Light availability and plant shade tolerance modify plant–microbial interactions and feedbacks in subtropical trees

Xi, Nianxun; McCarthy-Neumann, Sarah; Feng, Jiayi; Wu, Hangyu; Wang, Weitao; Semchenko, Marina

doi:10.1111/nph.18737

New Phytologist

2023

DOI: 10.1111/nph.18737

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Light availability and plant shade tolerance modify plant–microbial interactions and feedbacks in subtropical trees

Nianxun Xi

Sarah McCarthy-Neumann

Jiayi Feng

et al.

Abstract: Summary Plant–soil feedbacks (PSFs) are an important mechanism of species coexistence in forest communities. However, evidence remains limited for how light availability regulates PSFs in species with different shade tolerance via changes in plant–microbial interactions. Here we tested in a glasshouse experiment how PSFs changed as a function of light availability and tree shade tolerance. Soil bacterial and fungal communities were profiled using the 16S rRNA and ITS2 gene sequencing, respectively. Under low… Show more

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Tree seedling shade tolerance arises from interactions with microbes and is mediated by functional traits

Wood,

Kobe,

McCarthy-Neumann

2023

Front. Ecol. Evol.

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Shade tolerance is a central concept in forest ecology and strongly influences forest community dynamics. However, the plant traits and conditions conferring shade tolerance are yet to be resolved. We propose that shade tolerance is shaped not only by responses to light but also by a species’ defense and recovery functional traits, soil microbial communities, and interactions of these factors with light availability. We conducted a greenhouse experiment for three temperate species in the genus Acer that vary in shade tolerance. We grew newly germinated seedlings in two light levels (2% and 30% sun) and controlled additions of microbial filtrates using a wet-sieving technique. Microbial filtrate treatments included: <20 µm, likely dominated by pathogenic microbes; 40-250 µm, containing arbuscular mycorrhizal fungi (AMF); combination, including both filtrate sizes; and sterilized combination. We monitored survival for nine weeks and measured fine root AMF colonization, hypocotyl phenolics, stem lignin, and stem+root nonstructural carbohydrates (NSC) at three-week intervals. We found that differences in seedling survival between low and high light only occurred when microbes were present. AMF colonization, phenolics, and NSC generally increased with light. Phenolics were greater with <20 µm microbial filtrate, suggesting that soil-borne pathogens may induce phenolic production; and NSC was greater with 40-250 µm filtrate, suggesting that mycorrhizal fungi may induce NSC production. Across species, microbe treatments, and light availability, survival increased as phenolics and NSC increased. Therefore, shade tolerance may be explained by interactions among soil-borne microbes, seedling traits, and light availability, providing a more mechanistic and trait-based explanation of shade tolerance and thus forest community dynamics.

show abstract

Tree seedling shade tolerance arises from interactions with microbes and is mediated by functional traits

Wood,

Kobe,

McCarthy-Neumann

2023

Front. Ecol. Evol.

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Light availability and plant shade tolerance modify plant–microbial interactions and feedbacks in subtropical trees

Cited by 1 publication

References 69 publications

Tree seedling shade tolerance arises from interactions with microbes and is mediated by functional traits

Tree seedling shade tolerance arises from interactions with microbes and is mediated by functional traits

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