Relevant bibliographies by topics / Leafless orchid

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  1. Journal articles

Academic literature on the topic 'Leafless orchid'

Author: Grafiati
Published: 7 June 2025
Last updated: 2 August 2025

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Journal articles on the topic "Leafless orchid"

1

Herdman, Adam R., Ernesto B. Mújica, Mark W. Danaher, Lawrence W. Zettler, Kurt Schulz, and Elizabeth Esselman. "Initial Population Analysis and Mycorrhizal Fungi of the Leafless Epiphytic Orchid, Campylocentrum pachyrrhizum, in Florida." Diversity 15, no. 4 (2023): 576. http://dx.doi.org/10.3390/d15040576.

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Campylocentrum pachyrrhizum Rchb.f. Rolfe, also known as the ribbon orchid, is native to southern Florida, the West Indies, and northern South America. In Florida, it is restricted to the Fakahatchee Strand and is currently state-listed as endangered, but virtually nothing is known about the orchid’s biology, ecology, and current status. The purpose of this study was to document ribbon orchid populations within the northern portion of the Fakahatchee Strand (Florida Panther NWR) and to identify some of the biotic and abiotic factors critical to its survival. During 2016–2022, a total of 118 ri
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2

Li, Ming-He, Ke-Wei Liu, Zhen Li, et al. "Genomes of leafy and leafless Platanthera orchids illuminate the evolution of mycoheterotrophy." Nature Plants 8, no. 4 (2022): 373–88. http://dx.doi.org/10.1038/s41477-022-01127-9.

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AbstractTo improve our understanding of the origin and evolution of mycoheterotrophic plants, we here present the chromosome-scale genome assemblies of two sibling orchid species: partially mycoheterotrophic Platanthera zijinensis and holomycoheterotrophic Platanthera guangdongensis. Comparative analysis shows that mycoheterotrophy is associated with increased substitution rates and gene loss, and the deletion of most photoreceptor genes and auxin transporter genes might be linked to the unique phenotypes of fully mycoheterotrophic orchids. Conversely, trehalase genes that catalyse the convers
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3

Zhou, Zhuang, Jinliao Chen, Fei Wang, et al. "The Complete Chloroplast Genome of an Epiphytic Leafless Orchid, Taeniophyllum complanatum: Comparative Analysis and Phylogenetic Relationships." Horticulturae 10, no. 6 (2024): 660. http://dx.doi.org/10.3390/horticulturae10060660.

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Taeniophyllum is a distinct taxon of epiphytic leafless plants in the subtribe Aeridinae of Orchidaceae. The differences in chloroplast genomes between extremely degraded epiphytic leafless orchids and other leafy orchids, as well as their origins and evolution, raise intriguing questions. Therefore, we report the chloroplast genome sequence of Taeniophyllum complanatum, including an extensive comparative analysis with other types of leafless orchids. The chloroplast genome of T. complanatum exhibited a typical quadripartite structure, and its overall structure and gene content were relatively
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4

Suetsugu, Kenji, Tamihisa Ohta, and Ichiro Tayasu. "Partial mycoheterotrophy in the leafless orchid Cymbidium macrorhizon." American Journal of Botany 105, no. 9 (2018): 1595–600. http://dx.doi.org/10.1002/ajb2.1142.

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5

Suetsugu, Kenji. "Cremastra saprophytica (Orchidaceae: Epidendroideae), a new leafless autonomously self-pollinating orchid species from Gifu Prefecture, Japan." Phytotaxa 527, no. 2 (2021): 89–96. https://doi.org/10.11646/phytotaxa.527.2.1.

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Suetsugu, Kenji (2021): Cremastra saprophytica (Orchidaceae: Epidendroideae), a new leafless autonomously self-pollinating orchid species from Gifu Prefecture, Japan. Phytotaxa 527 (2): 89-96, DOI: 10.11646/phytotaxa.527.2.1
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6

Roth-Nebelsick, Anita, Mike Thiv, Yaron Malkowsky, Rena Schott, and Arnd Heyer. "Structure and functional anatomy of the gas exchange apparatus of leafless orchids: evidence for a control mechanism?" Botanical Journal of the Linnean Society 197, no. 2 (2021): 249–62. http://dx.doi.org/10.1093/botlinnean/boab021.

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Abstract It is assumed that special structures in aerial roots of leafless orchids, aeration units, are involved in gas exchange regulation. In this study, the structure of aeration units in three leafless taxa (Microcoelia exilis, M. aphylla, Dendrophylax funalis) and a leaf-bearing species (Campylocentrum micranthum) are investigated to obtain more evidence of a possible mechanism for gas exchange control in aerial orchid roots. Extensive analyses of the anatomy of the velamen radicum, exodermis and cortex were performed using light and electron microscopy and µCT. In all considered leafless
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7

Metusala, Destario. "A new species of genus Chiloschista (Aeridinae, Vandeae, Epidendroideae, Orchidaceae) from Sumatra Island, Indonesia." PhytoKeys 252 (February 12, 2025): 65–76. https://doi.org/10.3897/phytokeys.252.138190.

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<i>Chiloschista tjiasmantoi</i>, a new species of epiphytic leafless orchid from the northernmost region of Sumatra Island, Indonesia, is described and illustrated. The flower of this new species is morphologically close to <i>C. javanica</i>, but differs in having oblong-obovate petals, narrowly oblique oblong side lobes with truncate to obtuse apex, and a different shape of lip sac.
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8

Vo, Doan Trung, Leonid Averyanov, Tatiana Maisak, et al. "Chiloschista quangdangii, a new leafless orchid (Orchidaceae) from northern Vietnam." Phytotaxa 606, no. 1 (2023): 79–84. https://doi.org/10.11646/phytotaxa.606.1.8.

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Vo, Doan Trung, Averyanov, Leonid, Maisak, Tatiana, Canh, Nguyen Van, Dang, Minh Quan, Dang, Van Son, Truong, Quang Tam, Vuong, Truong Ba (2023): Chiloschista quangdangii, a new leafless orchid (Orchidaceae) from northern Vietnam. Phytotaxa 606 (1): 79-84, DOI: 10.11646/phytotaxa.606.1.8, URL: http://dx.doi.org/10.11646/phytotaxa.606.1.8
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9

VO, DOAN TRUNG, LEONID AVERYANOV, TATIANA MAISAK, et al. "Chiloschista quangdangii, a new leafless orchid (Orchidaceae) from northern Vietnam." Phytotaxa 606, no. 1 (2023): 79–84. http://dx.doi.org/10.11646/phytotaxa.606.1.8.

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A newly discovered species belonging to the genus Chiloschista has been found in the Northern region of Vietnam, specifically in Ha Giang Province. This species is being described as a novel addition to scientific knowledge. It shares similarities in plant habit and flower color scheme with C. parishii and C. glabrisepala. However, it can be distinguished by its narrowly saccate spur-like lip, which features a small knob-like farinose callus that is significantly smaller than the median lip lobe. In contrast, C. parishii and C. glabrisepala possess a cup-shaped lip with a large central callus
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10

Kobayashi, Koichi, Kenji Suetsugu, and Hajime Wada. "The Leafless Orchid Cymbidium macrorhizon Performs Photosynthesis in the Pericarp during the Fruiting Season." Plant and Cell Physiology 62, no. 3 (2021): 472–81. http://dx.doi.org/10.1093/pcp/pcab006.

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Abstract Photosynthesis with highly photoreactive chlorophyll (Chl) provides energy for plant growth but with simultaneous risk of photooxidative damage and photoprotection costs. Although the leafless orchid Cymbidium macrorhizon mostly depends on mycorrhizal fungi for carbon, it accumulates Chl particularly during fruiting and may not be fully mycoheterotrophic. In fact, stable isotopic analysis suggested that the fruiting C. macrorhizon specimens obtain a significant proportion of its carbon demands through photosynthesis. However, actual photosynthetic characteristics of this leafless orch
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