Partial mycoheterotrophy in rhizoctonia‐associated orchid <scp><i>Cheirostylis liukiuensis</i></scp>

Yagi, Ryuta; Tayasu, Ichiro; Suetsugu, Kenji

doi:10.1111/1442-1984.12369

Plant Species Biology

2022

DOI: 10.1111/1442-1984.12369

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Partial mycoheterotrophy in rhizoctonia‐associated orchid Cheirostylis liukiuensis

Ryuta Yagi

Ichiro Tayasu

Kenji Suetsugu

Abstract: Partially mycoheterotrophic plant species obtain organic carbon, via both photosynthesis and mycorrhizal symbiosis. In this study, we investigated the mycorrhizal fungi association and nutritional mode of Cheirostylis liukiuensis, which is suspected to be a partial mycoheterotrophic plant, due to its characteristic reduced underground organs, low-light growth environment, and some fully mycoheterotrophic species in the phylogenetically related genera. Molecular analysis of the dominant mycobiont and stable iso… Show more

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2024

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Do exchangeable hydrogens affect the evaluation of partial mycoheterotrophy in orchids? Insights from δ²H analysis in bulk, α‐cellulose, and cellulose nitrate samples

Yagi,

Haraguchi,

Tayasu

et al. 2024

New Phytologist

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Summary To evaluate the nutritional modes of orchids associated with ‘rhizoctonia’ fungi, analyses of hydrogen (δ2H), carbon (δ13C), and nitrogen (δ15N) stable isotope ratios are usually adopted. However, previous studies have not fully accounted for exchangeable hydrogens, which could affect these evaluations. Here, we performed standard δ13C, δ15N, and δ2H analyses on bulk samples. Additionally, we conducted δ2H analysis on α‐cellulose and cellulose nitrate samples to investigate whether the heterogeneity of exchangeable hydrogens among plant species influences the assessment of nutritional modes. The δ2H of orchids were consistently higher than those of surrounding autotrophic plants, irrespective of the three pretreatments. Although the rhizoctonia‐associated orchid exhibited lower δ13C, its δ2H was higher than those of the autotrophs. Notably, among all response variables, δ15N and δ2H exhibited high abilities for discriminating the nutritional modes of rhizoctonia‐associated orchids. These results indicate that a time‐efficient bulk sample analysis is an effective method for evaluating plant nutritional modes, as the heterogeneity of exchangeable hydrogens does not significantly impact the estimation. Using δ15N and δ2H benefits the assessment of partial mycoheterotrophy among rhizoctonia‐associated orchids.

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Do exchangeable hydrogens affect the evaluation of partial mycoheterotrophy in orchids? Insights from δ²H analysis in bulk, α‐cellulose, and cellulose nitrate samples

Yagi,

Haraguchi,

Tayasu

et al. 2024

New Phytologist

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show abstract

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Partial mycoheterotrophy in rhizoctonia‐associated orchid Cheirostylis liukiuensis

Cited by 1 publication

References 41 publications

Do exchangeable hydrogens affect the evaluation of partial mycoheterotrophy in orchids? Insights from δ²H analysis in bulk, α‐cellulose, and cellulose nitrate samples

Do exchangeable hydrogens affect the evaluation of partial mycoheterotrophy in orchids? Insights from δ²H analysis in bulk, α‐cellulose, and cellulose nitrate samples

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Partial mycoheterotrophy in rhizoctonia‐associated orchid Cheirostylis liukiuensis

Cited by 1 publication

References 41 publications

Do exchangeable hydrogens affect the evaluation of partial mycoheterotrophy in orchids? Insights from δ2H analysis in bulk, α‐cellulose, and cellulose nitrate samples

Do exchangeable hydrogens affect the evaluation of partial mycoheterotrophy in orchids? Insights from δ2H analysis in bulk, α‐cellulose, and cellulose nitrate samples

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Do exchangeable hydrogens affect the evaluation of partial mycoheterotrophy in orchids? Insights from δ²H analysis in bulk, α‐cellulose, and cellulose nitrate samples

Do exchangeable hydrogens affect the evaluation of partial mycoheterotrophy in orchids? Insights from δ²H analysis in bulk, α‐cellulose, and cellulose nitrate samples