References
- Agrios, G.N. 2005. Plant Pathology. Elsevier, Burlington, MA, USA, 473–483.
- Bakshi, B.K., Singh, S. 1968. Dothistroma blight – a potential threat to Pinus radiata plantations in India. Indian Forester, 94 (11), 824–825.
- Balla, A. et al. 2021. The threat of pests and pathogens and the potential for biological control in forest ecosystems. Forests, 12 (11), 1579.
- Bamadhaj, H.M., Chan, G.F., Rashid, N.A.A. 2015. Aureobasidium. In: Molecular biology of food and water borne mycotoxigenic and mycotic fungi (eds. R. Russell M. Paterson, Nelson Lima). CRC Press, Boca Raton. DOI:
https://doi.org/10.1201/b18645 . - Barnes, I., Crous, P.W., Wingfield, B.D., Wingfield, M.J. 2004. Multigene phylogenies reveal that red band needle blight of Pinus is caused by two distinct species of Dothistroma, D. septosporum and D. pini. Studies in Mycology, 50 (2), 551–565.
- Barnes, I., van der Nest, A., Granados, G.M., Wing-field, M.J. 2022. Dothistroma needle blight. In: Forest microbiology (eds. F. Asiegbu, A. Kovalchuk). Academic Press, London, 179–199.
- Barnett, H.L., Hunter, B. 1998. Illustrated genera of imperfect fungi. APS Press, Minnesota, USA.
- Bose, R., Banerjee, S., Negi, N., Pandey, A., Bhandari, M.S., Pandey, S. 2022. Identification and pathogenicity of Calonectria pseudoreteaudii causing leaf blight of Eucalyptus – a new record for India. Physiological and Molecular Plant Pathology, 122, 101917.
- Brasier, C.M., Rose, J., Gibbs, J.N. 1995. An unusual Phytophthora associated with widespread alder mortality in Britain. Plant Pathology, 44 (6), 999–1007.
- Braun, U. 2012. Taxonomic manual of Erysiphales (powdery mildews). CBS Biodiversity series 11. CBS-KNAW Fungal Biodiversity Centre, Utrecht, The Netherlands.
- Burdon, J.J., Zhan, J. 2020. Climate change and disease in plant communities. PLoS Biology, 18 (11), e3000949.
- CABI/EPPO. 2015. Olivea tectonae. [Distribution map]. In: Distribution maps of plant diseases. CABI, Wallingford, UK.
- Cabral, P.G.C. et al. 2010. First report of teak leaf rust disease caused by Olivea tectonae in Brazil. Australasian Plant Disease Notes, 5 (1), 113–114.
- Campbell, C.K., Johnson, E.M. 2013. Identification of pathogenic fungi. John Wiley & Sons, Chichester.
- Chandel, S., Kumar, V. 2017. First report of tar spot of Toona (Toona ciliata) in India. Journal of Applied and Natural Science, 9 (2), 784–785.
- Charmakar, S. et al. 2022. Invasive alien plants, insect pests and pathogens in planted and natural forests in Nepal: Key lessons from an online survey on distribution and impacts. In: Proceeding of XV World Forestry Congress, 2–6 May 2022, Seoul, South Korea, 1–8.
- Creelman, D.W. 1964. Summary of the prevalence of plant diseases in Canada in 1963. Canadian Plant Disease Survey, 44 (1), 1–82.
- Crous, P.W. 2002. Taxonomy and pathology of Cylindrocladium (Calonectria) and allied genera. American Phytopathological Society (APS Press), St. Paul, MN, USA.
- Crous, P.W., Groenewald, J.Z., Risède, J.M., Simoneau, P., Hyde, K.D. 2006. Calonectria species and their Cylindrocladium anamorphs: Species with clavate vesicles. Study of Mycology, 55, 213–226.
- Crous, P.W., Kang, J.C., Schoch, C.L., Mchau, G.R. 2000. Phylogenetic relationships of Cylindrocladium pseudogracile and Cylindrocladium rumohrae with morphologically similar taxa, based on morphology and DNA sequences of internal transcribed spacers and beta-tubulin. Canadian Journal of Botany, 77 (12), 1813–1820.
- Drenkhan, R. et al. 2016. Global geographic distribution and host range of Dothistroma species: a comprehensive review. Forest Pathology, 46 (5), 408–442.
- El-Sayed, A., Kamel, M. 2020. Climatic changes and their role in emergence and re-emergence of diseases. Environmental Science and Pollution Research, 27, 22336–22352.
- EPPO. 2022. EPPO Global Database. Paris, France. Available at
https://gd.eppo.int/ . - Farr, D.F., Rossman, A.Y., Castlebury, L.A. 2021. United States National Fungus Collections Fungus-Host Dataset. Ag Data Commons. DOI:
https://doi.org/10.15482/USDA.ADC/1524414 . - Félix-Gastélum, R. et al. 2019. Powdery mildew caused by Golovinomyces spadiceus on wild sunflower in Sinaloa, Mexico. Canadian Journal of Plant Pathology, 41 (2), 301–309.
- Freer-Smith, P.H., Webber, J.F. 2017. Tree pests and diseases: the threat to biodiversity and the delivery of ecosystem services. Biodiversity and Conservation, 26 (13), 3167–3181.
- Geng, X., Liu, Y., Li, J., Li, Z., Shu, J., Wu, G. 2022. Identification and characterization of Nectria pseudotrichia associated with camellia canker disease in China. Forests, 13 (1), 29.
- Gilman, J. 1957. A manual of soil fungi. Soil Science, 84 (2), 183.
- Gonzalez, M. et al. 2021. Incidence of the emerging pathogen Neonectria neomacrospora on Abies taxa in the National Arboreta in England (UK). Forest Ecology and Management, 492, 119207.
- Guégan, J.F., Ayouba, A., Cappelle, J., De Thoisy, B. 2020. Forests and emerging infectious diseases: unleashing the beast within. Environmental Research Letters, 15 (8), 083007.
- Gullino, M. L. et al. 2022. Climate change and pathways used by pests as challenges to plant health in agriculture and forestry. Sustainability, 14 (19), 12421.
- Hansen, E.M. 2012. Phytophthora alni. Forest Phytophthoras, 2 (1).
- Hudler, G.W., Banik, M.T., Miller, S.G. 1987. Unusual epidemic of tar spot on Norway maple in upstate New York. Plant Disease, 71 (1), 65–67.
- Inghelbrecht, S., Gehesquière, B., Heungens, K. 2011. First report of Calonectria leaf spot caused by Calonectria colhounii (anamorph Cylindrocladium colhounii) on Rhododendron in Belgium. Plant disease, 95 (11), 1477–1477.
- IPPC. 2015. Detection of teak leaf rust. IPPC Official Pest Report, No. AUS-01/3. FAO, Rome, Italy.
- Jactel, H., Koricheva, J., Castagneyrol, B. 2019. Responses of forest insect pests to climate change: not so simple. Current Opinion in Insect Science, 35, 103–108.
- Jessadarom, H., Phetruang, W., Haitook, S., Cheewangkoon, R. 2018. Isolation of Calonectria sulawesiensis from soil in Thailand and its pathogenicity against Eucalyptus camaldulensis. Plant Pathology and Quarantine, 8, 1–8.
- Johnston, A., Booth, C. (eds.) 1983. Plant Pathologist’s Pocketbook. CAB, Slough, UK.
- Jung, T., Blaschke, M. 2004. Phytophthora root and collar rot of alders in Bavaria: distribution, modes of spread and possible management strategies. Plant pathology, 53(2), 197–208.
- Jung, T. et al. 2020. A survey in natural forest ecosystems of Vietnam reveals high diversity of both new and described Phytophthora taxa including P. ramorum. Forests, 11 (1), 93.
- Koffi, N.B.C., N’douba, A.P., Kouassi, C.K., Koffi, A.M.H., Diallo, H.A. 2018. First occurrence of teak leaf rust caused by Olivea tectonae in Cote d’Ivoire and Africa. New Disease Reports, 22.
- Kumar, D., Mukhopadhyay, R. 2025. Climate change and plant pathogens: Understanding dynamics, risks and mitigation strategies. Plant Pathology, 74 (1), 59–68.
- Lamsal, P., Kumar, L., Atreya, K., Pant, K.P. 2018. Forest ecosystem services in Nepal: a retrospective synthesis, research gaps and implications in the context of climate change. International Forestry Review, 20 (4), 506–537.
- Linnakoski, R., Kasanen, R., Dounavi, A., Forbes, K.M. 2019. Forest health under climate change: effects on tree resilience, and pest and pathogen dynamics. Frontiers in Plant Science, 10, 1157.
- Lortie, M. 1974. Nectria canker of hardwoods. URL:
https://agris.fao.org/agris-search/search.do?recordID=US201300578159 . - Malla, R., Pokharel, K.K. 2018. Forest pests and pathogens problem in different forest types of Nepal. Department of Forest Research and Survey, Kathmandu, Nepal.
- Mesquita, J.B., Santos, Í., Ribeiro, G.T., dos Santos, M.J.C. 2016. Rust (Olivea neotectonae) occurrence on teak plants in Sergipe, Brazil. Summa Phytopathologica, 42 (3), 278–279.
- Mieslerová, B., Sedlářová, M., Michutová, M., Petřeková, V., Cook, R., Lebeda, A. 2020. Powdery mildews on trees and shrubs in botanical gardens, parks and urban green areas in the Czech Republic. Forests, 11 (9), 967.
- Nielsen, U.B., Xu, J., Nielsen, K.N., Talgø, V., Hansen, O.K., Thomsen, I.M. 2017. Species variation in susceptibility to the fungus Neonectria neomacrospora in the genus Abies. Scandinavian Journal of Forest Research, 32 (5), 421–431.
- Panzavolta, T., Bracalini, M., Benigno, A., Moricca, S. 2021. Alien invasive pathogens and pests harming trees, forests, and plantations: Pathways, global consequences and management. Forests, 12 (10), 1364.
- Paseka, R.E. et al. 2020. Disease-mediated ecosystem services: Pathogens, plants, and people. Trends in Ecology and Evolution, 35 (8), 731–743.
- Pathak, H., Maru, S., Satya, H.N. Silawat, S.C. 2015. Fungal diseases of trees in forest nurseries of Indore, India. Journal of Plant Pathology and Microbiology, 6 (8), 297.
- Pérez, M., López, M.O., Martí, O. 2009. Olivea tectonae, leaf rust of teak, occurs in Cuba. Plant Pathology, 58 (2), 397.
- Pham, N.Q. et al. 2019. Ten new species of Calonectria from Indonesia and Vietnam. Mycologia, 111 (1), 78–102.
- Pham, N.Q., Marincowitz, S., Chen, S., Yaparudin, Y., Wingfield, M.J. 2022. Calonectria species, including four novel taxa, associated with Eucalyptus in Malaysia. Mycological Progress, 21 (1), 181–197.
- Redondo, M.A., Boberg, J., Olsson, C.H., Oliva, J. 2015. Winter conditions correlate with Phytophthora alni subspecies distribution in Southern Sweden. Phytopathology, 105 (9), 1191–1197.
- Roy, B.A. et al. 2014. Increasing forest loss worldwide from invasive pests requires new trade regulations. Frontiers of Ecology and Environment, 12, 457–465.
- Sanchez-Gonzalez, E.I., Soares, T.D.P.F., Zarpelon, T.G., Zauza, E.A.V., Mafia, R.G., Ferreira, M.A. 2022. Two new species of Calonectria (Hypocreales, Nectriaceae) causing Eucalyptus leaf blight in Brazil. MycoKeys, 91, 169–197.
- Shrestha, B.B., Shrestha, K.K. 2021. Invasions of alien plant species in Nepal: Patterns and process. In: Invasive alien species: observations and issues from around the world (eds. T. Pullaiah, M.R. Lelmin). John Wiley and Sons Ltd, 168–183.
- Shrestha, K.K., Bhandari, P., Bhattarai, S. 2022. Plants of Nepal (Gymnosperms and Angiosperms). Heritage Publishers and Distributors Pvt. Limited, Kathmandu, Nepal.
- Sims, L.L., Sutton, W., Reeser, P., Hansen, E.M. 2015. The Phytophthora species assemblage and diversity in riparian alder ecosystems of western Oregon, USA. Mycologia, 107 (5), 889–902.
- Solomou, A.D., Topalidou, E.T., Germani R., Argiri, A., Karetsos, G. 2019. Importance, utilization and health of urban forests: A review. Notulae Botanicae Horti Agrobotanici Cluj-Napoca, 47 (1), 10–16.
- Srivastava, L.S., Verma, R.N. 1990. Some newly recorded fungal diseases of forest trees of Sikkim. Indian Forester, 116 (1), 89–90.
- Thapa, L.B., Kaewchumnong, K., Sinkkonen, A., Sridith, K.J.W.R. 2017. Plant invasiveness and target plant density: high densities of native Schima wallichii seedlings reduce negative effects of invasive Ageratina adenophora. Weed Research, 57 (2), 72–80.
- Thapa, L.B., Kaewchumnong, K., Sinkkonen, A., Sridith, K. 2020. “Soaked in rainwater” effect of Ageratina adenophora on seedling growth and development of native tree species in Nepal. Flora, 263, 151554.
- Trumbore, S., Brando, P., Hartmann, H. 2015. Forest health and global change. Science, 349 (6250), 814–818.
- Vujanovic, V., Brisson, J. 2002. A comparative study of endophytic mycobiota in leaves of Acer saccharum in eastern North America. Mycological Progress, 1 (2), 147–154.
- Wani, Z.A., Fatima, T., Verma, O., Sharma, V., Pant, S. 2023. Impacts of climate change on plants with special reference to the Himalayan region. In: Climate change adaptation, risk management and sustainable practices in the Himalaya (eds. S. Sharma, J.C. Kuniyal, P. Chand, P. Singh). Springer International Publishing, Cham, 237–251.
- Warren, W.A. 2007. What is a healthy forest? Definitions, rationales, and the lifeworld. Society and Natural Resources, 20 (2), 99–117.
- Wu, W., Chen, S. 2021. Species diversity, mating strategy and pathogenicity of Calonectria species from diseased leaves and soils in the Eucalyptus plantation in southern China. Journal of Fungi, 7 (2), 73.
- Yang, Q., Chen, W.Y., Jiang, N., Tian, C.M. 2019. Nectria-related fungi causing dieback and canker diseases in China, with Neothyronectria citri sp. nov. described. MycoKeys, 56, 49–66.
- Yang, Q., Du, Z., Liang, Y.M., Tian, C.M. 2018. Molecular phylogeny of Nectria species associated with dieback and canker diseases in China, with a new species described. Phytotaxa, 356 (3), 199–214.