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Impacts of Elevated CO[sub.2] and a Nitrogen Supply on the Growth of Faba Beans and the Nitrogen-Related Soil Bacterial Community

Ecosystems that experience elevated CO[sub.2] (eCO[sub.2]) are crucial interfaces where intricate interactions between plants and microbes occur. This study addressed the impact of eCO[sub.2] and a N supply on faba bean (Vicia faba L.) growth and the soil microbial community in auto-controlled growt...

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Bibliographic Details
Published in:Plants (Basel) 2024-09, Vol.13 (17)
Main Authors: Dong, Xingshui, Lin, Hui, Wang, Feng, Shi, Songmei, Wang, Zhihui, Sharifi, Sharifullah, Ma, Junwei, He, Xinhua
Format: Article
Language:English
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Summary:Ecosystems that experience elevated CO[sub.2] (eCO[sub.2]) are crucial interfaces where intricate interactions between plants and microbes occur. This study addressed the impact of eCO[sub.2] and a N supply on faba bean (Vicia faba L.) growth and the soil microbial community in auto-controlled growth chambers. In doing so, two ambient CO[sub.2] concentrations (aCO[sub.2], daytime/nighttime = 410/460 ppm; eCO[sub.2], 550/610 ppm) and two N supplement levels (without a N supply—N0—and 100 mg N as urea per kg of soil—N100) were applied. The results indicated that eCO[sub.2] mitigated the inhibitory effects of a N deficiency on legume photosynthesis and affected the CO[sub.2] assimilation efficiency, in addition to causing reduced nodulation. While the N addition counteracted the reductions in the N concentrations across the faba beans’ aboveground and belowground plant tissues under eCO[sub.2], the CO[sub.2] concentrations did not significantly alter the soil NH[sub.4] [sup.+]-N or NO[sub.3] [sup.−]-N responses to a N supply. Notably, under both aCO[sub.2] and eCO[sub.2], a N supply significantly increased the relative abundance of Nitrososphaeraceae and Nitrosomonadaceae, while eCO[sub.2] specifically reduced the Rhizobiaceae abundance with no significant changes under aCO[sub.2]. A redundancy analysis (RDA) highlighted that the soil pH (p < 0.01) had the most important influence on the soil microbial community. Co-occurrence networks indicated that the eCO[sub.2] conditions mitigated the impact of a N supply on the reduced structural complexity of the soil microbial communities. These findings suggest that a combination of eCO[sub.2] and a N supply to crops can provide potential benefits for managing future climate change impacts on crop production.
ISSN:2223-7747
2223-7747
DOI:10.3390/plants13172483