Mycorrhizal associates of Cephalanthera falcata (Orchidaceae) in a habitat with giant individuals

Yamato, Masahide; Kosaka, Ryota; Masui, Yurika; Goda, Yugo; Shirasaka, Shunsei; Maruyama, Atsushi; Yukawa, Tomohisa

doi:10.1111/1440-1703.12187

Cited by 3 publications

(1 citation statement)

References 27 publications

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“…This model, which entails a shift to a mass-nutrient supplier that both enables onward growth to successive life history stages and supplants an existing mycobiont, was also invoked in stimulating the development of Cephalanthera falcata (Thunb.) Blume, a partial mycoheterotrophic orchid in which seedlings are predominantly colonized by Thelephoraceae fungi and adults by members of the Sebacinales to induce growth into giant individuals in situ (Yamato et al, 2021). Interestingly, the Sebacinales fungi examined in that study were inferred to possess a greater capacity for carbon transfer.…”

Section: An Emerging Mechanism For Armillaria and Desarmillaria Colon...mentioning

confidence: 81%

Variable, life stage-dependent mycorrhizal specificity and its developmental consequences in the fully myco-heterotrophic orchid Cyrtosia septentrionalis

Umata,

Gale,

Suetsugu

et al. 2024

Mycoscience

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The degree of specificity between fully myco-heterotrophic (MH) orchids and mycorrhizal fungi is regarded as high, but some species undergo a mycobiont shift as they transition from juvenile to adult plant. We investigated morphological and physiological aspects of the interaction between the fully MH Cyrtosia septentrionalis and its four known mycobionts to elucidate developmental consequences of variable, life-stage-dependent specificity. Of five randomly sampled germinated seeds co-cultured with each mycobiont, Physisporinus sp. 'TK-10' colonized all, Armillaria gallica and Desarmillaria tabescens colonized one, and A. mellea subsp. nipponica colonized none. Whereas 16.2% of aseptically germinated seeds exhibited onward growth when co-cultured with TK-10, just 1.5-2.6% did so with the other species. Even so, A. gallica colonized and formed internal rhizomorphs within rhizomes established with TK-10, suggesting that this mycobiont can replace and potentially can oust the latter. We infer that the orchid can associate with Armillaria and Desarmillaria mycobionts throughout its life, but that TK-10 enhances early growth. However, because TK-10 has a higher wood-rotting capacity than A. gallica, rapid resource exhaustion may cause nutrient supply shortages. We hypothesize that secondary colonization by Armillaria or Desarmillaria species triggers TK-10 displacement and that this mycobiont shift sustains orchid growth for longer.

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Section: An Emerging Mechanism For Armillaria and Desarmillaria Colon...mentioning

confidence: 81%

Variable, life stage-dependent mycorrhizal specificity and its developmental consequences in the fully myco-heterotrophic orchid Cyrtosia septentrionalis

Umata,

Gale,

Suetsugu

et al. 2024

Mycoscience

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Mycobiont identity and light conditions affect belowground morphology and physiology of a mixotrophic orchid Cremastra variabilis (Orchidaceae)

Yagame,

Figura,

Tanaka

et al. 2024

Mycorrhiza

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Notes on four species of Russula subgenus Heterophyllidiae (Russulaceae, Russulales) from southern China

2023

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Heterophyllidiae, one of the main subgenus of Russula (Russulaceae, Russulales), is both ecologically and economically important. Although many studies have focused on subgenus Heterophyllidiae in China, the diversity, taxonomy, and molecular phylogeny still remained incompletely understood. In the present study, two new species, R. discoidea and R. niveopicta, and two known taxa, R. xanthovirens and R. subatropurpurea, were described based on morphology and molecular phylogenetic analyses of ITS and 28S DNA sequences with new collections of subgenus Heterophyllidiae from southern China. Both morphological and phylogenetic analyses consistently confirmed that R. niveopicta and R. xanthovirens belong to the subsect. Virescentinae, R. discoidea and R. subatropurpurea come under subsect. Heterophyllae, and R. prasina is synonymized with R. xanthovirens.

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Mycorrhizal associates of Cephalanthera falcata (Orchidaceae) in a habitat with giant individuals

Cited by 3 publications

References 27 publications

Variable, life stage-dependent mycorrhizal specificity and its developmental consequences in the fully myco-heterotrophic orchid <i>Cyrtosia septentrionalis</i>

Variable, life stage-dependent mycorrhizal specificity and its developmental consequences in the fully myco-heterotrophic orchid <i>Cyrtosia septentrionalis</i>

Mycobiont identity and light conditions affect belowground morphology and physiology of a mixotrophic orchid Cremastra variabilis (Orchidaceae)

Notes on four species of Russula subgenus Heterophyllidiae (Russulaceae, Russulales) from southern China

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