Haemaria rubrovenia (B.S.Williams) Rchb.f. ex Stein
Kuhlhasseltia carrii Holttum
Ludisia dawsoniana (H.Low ex Rchb.f.) Aver.
Ludisia discolor (Ker Gawl.) Blume
Ludisia furetii Blume
Ludisia odorata Blume
Ludisia otletae (Rolfe) Aver.
Myoda rufescens Lindl.
Neottia discolor (Ker Gawl.) Steud.
Orchiodes discolor (Ker Gawl.) Kuntze
Ludisia (Lus.[2]) is a genus of orchids that was thought to contain just one species, Ludisia discolor, commonly referred to as jewel orchid. A second species, Ludisia ravanii, from the Philippines, was described in 2013.[3]Ludisia discolor is native to Southern China, Northeast India, Thailand, Vietnam, the Philippines, Malaysia, Indonesia and Myanmar,[4] and often cultivated.
They are terrestrial orchids that in their natural setting would be found growing on the forest floor. They are known for their foliage, which is often velvety deep maroon with red veins that run parallel to the centre of the leaf.
Flowers are white with twisting yellow columns. Individual flowers are small but grow in clusters on upright stalks. Flowers in cultivation last a month or more.[5]
Like many species today, Ludisia discolor and other species of terrestrial orchids face threats due to climate change and other environmental factors. Studies today that aim to understand more about how orchid species could be cultivated include micropropagation. When micropropagating Ludisia discolor in varying environments, they found that the plant was able to adapt to the environment while maintaining 99% genetic similarity with the parent plant. Now that scientists are able to control the genetic diversity of a plant in varying conditions, it will be beneficial in improving the species’ population numbers.
Apart from climate change and similar environmental factors, the species is currently facing threats of Fusarium oxysporum, which manifests as a stem rot, affecting the flowering of species of orchids.
^Sherif, N. A., Senthil Kumar, T., & Rao, M. V. (2020). DNA barcoding and genetic fidelity assessment of micropropagated Aenhenrya rotundifolia (Blatt.) C.S. Kumar and F.N. Rasm.: a critically endangered jewel orchid. Physiology and Molecular Biology of Plants, 26(12), 2391–2405. https://doi.org/10.1007/s12298-020-00917-9
^Huang, L. ‐W., Wang, C. ‐J., Lin, Y. ‐S., Chung, W. ‐C., & Chung, W. ‐H. (2014). Stem rot of jewel orchids caused by a new forma specialis, F usarium oxysporum f. sp. anoectochili in T aiwan. Plant Pathology, 63(3), 539–547. https://doi.org/10.1111/ppa.12133
^Sherif, N. A., Senthil Kumar, T., & Rao, M. V. (2020). DNA barcoding and genetic fidelity assessment of micropropagated Aenhenrya rotundifolia (Blatt.) C.S. Kumar and F.N. Rasm.: a critically endangered jewel orchid. Physiology and Molecular Biology of Plants, 26(12), 2391–2405. https://doi.org/10.1007/s12298-020-00917-9
Huang, L. ‐W., Wang, C. ‐J., Lin, Y. ‐S., Chung, W. ‐C., & Chung, W. ‐H. (2014). Stem rot of jewel orchids caused by a new forma specialis, F usarium oxysporum f. sp. anoectochili in T aiwan. Plant Pathology, 63(3), 539–547. https://doi.org/10.1111/ppa.12133