Puccinia jaceae var. solstitialis

Puccinia jaceae var. solstitialis
	Puccinia jaceae var. solstitialis causing rust on yellow starthistle leaves
Scientific classification
Domain:	Eukaryota
Kingdom:	Fungi
Division:	Basidiomycota
Class:	Pucciniomycetes
Order:	Pucciniales
Family:	Pucciniaceae
Genus:	Puccinia
Species:	P. jaceae
Variety:	P. j. var. solstitialis
Trinomial name
	Puccinia jaceae var. solstitialis; Savile (1970)

Last updated May 19, 2024

Puccinia jaceae var. solstitialis is a species of fungus in the Pucciniaceae family. It is a plant pathogen that causes rust. Native to Eurasia, it is the first fungal pathogen approved in the United States as a biological control agent to curb the growth of the invasive weed yellow starthistle (Centaurea solstitialis).

History

The rust species Puccinia jaceae was originally described by German botanist Gustav Heinrich Otth in 1866. In 1953, Hylander and colleagues synonymized P. jaceae with the P. hieracii, a species complex of rusts that attacked various Cichorieae plants. Later research determined that P. jaceae differed from the species P. hieracii, and Puccinia jaceae var. solstitialis was recognized as a variant of P. jaceae in a 1970 publication.^[1]

Description

The fruiting bodies, the pycnia, are flask-shaped and amphigenous (bearing hymenium all over the surface of the spore-producing body). This species also has amphigenous uredinia, groups of binucleate cells that produce urediniospores; the urediniospores are flattened to ellipsoidal in shape, typically 24–33 μm long by 19–25.5 μm thick by 22–30 μm wide. The spore wall is 1.5–2.4 μm thick on the rim (as viewed when the spores lie flat), 2.4–3.5 μm at base, and 2.2–3.5 μm on flattened face. The spore color is yellow-brown to light chestnut, with the base generally the same color. The hilum (the area where the spore attaches to the sterigma) is smooth; the spore echinulations 0.7–1.0 μm diam by 1.5–4.0 μm spacing, occasionally evenly over whole spore, but in general very fine or rarely lacking in a circle 7–10 μm diam below each germ pore. There are two germ pores on each spore, situated equatorially, without bumps (papilla). The telia (fruiting structures that produce teliospores) resemble uredinia. The teliospores are 27–46 by 20–30 μm, and not constricted at the septum. The teliospore walls are 1.5–2.5 μm away from germ pores, yellow-brown to light chestnut in color, with warts 0.2–0.5 μm high by 0.7–1.3 μm diam over pores but generally fainter or nonexistent elsewhere.^[1]

Biological control agent

This fungus is being used as a biological control organism to help reduce the spread of the invasive weed yellow starthistle (Centaurea solstitialis).^[2] This plant infests large areas of pasture and rangeland in the United States and Canada, and is of considerable economic importance because of its detrimental effects on the growth of desirable species.^[3]

Puccinia jaceae var. solstitialis is the first pathogen approved by the United States Department of Agriculture as a classical biological control agent.^[4] The first outdoor release of the fungus was made in Napa County, California in July 2003,^[5] using an isolate originally collected in 1984, east of Yarhisar and Hafik (SIVAS), Turkey.^[6] It has since been released at 77 sites in 37 counties. From 2004 to 2006, 183 releases were made in California in 41 counties, and a five further releases were made in 2007.^[7]

Distribution

Although native to Eurasia,^[8] this fungus can also be found in France.^[9]

Related Research Articles

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

Centaurea solstitialis, the yellow star-thistle, is a species of thorny plant in the genus Centaurea, which is part of the family Asteraceae. A winter annual, it is native to the Mediterranean Basin region and invasive in many other places. It is also known as golden starthistle, yellow cockspur and St. Barnaby's thistle.

Hemileia vastatrix is a multicellular basidiomycete fungus of the order Pucciniales that causes coffee leaf rust (CLR), a disease affecting the coffee plant. Coffee serves as the obligate host of coffee rust, that is, the rust must have access to and come into physical contact with coffee in order to survive.

Stem rust, also known as cereal rust, black rust, red rust or red dust, is caused by the fungus Puccinia graminis, which causes significant disease in cereal crops. Crop species that are affected by the disease include bread wheat, durum wheat, barley and triticale. These diseases have affected cereal farming throughout history. The annual recurrence of stem rust of wheat in North Indian plains was discovered by K.C. Mehta. Since the 1950s, wheat strains bred to be resistant to stem rust have become available. Fungicides effective against stem rust are available as well.

Wheat leaf rust is a fungal disease that affects wheat, barley, rye stems, leaves and grains. In temperate zones it is destructive on winter wheat because the pathogen overwinters. Infections can lead up to 20% yield loss. The pathogen is a Puccinia rust fungus. It is the most prevalent of all the wheat rust diseases, occurring in most wheat-growing regions. It causes serious epidemics in North America, Mexico and South America and is a devastating seasonal disease in India. P. triticina is heteroecious, requiring two distinct hosts.

Teliospore is the thick-walled resting spore of some fungi, from which the basidium arises.

Phragmidium violaceum is a plant pathogen native to Europe, Africa, and the Middle East. It primarily infects Rubus species.

Puccinia schedonnardii is a basidiomycete fungus that affects cotton. More commonly known as a “rust,” this pathogen typically affects cotton leaves, which can decrease the quality of the boll at time of harvest. As large percentages of cotton in the United States are resistant to various rust varieties, there is little economic importance to this disease. In places where rust is prevalent, however, growers could see up to a 50% reduction in yield due to rust infection.

Puccinia asparagi is the causative agent of asparagus rust. It is an autoecious fungus, meaning that all stages of its life cycle – pycniospores, aeciospores, and teliospores – all develop upon the same host plant . Rust diseases are among the most destructive plant diseases, known to cause famine following destruction of grains, vegetables, and legumes. Asparagus rust occurs wherever the plant is grown and attacks asparagus plants during and after the cutting season. Asparagus spears are usually harvested before extensive rust symptoms appear. Symptoms are first noticeable on the growing shoots in early summer as light green, oval lesions, followed by tan blister spots and black, protruding blisters later in the season. The lesions are symptoms of Puccinia asparagi during early spring, mid-summer and later summer to fall, respectively. Severe rust infections stunt or kill young asparagus shoots, causing foliage to fall prematurely, and reduce the ability of the plant to store food reserves. The Puccinia asparagi fungus accomplishes this by rust lowering the amounts of root storage metabolites. The infected plant has reduced plant vigor and yield, often leading to death in severe cases. Most rust diseases have several stages, some of which may occur on different hosts; however, in asparagus rust all the life stages occur on asparagus. Because of this, many observers mistake the different stages of the Puccinia asparagi life cycle as the presence of different diseases. The effects of Puccinia asparagi are present worldwide wherever asparagus is being grown. Asparagus rust is a serious threat to the asparagus industry.

<i>Puccinia coronata</i> Species of fungus

Puccinia coronata is a plant pathogen and causal agent of oat and barley crown rust. The pathogen occurs worldwide, infecting both wild and cultivated oats. Crown rust poses a threat to barley production, because the first infections in barley occur early in the season from local inoculum. Crown rusts have evolved many different physiological races within different species in response to host resistance. Each pathogenic race can attack a specific line of plants within the species typical host. For example, there are over 290 races of P. coronata. Crops with resistant phenotypes are often released, but within a few years virulent races have arisen and P. coronata can infect them.

Puccinia helianthi is a macrocyclic and autoecious fungal plant pathogen that causes rust on sunflower. It is also known as "common rust" and "red rust" of sunflower.

Puccinia menthae is a fungal plant pathogen that causes rust on mint plants. It was originally found on the leaves of Mentha aquatica.

Puccinia thaliae is the causal agent of canna rust, a fungal disease of Canna. Symptoms include yellow to tan spots on the plant's leaves and stems. Initial disease symptoms will result in scattered sori, eventually covering the entirety of the leaf with coalescing postulates. Both leaf surfaces, although more predominant on the underside (abaxial) of the leaf, will show yellow to brownish spore-producing these pustulate structures, and these are the signs of the disease. Spots on the upper leaf-surface coalesce and turn to brown-to-black as the disease progresses. Infection spots will become necrotic with time, with small holes developing in older leaves. These infected leaves eventually become dry and prematurely fall.

Austropuccinia is a monotypic genus of rust native to South America with the only species Austropuccinia psidii, commonly known as myrtle rust, guava rust, or ʻōhiʻa rust. It affects plants in the family Myrtaceae. It is a member of the fungal complex called the guava rust group. The spores have a distinctive yellow to orange colour, occasionally encircled by a purple ring. They are found on lesions on new growth including shoots, leaves, buds and fruits. Leaves become twisted and may die. Infections in highly susceptible species may result in the death of the host plant.

Telium, plural telia, are structures produced by rust fungi as part of the reproductive cycle. They are typically yellow or orange drying to brown or black and are exclusively a mechanism for the release of teliospores which are released by wind or water to infect the alternate host in the rust life-cycle. The telial stage provides an overwintering strategy in the life cycle of a parasitic heteroecious fungus by producing teliospores; this occurs on cedar trees. A primary aecial stage is spent parasitizing a separate host plant which is a precursor in the life cycle of heteroecious fungi. Teliospores are released from the telia in the spring. The spores can spread many kilometers through the air, however most are spread near the host plant.

Puccinia mariae-wilsoniae, commonly known as the spring beauty rust, is a species of rust fungus found in North America. A plant pathogen, it grows on the leaves of the spring beauty flowering plants Claytonia caroliniana and C. virginica.

Puccinia libanotidis, common name moon carrot rust, is a species of rust that infects the moon carrot, Seseli libanotis. It is restricted to the same range as its host plant across Eurasia.

Phakopsora euvitis is a rust fungus that causes disease of grape leaves. This rust fungus has been seen in regions including: Eastern Asia, Southern Asia, Southwestern Brazil, the Americas, and northern Australia. It is widely distributed in eastern and southern Asia but was first discovered on grapevines in Darwin, Australia in 2001 and was identified as Asian grapevine leaf rust by July 2007.

Puccinia sorghi, or common rust of maize, is a species of rust fungus that infects corn and species from the plant genus Oxalis.

Puccinia myrsiphylli is a rust fungus in the genus Puccinia, family Pucciniaceae, and is native to South Africa. It has been tested, introduced, and targeted in Australia and New Zealand as an effective biocontrol agent for Asparagus asparagoides, also known as bridal creeper.

References

1 2 Savile DBO. (1970). "Some Eurasian Puccinia species attacking Cardeae". Canadian Journal of Botany. 48 (9): 1553–66. doi:10.1139/b70-232.
↑ "Fungus Unleashed To Combat Yellow Starthistle". United States Department of Agriculture. 2004. Retrieved 2009-06-27.
↑ Watson AK, Clement M. (1986). "Evaluation of rust fungi as biological control agents of weedy Centaurea in North America". Weed Science. 34 (S1): 7–10. doi:10.1017/S0043174500068284. S2CID 89051567.
↑ "Annual Report of California Department of Food and Agriculture's Contributing Project to Cooperative Regional Research Project W-1185 II. Biological Control of Weeds. January 1, 2006 to December 31, 2006" (PDF). 2007. Archived from the original (PDF) on December 5, 2008. Retrieved 2009-06-27.
↑ O’Brien, Jon M.; Kyser, Guy B.; Woods, Dale M.; DiTomaso, Joseph M. (2010). "Effects of the rust Puccinia jaceae var. solstitialis on Centaurea solstitialis (yellow starthistle) growth and competition". Biological Control . 52 (2). Elsevier BV: 174–181. doi:10.1016/j.biocontrol.2009.10.019. ISSN 1049-9644.
↑ "Publication request: First report of Puccinia jaceae var. solstitialis pycnia on Yellow Starthistle in the United States" . Retrieved 2009-06-27.
↑ "Annual Report of Contributing Project to Cooperative Regional Research Project W2185 California Department of Food and Agriculture II. Biological Control of Weeds. January 1, 2007 to December 31, 2007" (PDF). Retrieved 2009-06-27.^{[ dead link ]}
↑ "Field Release of a Rust Fungus, Puccinia jaceae var. solstitialis (Uredinales), For Biological Control of Yellow Starthistle, Centaurea solstitialis (Asteraceae)" (PDF). 2002. Retrieved 2009-06-27.
↑ "Index Fungorum - Names Record" . Retrieved 2009-06-27.

External links

USDA ARS Fungal Database

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[Savile1970-1] 1 2 Savile DBO. (1970). "Some Eurasian Puccinia species attacking Cardeae". Canadian Journal of Botany. 48 (9): 1553–66. doi:10.1139/b70-232.

[urlFungus_Unleashed_To_Combat_Yellow_Starthistle-2] "Fungus Unleashed To Combat Yellow Starthistle". United States Department of Agriculture. 2004. Retrieved 2009-06-27.

[3] Watson AK, Clement M. (1986). "Evaluation of rust fungi as biological control agents of weedy Centaurea in North America". Weed Science. 34 (S1): 7–10. doi:10.1017/S0043174500068284. S2CID 89051567.

[urlnature.berkeley.edu2006-4] "Annual Report of California Department of Food and Agriculture's Contributing Project to Cooperative Regional Research Project W-1185 II. Biological Control of Weeds. January 1, 2006 to December 31, 2006" (PDF). 2007. Archived from the original (PDF) on December 5, 2008. Retrieved 2009-06-27.

[OBrien-et-al-2010-5] O’Brien, Jon M.; Kyser, Guy B.; Woods, Dale M.; DiTomaso, Joseph M. (2010). "Effects of the rust Puccinia jaceae var. solstitialis on Centaurea solstitialis (yellow starthistle) growth and competition". Biological Control . 52 (2). Elsevier BV: 174–181. doi:10.1016/j.biocontrol.2009.10.019. ISSN 1049-9644.

[urlARS-6] "Publication request: First report of Puccinia jaceae var. solstitialis pycnia on Yellow Starthistle in the United States" . Retrieved 2009-06-27.

[urlnature.berkeley.edu2007-7] "Annual Report of Contributing Project to Cooperative Regional Research Project W2185 California Department of Food and Agriculture II. Biological Control of Weeds. January 1, 2007 to December 31, 2007" (PDF). Retrieved 2009-06-27.^{[ dead link ]}

[urlwww.cdfa.ca.gov-8] "Field Release of a Rust Fungus, Puccinia jaceae var. solstitialis (Uredinales), For Biological Control of Yellow Starthistle, Centaurea solstitialis (Asteraceae)" (PDF). 2002. Retrieved 2009-06-27.

[urlIndex_Fungorum_-_Names_Record-9] "Index Fungorum - Names Record" . Retrieved 2009-06-27.

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