Loose smut

Loose smut
Scientific classification
Domain:	Eukaryota
Kingdom:	Fungi
Division:	Basidiomycota
Class:	Ustilaginomycetes
Order:	Ustilaginales
Family:	Ustilaginaceae
Genus:	Ustilago
Species:	U. nuda
Binomial name
	Ustilago nuda; (C.N. Jensen) Rostr. (1889)

Last updated April 26, 2024

Loose smut of barley is caused by Ustilago nuda.^[2] It is a disease that can destroy a large proportion of a barley crop. Loose smut replaces grain heads with smut, or masses of spores which infect the open flowers of healthy plants and grow into the seed, without showing any symptoms. Seeds appear healthy and only when they reach maturity the following season is it clear that they were infected. Systemic fungicides are the major control method for loose smut.

Hosts and symptoms

The major symptom of loose smut is the "smutted" grain heads, which contain masses of black or brown spores where the grain would normally be. The spores completely replace the grain head so that there is no grain to be harvested on infected plants. It may be possible to identify infected plants in the field before they reach the flowering stage by looking for plants which are taller and more mature than the rest of the field. The fungus causes infected plants to grow slightly taller and mature slightly sooner than the uninfected plants in the field. Since it must infect through the open florets, this gives the fungus a competitive advantage by allowing it to fall down to the healthy plants and ensuring that the fungus has a little extra time to produce and disperse spores before the florets of the healthy plants open.

Ustilago nuda infects barley 'Hordeum vulgare L.' but there are many strains of Ustilago which infect many different cereal crops in a similar manner. Ustilago tritici, for example, is loose smut of wheat.

Disease cycle

The disease cycle of loose smut begins when teliospores are blown to open flowers and infect the ovary either through the stigma or directly through the ovary wall. There are multiple mating types for Ustilago spp. so infection will only occur if two compatible mating types are present in the same flower.

After landing in an open floret, the teliospores give rise to basidiospores. Without dispersing to any alternate host plant, the basidiospores germinate right where they are. The hyphae of two compatible basidiospores then fuse to establish a dikarytic stage.

After germination inside the ovary, the fungal mycelia invade the developing embryo in the seed. The fungus stays alive in the seed until the next growing season, when it is planted along with the seed. As the developing plant grows, the fungus grows with it. Once it's time for the flowers to form, teliospores are produced in place of the flowers and develop where the grain would be.

Plants which are infected with Ustilago spp. actually grow taller and flower earlier than their healthy counterparts. This gives the infected plants an advantage in that the flowers of uninfected plants are more physically and morphologically susceptible to infection. The teliospores in the smutted grain heads disperse to the open flowers of the healthy plants, and the cycle continues.

Environment

Loose smut is unique in that it needs to infect the seed in the previous growing season in order to be a pathogen of the plant in the current growing season. This means that regardless of environmental conditions, if an infected seed is planted as long as the growing conditions are good for the plant, they will be good for the fungus. However, if there are environmental stressors on the plant such as drought or extreme heat, the plant will be more susceptible to injury because of the added stress from the fungal infection. If the plant doesn't survive to its reproductive stage, the fungus will not get to reproduce either.

Environment becomes a factor once teliospores have been produced and are ready for dispersal. In order to get to the open flowers of healthy plants, the teliospores must be moved by wind or rain or possibly insects. If dry, calm conditions persist for the entire time the flowers are open, the infection rate will be low. Wind and moderate rain, as well as cool temperatures (16–22 °C or 61–72 °F) are ideal for the dispersal of spores. Conditions in Eastern Europe, Western Siberia, and the Northern Caucasus regions are some of the most conducive to loose smut.

Control

The most widely used method of control for loose smut is using treated seed. Seeds are typically treated with a systemic fungicide to kill any fungus that may be inside. Since the fungus grows up with the plant, it is very important that the fungicide used to treat the seed be systemic and not just external. The most common type of systemic fungicides used for loose smut are from the carboxin group of chemicals. Although carboxins are highly toxic to fish and mildly toxic to other animals, they degrade rapidly in the environment and since there the fungicide is coated on seed and not sprayed there is not much loss to the environment.

Barley varieties with resistance to loose smut are also commercially available. Although technology is being researched and used to help speed the process of resistant variety development, these traditional breeding methods are still very slow, and it is difficult to develop varieties with resistance which also possess other desirable traits such as those for yield and grain quality. Another option is heat treating the seed to kill the fungus before planting, but this is a delicate process because too much heat will kill the plant embryo and not enough will allow the fungus to survive. Research has also been done to use radio frequency heating to treat seed.

Importance

If uncontrolled, loose smut can wipe out entire crops, since it replaces the grain. In areas where people depend on their grain crops for survival and don't have the money or technology resources to control it, the disease can be devastating. Not only does it wipe out the crop, growers cannot even try again next year since any seeds they were able to harvest will be infected and will not produce seed the following season.

Loose smut has recently become a more serious problem in the Ladakh region in the Himalayan mountains of India. This area has been particularly affected by global climate change and has experienced many new crop pests and diseases because of it. Barley is an important staple crop in this region and although loose smut is not the most prevalent disease of barley in the region, it has the potential to develop into a more serious problem in coming years.

In places like the United States where there are ample resources and technologies such as fungicide seed treatment, loose smut is not an especially important disease.

Varieties

Varieties of Ustilago nuda are:

Ustilago nuda var. foliicola [Trotter]
Ustilago nuda var. hordei
Ustilago nuda var. nuda (C.N. Jensen) Rostr.
Ustilago nuda var. tritici

Related Research Articles

Rusts are fungal plant pathogens of the order Pucciniales causing plant fungal diseases.

Corn smut is a plant disease caused by the pathogenic fungus Ustilago maydis. One of several cereal crop pathogens called smut, the fungus forms galls on all above-ground parts of corn species such as maize and teosinte. The infected corn is edible; in Mexico, it is considered a delicacy, called huitlacoche, often eaten as a filling in quesadillas and other tortilla-based dishes, as well as in soups.

The smuts are multicellular fungi characterized by their large numbers of teliospores. The smuts get their name from a Germanic word for 'dirt' because of their dark, thick-walled, and dust-like teliospores. They are mostly Ustilaginomycetes and comprise seven of the 15 orders of the subphylum. Most described smuts belong to two orders, Ustilaginales and Tilletiales. The smuts are normally grouped with the other basidiomycetes because of their commonalities concerning sexual reproduction.

Sugarcane smut is a fungal disease of sugarcane caused by the fungus Sporisorium scitamineum. The disease is known as culmicolous, which describes the outgrowth of fungus of the stalk on the cane. It attacks several sugarcane species and has been reported to occur on a few other grass species as well, but not to a critical amount. The most recognizable characteristic of this disease is a black or gray growth that is referred to as a "smut whip". Resistance to sugarcane smut is the best course of action for management, but also the use of disease free seed is important. On smaller scale operations treatments using hot water and removing infected plants can be effective. The main mode of spore dispersal is the wind but the disease also spreads through the use of infected cuttings. Sugarcane smut is a devastating disease in sugarcane growing areas globally.

Common bunt, also known as hill bunt, Indian bunt, European bunt, stinking smut or covered smut, is a disease of both spring and winter wheats. It is caused by two very closely related fungi, Tilletia tritici and T. laevis.

<span class="mw-page-title-main">Covered smut (barley)</span> Species of fungus

Covered smut of barley is caused by the fungus Ustilago hordei. The disease is found worldwide and it is more extensively distributed than either loose smut or false loose smut.

False loose smut is a fungal disease of barley caused by Ustilago nigra. This fungus is very similar to U. nuda, the cause of loose smut, and was first distinguished from it in 1932.

Common root rot is a fungal disease of barley caused by Cochliobolus sativus, Fusarium culmorum and F. graminearum.

<i>Gibberella zeae</i> Species of fungus

Gibberella zeae, also known by the name of its anamorph Fusarium graminearum, is a fungal plant pathogen which causes fusarium head blight (FHB), a devastating disease on wheat and barley. The pathogen is responsible for billions of dollars in economic losses worldwide each year. Infection causes shifts in the amino acid composition of wheat, resulting in shriveled kernels and contaminating the remaining grain with mycotoxins, mainly deoxynivalenol (DON), which inhibits protein biosynthesis; and zearalenone, an estrogenic mycotoxin. These toxins cause vomiting, liver damage, and reproductive defects in livestock, and are harmful to humans through contaminated food. Despite great efforts to find resistance genes against F. graminearum, no completely resistant variety is currently available. Research on the biology of F. graminearum is directed towards gaining insight into more details about the infection process and reveal weak spots in the life cycle of this pathogen to develop fungicides that can protect wheat from scab infection.

Tilletia caries is a basidiomycete that causes common bunt of wheat. The common names of this disease are stinking bunt of wheat and stinking smut of wheat. This pathogen infects wheat, rye, and various other grasses. T. caries is economically and agriculturally important because it reduces both the wheat yield and grain quality.

Urocystis agropyri is a fungal plant pathogen that causes flag smut on wheat.

Ustilago avenae is a plant pathogen. Semiloose smut of oats can be found wherever oats are grown, as they are seldom treated with seed treatments. The level of treatment is low because oats command a lower sale price than other cereals and hence it is thought that treatment is uneconomic. Semiloose smut of oats, unlike loose smut of wheat and barley, can thus infect up to 80 per cent of a crop.

Uromyces viciae-fabae var. viciae-fabae is a plant pathogen commonly known as faba-bean rust. The rust is distinguished by the typical rust-like marks on the stem and leaves, causing defoliation and loss of photosynthetic surface along with reduction in yield. The disease is fungal and is autoecious meaning it has one plant host. The rust of faba beans is macrocyclic, or contains 5 spores during its life cycle.

Sporisorium sorghi, commonly known as sorghum smut, is a plant pathogen that belongs to the Ustilaginaceae family. This fungus is the causative agent of covered kernel smut disease and infects sorghum plants all around the world such as Sorghum bicolor (sorghum), S. sudanense, S. halepense and Sorghumvulgare var. technichum (broomcorn). Ineffective control of S. sorghi can have serious economic and ecological implications.

Sporisorium reilianum Langdon & Full., (1978), previously known as Sphacelotheca reiliana, and Sporisorium reilianum, is a species of biotrophic fungus in the family Ustilaginaceae. It is a plant pathogen that infects maize and sorghum.

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

This article summarizes different crops, what common fungal problems they have, and how fungicide should be used in order to mitigate damage and crop loss. This page also covers how specific fungal infections affect crops present in the United States.

Salmacisia is a fungal genus in the family Tilletiaceae. It is a monotypic genus, containing the single species Salmacisia buchloëana, first described as Tilletia buchloëana in 1889, and renamed in 2008. Plants infected by the fungus undergo a phenomenon known as "parasitically induced hermaphroditism", whereby ovary development is induced in otherwise male plants. Because of the pistil-inducing effects of the fungus, the authors have named the species pistil smut; it is the only species in the order Tilletiales known to have hermaphroditic effects.

Ustilago esculenta is a species of fungus in the Ustilaginaceae, a family of smut fungi. It is in the same genus as the fungi that cause corn smut, loose smut of barley, false loose smut, covered smut of barley, loose smut of oats, and other grass diseases. This species is pathogenic as well, attacking Manchurian wild rice, also known as Manchurian ricegrass, Asian wild rice, and wateroat. This grass is its only known host.

Thecaphora frezzii, commonly referred to as peanut smut, is a species of smut fungus of the genus Thecaphora and the family Glomosporiaceae. It is a basidiomycete fungus that infects peanut plants. It is currently only found in South America, more specifically in Argentinian peanut farms.

References

↑ "Index Fungorum - Names Record". www.speciesfungorum.org. Retrieved 2008-03-15.
↑ Martens, J.W.; W.L. Seaman; T.G. Atkinson (1984). Diseases of field crops in Canada. Canadian Phytopathological Society. pp. 160 pp.

External links

Thomas, P.L. (1984). "An albino strain of Ustilago nuda from Canada" (PDF). Canadian Journal of Plant Pathology. 6 (2): 98–100. Bibcode:1984CaJPP...6...98T. doi:10.1080/07060668409501567. Archived from the original (PDF) on 2007-09-29. Retrieved 2007-03-03.

Thomas, P.L. (1984). "Recombination of virulence genes following hybridization between isolates of Ustilago nuda infecting barley under natural conditions" (PDF). Canadian Journal of Plant Pathology. 6 (2): 101–104. Bibcode:1984CaJPP...6..101T. doi:10.1080/07060668409501568. Archived from the original (PDF) on 2007-09-29. Retrieved 2007-03-03.

Martin, R.A.; L.V. Edgington (1980). "Effect of temperature on efficacy of triadimenol and fenapanil to control loose smut of barley" (PDF). Canadian Journal of Plant Pathology. 2 (4): 201–204. Bibcode:1980CaJPP...2..201M. doi:10.1080/07060668009501409. Archived from the original (PDF) on 2007-09-27. Retrieved 2007-03-03.

This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.

[fungorum-1] "Index Fungorum - Names Record". www.speciesfungorum.org. Retrieved 2008-03-15.

[DiseasesOfFieldCrops-2] Martens, J.W.; W.L. Seaman; T.G. Atkinson (1984). Diseases of field crops in Canada. Canadian Phytopathological Society. pp. 160 pp.

[1]

[2]