Sclerophthora macrospora

Sclerophthora macrospora
Scientific classification
Domain:	Eukaryota
Clade:	Diaphoretickes
Clade:	SAR
Clade:	Stramenopiles
Phylum:	Oomycota
Order:	Peronosporales
Family:	Peronosporaceae
Genus:	Sclerophthora
Species:	S. macrospora
Binomial name
	Sclerophthora macrospora; (Sacc.) Thirum., (1953)
Synonyms
	Nozemia macrospora; Phytophthora macrospora; Phytophthora oryzae; Sclerospora kriegeriana; Sclerospora macrospora; Sclerospora oryzae Contents Host range ; Disease cycle ; Management ; References ; External links ;

Last updated April 10, 2024

Sclerophthora macrospora is a protist plant pathogen of the class Oomycota. It causes downy mildew on a vast number of cereal crops including oats, rice, maize, and wheat as well as varieties of turf grass.^[1] The common names of the diseases associated with Sclerophthora macrospora include "crazy top disease" on maize^[2] and yellow tuft disease on turf grass.^[3] The disease is present all over the world, but it is especially persistent in Europe.^{[ citation needed ]}

Host range

Sclerophthora macrospora has a wide host range,^[1] consisting of crops such as turf grass, maize, oats, rice, and wheat. The pathogen's lack of host specificity allows for widespread prevalence of the disease, and it affects a multitude of economically essential crops. Sclerophthora macrospora is the pathogen associated with downy mildew (or yellow tuft disease) on turf grass.^[3] The symptoms include proliferation of shoots and yellowing on cultivars of turf grass species.^[4] Additionally, Sclerophthora macrospora causes crazy top disease on maize. The symptoms of crazy top include phyllody and rapid increase in growth of tassels.^[2]

Disease cycle

Sclerophthora macrospora is an obligate parasite.^[5] All oomycetes, including Sclerophthora macrospora, produce oospores. Oospores are sexual spores produced by the fusion of an antheridium and oogonium. The oospore germinates and produces sporangium on sporangiophores in damp late spring to autumn. Dissemination of the sporangium, which is pearly white and lemon shaped,^[3] is assisted by splashing water. The sporangium, aided by water transport, lands on a leaf surface and releases zoospores which infect the host plants by encysting near the stoma and penetrating the plant tissue with a germ tube. The leaf surface must remain damp or the sporangia will cave in. When wet conditions persist, sporangia can release many zoospores. The pathogen's zoospores on the infected leaf provide a secondary inoculum allowing for the disease to be polycyclic. Oospores and mycelium can survive on dead leaves. In well drained soils, oospores can persist for a few months. The oospores that survive over winter will then produce more sporangium in late spring. Sclerophthora macrospora also produces mycelia from spores, which absorbs nutrients from the host plant.^[5]

Management

Since Sclerophthora macrospora can infect a wide range of hosts, many growers will have to find a way to manage the pathogen. Cultural control, sanitary methods, and chemical control are common ways to prevent the disease.^[1] Typical cultural practices used include mowing only when grass is dry and avoiding over watering. Since the disease proliferates in wet conditions, it is best to ensure that fields are well drained so sporangia don't spread.^[6] Preventive fungicides applied under certain guidelines can reduce the amount of the pathogen's structures in the field - but the success is limited. Spring applications of the fungicide metalaxyl, known under the trade name Subdue,^[7] can be effective especially for yellow tuft disease.^[3] It is important to recognize that most fungicides for Sclerophthora macrospora are preventive type treatments, not curative. Therefore, it is vital that the grower recognizes the symptoms and signs as soon as possible. A variety of resistant strains have also been bred - most notably in maize.^[1] Some cultivars of rice are also resistant.^[8]

Related Research Articles

Downy mildew refers to any of several types of oomycete microbes that are obligate parasites of plants. Downy mildews exclusively belong to the Peronosporaceae family. In commercial agriculture, they are a particular problem for growers of crucifers, grapes and vegetables that grow on vines. The prime example is Peronospora farinosa featured in NCBI-Taxonomy and HYP3. This pathogen does not produce survival structures in the northern states of the United States, and overwinters as live mildew colonies in Gulf Coast states. It progresses northward with cucurbit production each spring. Yield loss associated with downy mildew is most likely related to soft rots that occur after plant canopies collapse and sunburn occurs on fruit. Cucurbit downy mildew only affects leaves of cucurbit plants.

Phytophthora sojae is an oomycete and a soil-borne plant pathogen that causes stem and root rot of soybean. This is a prevalent disease in most soybean growing regions, and a major cause of crop loss. In wet conditions the pathogen produces zoospores that move in water and are attracted to soybean roots. Zoospores can attach to roots, germinate, and infect the plant tissues. Diseased roots develop lesions that may spread up the stem and eventually kill the entire plant. Phytophthora sojae also produces oospores that can remain dormant in the soil over the winter, or longer, and germinate when conditions are favourable. Oospores may also be spread by animals or machinery.

Phytophthora medicaginis is an oomycete plant pathogen that causes root rot in alfalfa and chickpea. It is a major disease of these plants and is found wherever they are grown. P. medicaginis causes failure of stand establishment because of seedling death. Phytophthora medicaginis is part of a species complex with Phytophthora megasperma.

Phytophthora nicotianae or black shank is an oomycete belonging to the order Peronosporales and family Peronosporaceae.

Phytophthora erythroseptica—also known as pink rot along with several other species of Phytophthora—is a plant pathogen. It infects potatoes causing their tubers to turn pink and damages leaves. It also infects tulips (Tulipa) damaging their leaves and shoots.

Pythium aphanidermatum is a soil borne plant pathogen. Pythium is a genus in the class Oomycetes, which are also known as water molds. Oomycetes are not true fungi, as their cell walls are made of cellulose instead of chitin, they are diploid in their vegetative state, and they form coenocytic hyphae. Also, they reproduce asexually with motile biflagelette zoospores that require water to move towards and infect a host. Sexually, they reproduce with structures called antheridia, oogonia, and oospores.

Pythium graminicola is a plant pathogen infecting cereals.

Pythium volutum is a plant pathogen infecting wheat, barley, and turfgrass. It is known to be sensitive to some of the compounds typically present in selective media commonly used for isolating Pythium spp., so isolation may require alternative methods.

Albugo is a genus of plant-parasitic oomycetes. Those are not true fungi (Eumycota), although many discussions of this organism still treat it as a fungus. The taxonomy of this genus is incomplete, but several species are plant pathogens. Albugo is one of three genera currently described in the family Albuginaceae, the taxonomy of many species is still in flux.

Bremia lactucae is a plant pathogen. This microorganism causes a disease of lettuce denominated as downy mildew. Some other strains can be found on 36 genera of Asteraceae including Senecio and Sonchus. Experiments using sporangia from hosts do not infect lettuce and it is concluded that the fungus exists as a quantity of host-specific strains. Wild species, such as Lactuca serriola, or varieties of Lactuca can hold strains that infect lettuce, but these pathogens are not sufficiently common to seriously infect the plant.

Peronospora manshurica is a plant pathogen. It is a widespread disease on the leaves of soybeans and other crop plants. The fungi is commonly referred to as downy mildew, "leafspot", or "leaf-spot".

Plasmopara halstedii is a plant pathogen infecting sunflowers. The species is one of many pathogens commonly referred to as downy mildew. P. halstedii originated in North America.

<i>Plasmopara viticola</i> Species of single-celled organism

Plasmopara viticola, the causal agent of grapevine downy mildew, is a heterothallic oomycete that overwinters as oospores in leaf litter and soil. In the spring, oospores germinate to produce macrosporangia, which under wet condition release zoospores. Zoospores are splashed by rain into the canopy, where they swim to and infect through stomata. After 7–10 days, yellow lesions appear on foliage. During favorable weather the lesions sporulate and new secondary infections occur.

Pseudoperonospora cannabina is a plant pathogen that causes downy mildew, which is a fungal-like disease caused by an oomycete.

Pseudoperonospora humuli is a plant pathogen that causes downy mildew on hops.

Peronosclerospora sorghi is a plant pathogen. It is the causal agent of sorghum downy mildew. The pathogen is a fungal-like protist in the oomycota, or water mold, class. Peronosclerospora sorghi infects susceptible plants though sexual oospores, which survive in the soil, and asexual sporangia which are disseminated by wind. Symptoms of sorghum downy mildew include chlorosis, shredding of leaves, and death. Peronosclerospora sorghi infects maize and sorghum around the world, but causes the most severe yield reductions in Africa. The disease is controlled mainly through genetic resistance, chemical control, crop rotation, and strategic timing of planting.

Pseudoperonospora cubensis is a species of water mould known for causing downy mildew on cucurbits such as cantaloupe, cucumber, pumpkin, squash and watermelon. This water mould is an important pathogen of all these crops, especially in areas with high humidity and rainfall, such as the eastern United States. In most years the disease is an annual, late-season problem on squash and pumpkin in the eastern and central United States, however, since 2004 it has become one of the most important diseases in cucumber production. Considered a highly destructive foliar disease of cucurbits, successful breeding in the mid-twentieth century provided adequate control of downy mildew in cucumber without the use of fungicides. The resurgence in virulence has caused growers great concern and substantial economic losses, while downy mildew in other cucurbit crops continues to be a yearly hindrance.

Peronospora destructor is a plant pathogen. It causes downy mildew on leaves of cultivated and wild Allium. Allium cepa is most often affected, while Allium schoenoprasum (chives) and Allium porrum (leek) are only occasionally affected.

Commonly known as Philippine downy mildew, this disease is caused by the species Peronosclerospora philippinensis of the fungal-like protist class Oomycetes, which also has members such as water molds and Phytophthora infestans, which caused the potato blight that led to the Great Irish famine.

Black rot on orchids is caused by Pythium and Phytophthora species. Black rot targets a variety of orchids but Cattleya orchids are especially susceptible. Pythium ultimum and Phytophthora cactorum are known to cause black rot in orchids.

References

1 2 3 4 "downy mildew (Sclerophthora macrospora)". www.plantwise.org. Retrieved 2016-12-08.
1 2 "Crazy Top". cropdisease.cropsci.illinois.edu. Retrieved 2016-12-08.
1 2 3 4 "IPM : Reports on Plant Diseases : Yellow Tuft or Downy Mildew of Turfgrasses". ipm.illinois.edu. Retrieved 2016-12-08.
↑ Jackson and Derneoden, Noel and Peter (1980). "The Incitant of Yellow Tuft Disease on Turf Grasses" (PDF). Department of Plant Pathology and Entomology at University of Rhode Island.
1 2 Dernoeden and Jackson, Peter and Noel (1980). "Infection and Mycelial Colonization of Gramineous Hosts by Sclerophthora macrospora" (PDF). Ecology and Epidemiology.
↑ "Zoospore/Sporgania production | Grünwald Lab". grunwaldlab.cgrb.oregonstate.edu. Retrieved 2016-12-08.
↑ "Survey of Pythium Isolates for Resistance to Subdue (metalaxyl)" (PDF). UMass Amherst . Retrieved 2020-11-23.
↑ Lee, Young-Hwan; Cha, Kwang-Hong; Ko, Sug-Ju; Park, Ki-Beum; Kim, Young-Cheol (2003-03-01). "Effect of Rice Downy Mildew (Sclerophthora macrospora) on Rice Growth and Screening of Disease Resistance of Cultivars". Research in Plant Disease . 9 (1). Korean Society of Plant Pathology: 52–56. doi: 10.5423/rpd.2003.9.1.052 . ISSN 1598-2262.

External links

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[:0-1] 1 2 3 4 "downy mildew (Sclerophthora macrospora)". www.plantwise.org. Retrieved 2016-12-08.

[:1-2] 1 2 "Crazy Top". cropdisease.cropsci.illinois.edu. Retrieved 2016-12-08.

[:2-3] 1 2 3 4 "IPM : Reports on Plant Diseases : Yellow Tuft or Downy Mildew of Turfgrasses". ipm.illinois.edu. Retrieved 2016-12-08.

[4] Jackson and Derneoden, Noel and Peter (1980). "The Incitant of Yellow Tuft Disease on Turf Grasses" (PDF). Department of Plant Pathology and Entomology at University of Rhode Island.

[:3-5] 1 2 Dernoeden and Jackson, Peter and Noel (1980). "Infection and Mycelial Colonization of Gramineous Hosts by Sclerophthora macrospora" (PDF). Ecology and Epidemiology.

[6] "Zoospore/Sporgania production | Grünwald Lab". grunwaldlab.cgrb.oregonstate.edu. Retrieved 2016-12-08.

[UMass-Amherst-Pythium-resistance-1998-7] "Survey of Pythium Isolates for Resistance to Subdue (metalaxyl)" (PDF). UMass Amherst . Retrieved 2020-11-23.

[Lee-et-al-2003-8] Lee, Young-Hwan; Cha, Kwang-Hong; Ko, Sug-Ju; Park, Ki-Beum; Kim, Young-Cheol (2003-03-01). "Effect of Rice Downy Mildew (Sclerophthora macrospora) on Rice Growth and Screening of Disease Resistance of Cultivars". Research in Plant Disease . 9 (1). Korean Society of Plant Pathology: 52–56. doi: 10.5423/rpd.2003.9.1.052 . ISSN 1598-2262.

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