Cephaleuros parasiticus

Cephaleuros parasiticus
Cephaleuros parasiticus on guava
Scientific classification
(unranked):	Viridiplantae
Division:	Chlorophyta
Class:	Ulvophyceae
Order:	Trentepohliales
Family:	Trentepohliaceae
Genus:	Cephaleuros
Species:	C. parasiticus
Binomial name
Cephaleuros parasiticus Karsten

Cephaleuros parasiticus is a plant pathogenic member of the chlorophyta, or green algae. It infects several commercially important crops including tea. Unlike the majority of pathogenic Cephaleuros species, it penetrates the epidermis of plants and is not constrained to subcuticular growth. It has sometimes been misidentified as Cephaleuros virescens.^[1] Cortex penetration and the name red rust of tea are marked differentiators of C. parasiticus from its relative C. virescens, which does not penetrate the epidermis. It has been renamed several times as more phylogenetic information has become available.^[2]

Importance

The disease is increasingly a concern in tea plantations throughout the Indian subcontinent and Sri Lanka in recent decades. It is also present in Chinese tea plantations, although apparently to a lesser extent. In some cases, it can necessitate large-scale replanting, which are especially vulnerable to C. parasiticus.^[3] It may present in up to one-quarter of all tea plantations in Bangladesh, and is one of the major threats to the tea plantation industry.^[4] It has long been identified as a concern for the industry, with publications dating back to 1907.^[1] Already weakened plants, suffering from nutrient stress or damage caused by mechanical harvesters, are at heightened risk of severe infections. It is possible for otherwise healthy plants to develop an infection as well. The National Bank for Agriculture and Rural Development in India recommends the use of pesticides in the establishment of new tea plantations.^[5]

General Biology

Symptoms and hosts

Red rust is known to infect other plants, including mango, coffee, citrus, and guava. It should not be confused with either the fungal coffee leaf rust, a basidiomycete rust; or with coffee red leaf spot, caused by the related C. virescens. Similar symptoms and pathogenesis seem to be present on all hosts.^[6] The algae can penetrate the epidermis, although spores more readily spread through wounds. It proceeds to invade the cortical tissue in the stem.^[1] In leaves, the rust causes chlorosis and variegation, which might be surrounded by anthocyanescence.^[7] One sign of an infection is red-orange filamentous growth emerging on wounds in humid conditions.^[8] The most extreme symptoms produce necrotic patches on the stem.^[4] Repeated infection cycles result in permanently reduced yields mortality, especially in younger plants.

Life cycle

The algae has a latent period of roughly a year following the initial infection of damaged tissue. After this time, it will begin fruiting during rainy periods. It disperses as both motile zoospores, and also through wind-borne sporangium. Wind and rain are mechanisms of this dispersal.^[1]

Management

The use of mechanical tea harvesters can increase the losses caused by this pathogen, as wounds on the plants allow for aggravated pathogenesis and eventual loss of the plant. As an algae, various agents including detergents and fungicides are mostly ineffective in controlling the disease. A mixture of urea and muriate of potash can also be applied via spraying.^[5] Tolerant cultivars are also being developed to reduce loss, although no resistant cultivars currently exist.^[3] Cultural practices such as eliminating weed shade and maintaining soil health have also been mentioned as important for the management of C. parasiticus.^[8] The mechanism of resistance from potash spraying is related to vigorous plant growth, as potash is an important nutrient for tea plants. The use of potash in conjunction with bordeaux spraying reduced the severity of the algae's impact on crop yields.^[6] This is supported by findings that vigorous growth in young plants reduces the severity of an infection.^[1] Spraying with copper-based fungicides up to three times throughout the summer, especially as the alga sporulates, can control the disease. Pruning infected branches can also help plants recover.^[7]

References

1. "A Parasitic Alga on Tea". Botanical Gazette. 45 (3): 212. 1908. doi:10.1086/329513. S2CID 224830284.
2. Brooks, Fred; Rindi, Fabio; Suto, Yasuo; Ohtani, Shuji; Green, Mark (June 2015). "The Trentepohliales (Ulvophyceae, Chlorophyta): An Unusual Algal Order and its Novel Plant Pathogen—Cephaleuros". Plant Disease. 99 (6): 740–753. doi:10.1094/pdis-01-15-0029-fe. ISSN 0191-2917. PMID 30699526.
3. Ponmurugan, Ponnusamy; Saravanan, Devarajan; Ramya, Mohan (2010-09-24). "Culture and Biochemical Analysis of a Tea Algal Pathogen, Cephaleuros Parasiticus1". Journal of Phycology. 46 (5): 1017–1023. doi:10.1111/j.1529-8817.2010.00879.x. ISSN 0022-3646. S2CID 83615973.
4. Mou, Nusrat Hasan (2012-07-11). "Profitability of Flower Production and Marketing System of Bangladesh". Bangladesh Journal of Agricultural Research. 37 (1): 77–95. doi:10.3329/bjar.v37i1.11179. ISSN 0258-7122.
5. "Tea Plantation for Small Tea Growers" (PDF). www.nabard.org. Retrieved 2018-12-11.
6. Ponmurugan, P; Saravanan, D; Ramya, M; Srinivasan, T.R.; Baby, U.I.; Ajay, D (2009). "Studies on Cephaleuros parasiticus Karst, a pathogenic alga causing red rust disease in tea plantations". Journal of Plantation Crops. 37: 70–73 – via CAB Direct.
7. "T.R.I Advisory Circular: Protection of Tea from Red Rust Disease in the Low Country" (PDF). www.tri.lk. August 2003. Retrieved 2018-12-11.
8. Chen, Tzong-Mao; Chen, Shin-Fun (1982). "Disease of Tea and Their Control in the People's Republic of China" (PDF). www.apsnet.org. Retrieved 2018-12-11.