AOA and AOB in soil N transformation.

Key words: invasive plant, warming, nitrogen transformation, ammonia-oxidizer

陈宝明, 苏哲洋, 方钰淇. 昼夜增温背景下入侵植物对土壤氮转化的影响及其与氨氧化微生物的相关性[J]. 生态学杂志, 2025, 44(12): 3883-3890.

CHEN Baoming, SU Zheyang, FANG Yuqi. Effects of invasive plants on soil nitrogen transformation under the background of day and night warming and its correlation with ammoniaoxidizers.[J]. Chinese Journal of Ecology, 2025, 44(12): 3883-3890.

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昼夜增温背景下入侵植物对土壤氮转化的影响及其与氨氧化微生物的相关性

Effects of invasive plants on soil nitrogen transformation under the background of day and night warming and its correlation with ammoniaoxidizers.

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