Puccinia horiana

Chrysanthemum white rust
Pustules caused by chrysanthemum white rust
Scientific classification Edit this classification
Domain: Eukaryota
Kingdom: Fungi
Division: Basidiomycota
Class: Pucciniomycetes
Order: Pucciniales
Family: Pucciniaceae
Genus: Puccinia
Species:
P. horiana
Binomial name
Puccinia horiana
Henn. 1901 [1]

Puccinia horiana is a species of fungus that causes chrysanthemum white rust, is a disease of plant species of the genus Chrysanthemum.

Origin and spread

Chrysanthemum white rust (CWR) was first identified in Japan in 1895.[2] The fungus Puccinia horiana was first described and published by German mycologist Paul Christoph Hennings (1841–1908), when found on the leaves of Chrysanthemum sinense in Honshu, Japan.[3]

It is now established throughout Asia, Europe, Australia, and South America.[4] It has been found in the United States on several occasions, but early detection and eradication efforts have prevented the disease from becoming established.[5]

Symptoms

Plants infected by chrysanthemum white rust exhibit spots on the upper surfaces of leaves. These spots are initially pale-green to yellow in color and up to 5mm in diameter, but may turn brown as the tissue becomes necrotic. On the underside of the leaf, stems, and flower, spots develop into pink or white waxy telial clusters/pustules where teliospores develop.[5] Pustules are able to form on any green tissue of the plant, but are most common on young leaves and flower bracts.[2]

Disease cycle

Puccinia horiana is a microcyclic, autoecious rust, meaning that the fungus has two known spore stages: teliospores and basidiospores, as well as no known alternate host. [6] Similar to other microcyclic rusts, two-celled teliospores produce unicellular basidiospores which are then dispersed via air currents. Basidiospores are disseminated 3-6 hours after development through wind and/or water.[6] Under a laboratory setting, it has been shown to both spores need high humidity (50-90% RH) and no less than 5 hours of constant leaf wetness to germinate.[6] Reports have shown that basidiospores can travel over 700 meters by wind.[6] Spores of P. horiana are susceptible to desiccation at RH levels less than 90%. Due to this trait, chrysanthemum white rust is more likely to be spread via greenhouse contamination than by air, such as by human contact, improper sanitation techniques, or by keeping a constant high humidity to keep the spores viable. [7] Symptoms begin to occur 7-10 days after penetration into the epidermis. Shortly after leaf spots appear, telial clusters will begin to form on the stems, flowers, and abaxial leaf surfaces. This is where teliospores develop. These teliospores will produce basidiospores initiating a new cycle.

Pathogenesis

Similar to most rusts, CWR has 4 stages of infection:[8]

(i)              Basidospore lands on susceptible plant. Development of germ tube and infection peg begins.

(ii)             Formation of small vesicles inside the host epidermis.

(iii)            Formation of elongated fungal vesicles inside the host epidermis

(iv)           Formation of septate fungal vesicles with branching hyphae. Here the fungus will move to infect the rest of the plant.

Economic importance

Due to the popularity of chrysanthemums as an ornamental flower, there has been a large effort in preventing spread of CWR. In the United States, Phytosanitary Quarantine against CWR have been established. This means that all imports of known and/or suspected hosts of P. horiana must be inspected upon entering the country.[6] If CWR is detected through various methods of detection, the plants are immediately eradicated. While eradication prevents significant economic loss if the pathogen were to become established, U.S. growers who receive infected plants suffer substantial losses. From 1990 - 1999, CWR was present in California from plants imported from Asia and Mexico. The average cost of eradication ranged from $5,000 - $7,000 per site, depending on size of lot and success of first eradication attempt. The costs of eradication in 2014 were estimated to be $788 - $11,000 respectively. Direct and indirect financial losses from CWR infestations in the U.S. from 1992 - 1997 were estimated to be $2 million dollars. Establishment of CWR may have devastating consequences, it has been shown that Turkey and Poland experience anywhere from 80% to 100% crop loss, which is significant as they are the top producers of Chrysanthemums. [9]

Management

Infection of CWR is systemic. By creating such a systemic infection, P. horiana has the potential to overwinter in plants as a form of protection.[10] The best form of prevention for CWR is to purchase plants, seeds, and materials from reputable sources to avoid P. horiana from ever entering the facility.[2] Proper sanitation of greenhouse or garden equipment and materials is also an important preventative measure.

Propiconazole has been shown to be an effective fungistatic. Propiconazole's mode of action blocks the biosynthesis of ergosterols, which is critical to the formation of cell walls of fungi. This stops the growth of the fungus, effectively preventing further infection and/or invasion of host tissues [11]

APHIS outlines management practices in three different categories for CWR.[12]

Exclusion

  • Maintain production area at less than preferred humidity for spore germination and survival
  • Follow specific sanitation protocols for personnel
  • Train personnel on symptoms and proper management practices
  • Avoid over and under-story of known hosts
  • Confirm that host stock comes from CWR free nursery
  • Inspect plants as soon as they arrive
  • Cuttings should be treated with fungicide before planting
  • Separate mother stock from main production area

Prevention

  • Use proper fungicide program for CWR on susceptible plants.
  • Clean debris around shipments
  • Avoid product returns to nursery stock from receivers in quarantined areas

Monitoring

  • Nursery personnel should attend CWR workshops
  • Separate host plants to avoid spread
  • Identify sources of disease recognition
  • Record keeping
  • Contact Department of Agriculture in your state if CWR is found

Susceptible and Resistant Varieties

Susceptible

  • Pot mums, spray mums, and garden mums ( Dendranthema X grandiflorum = Chrysanthemum morifolium )[2]
  • Nippon daisy ( Nipponicanthemum nipponicum = C. nipponicum )
  • High daisy ( C. pacificum = Ajania pacifica, C. serotinum, C. uliginosum )
  • Arctic daisy ( Chrysanthemum arcticum, C. boreale, C. indicum )[13]
  • Nojigiku ( Chrysanthemum japonense )
  • Ryuno-giku ( Chrysanthemum japonicum )
  • Shio-giku ( Chrysanthemum shiwogiku )
  • ( Chrysanthemum yoshinaganthum )
  • ( Dendranthema zawadskii, C. zawadskiii , D. yezoense, C. yezoense)
  • ( Leucanthemella serotina )

Resistant

See also

References

  1. ^ Henn., Hedwigia 40(Beibl.): (25) (1901)
  2. ^ a b c d e admin (2015-03-06). "Chrysanthemum White Rust". Center for Agriculture, Food, and the Environment. Retrieved 2022-05-03.
  3. ^ "Species Fungorum - Names Record". www.speciesfungorum.org. Retrieved 19 August 2023.
  4. ^ Data Sheets on Quarantine Pests Archived 2010-07-13 at the Wayback Machine. European and Mediterranean Plant Protection Organization. Retrieved on 2008-11-21.
  5. ^ a b Invasive and Emerging Fungal Pathogens - Diagnostic Fact Sheets Archived 2009-01-16 at the Wayback Machine. Hernández, J.R. Systematic Mycology and Microbiology Laboratory, ARS, USDA. 2004. Retrieved on 2008-11-21.
  6. ^ a b c d e O’Keefe, G.; Davis, D. D. (2015-05-27). "Morphology of Puccinia horiana, Causal Agent of Chrysanthemum White Rust, Sampled From Naturally Infected Plants". Plant Disease. 99 (12): 1738–1743. doi:10.1094/PDIS-02-15-0239-RE. ISSN 0191-2917. PMID 30699502.
  7. ^ "Puccinia horiana (white rust of chrysanthemum)". www.cabi.org. Retrieved 2019-12-10.
  8. ^ Firman, I. D.; Martin, P. H. (1968). "White rust of chrysanthemums". Annals of Applied Biology. 62 (3): 429–442. doi:10.1111/j.1744-7348.1968.tb05454.x. ISSN 1744-7348.
  9. ^ Yusuf, Evi Silvia; Budiarto, Kurniawan; Djatnika, I.; Suhardi, Suhardi (2017). "Effects of Varieties, Cutting Health and Fungicide Application on Chrysanthemum White Rust". Agrivita Journal of Agricultural Science. 39. doi:10.17503/agrivita.v39i1.948. Retrieved 2019-12-10.
  10. ^ O'Keefe, G.; Davis, D. D. (2012-08-09). "First Confirmed Report that Puccinia horiana, Causal Agent of Chrysanthemum White Rust, Can Overwinter in Pennsylvania". Plant Disease. 96 (9): 1381. doi:10.1094/PDIS-04-12-0400-PDN. ISSN 0191-2917. PMID 30727198.
  11. ^ "Propiconazole". pmep.cce.cornell.edu. Retrieved 2019-12-11.
  12. ^ United States Department of Agriculture Animal and Plant Health Inspection Service Plant Protection and Quarantine. "Chrysanthemum White Rust Eradication Protocol for Nurseries Containing Plants Infected with Puccinia horiana Henn" (PDF). Animal and Plant Health Inspection Service U.S. DEPARTMENT OF AGRICULTURE. Retrieved May 4, 2022.
  13. ^ APHIS, USDA (July 7, 2005). "Cut Flowers From Countries With Chrysanthemum White Rust". Federal Register, The Daily Journal of the United States Government.

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