The golden tea belongs to Camellia genus tree, it contains many important compounds for the human health. However, the growth and development of golden tea were affected by diseases. In this study, leaf spot disease was recorded in two species of yellow tea at the TamDao National Park. The results showed that the percentage of diseased plants in two species of Camellia tamdaoensis Ninh et Hakoda and Camellia phanii Hakoda & Ninh were 85.0 and 80.0% respectively. The typical symptom of the disease was the appearance of small brown or black spots, they scattered on the leaves, where the leaves were dried (necrotic). At severe disease spots, mycelium was clearly observed. Pathogenic fungi were isolated on PDA medium, mycelium was white and fast-growing. Spores were mound-shaped with glossy, bright, black in color. The ITS sequence of the fungal pathogen causing leaf spot disease was amplified, sequencing and characterized. Its length was 519 bp, its GC content was 52.22%. By analysis of identity value and the genetic relationship, the pathogenic fungus on the leaf of two golden tea species was Phomopsis sp. TD2.

Leaf spot disease; Phomopsis; Golden tea; TamDao; National Park

[1] N. Tran, "Diversity of wild Camellia species of Tam Dao Nationnal Park," Journal of Science, Natural Science and Technology, vol. 23, pp. 152-154, 2007.

[2] W. Koch, J. Zagórska, Z. Marzec, and W. Kukula-Koch, "Applications of Tea (Camellia sinensis) and its Active Constituents in Cosmetics," Molecules (Basel, Switzerland), vol. 24, p. 4277, 2019.

[3] M. I. Prasanth, B. S. Sivamaruthi, C. Chaiyasut, and T. Tencomnao, "A Review of the Role of Green Tea (Camellia sinensis) in Antiphotoaging, Stress Resistance, Neuroprotection, and Autophagy," Nutrients, vol. 11, p. 474, 2019.

[4] D. Udayanga, X. Liu, E. McKenzie, E. Chukeatirote, A. Bahkali, and K. Hyde, "The genus Phomopsis: Biology, applications, species concepts and names of common phytopathogens," Fungal diversity, vol. 50, pp. 189-225, 2011.

[5] F. Liu, B. Weir, U. Damm, P. Crous, Y. Wang, B. Liu et al., "Unravelling Colletotrichum species associated with Camellia: Employing ApMat and GS loci to resolve species in the C. gloeosporioides complex," Persoonia, vol. 35, pp. 63-86, 2016.

[6] H. Lehmann-Danzinger, "Diseases and Pests of Tea: Overview and Possibilities of Integrated Pest and Disease Management," Journal of Agriculture and Rural Development in the Tropics and Subtropics, vol. 101, pp. 13-38, 2000.

[7] A. Karakaya, “Phomopsis theae on Camellia sinensis in Turkey,” Journal of Plant Pathology, vol. 91, no. 4, p. S105, 2009.

[8] P. Win, "Diversity of tea endophytic fungi: Cultivar- and tissue preferences," Applied Ecology and Environmental Research, vol. 16, pp. 677-695, 2018.

[9] T. J. White, T. D. Bruns, S. B. Lee, and J. W. Taylor, “Amplification and Direct Sequencing of Fungal Ribosomal RNA Genes for Phylogenetics,” In PCR Protocols: A Guide to Methods and Applications, Innis, M.A., Gelfand, D.H., Sninsky, J.J. and White, T.J., Eds. New York: Academic Press, vol. 31, pp. 315-322, 1990.

[10] C. Linner, J. Birgen, and J. Maingi, "In vitro response of Phomopsis theae to the products of Azadirachta indica and extracts of Warburgia ugandensis," Bioteknologi, vol. 14, pp. 37-46, 2017.

[11] B. G. Baldwin, M. J. Sanderson, J. M. Porter, M. F. Wojciechowski, C. S. Campbell, and M. J. Donoghue, "The its Region of Nuclear Ribosomal DNA: A Valuable Source of Evidence on Angiosperm Phylogeny," Annals of the Missouri Botanical Garden, vol. 82, pp. 247-277, 1995.

[12] P. S. Soltis and R. K. Kuzoff, "ITS sequence variation within and among populations of Lomatium grayi and L. laevigatum (Umbelliferae)," Mol Phylogenet Evol, vol. 2, pp. 166-170, Jun 1993.