Phragmidium violaceum | |
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Blackberry plants infected with rust fungus, a biological control agent for blackberry. The newly released strains of the European blackberry rust fungus (Phragmidium violaceum) are highly host-specific for weedy blackberries. | |
Scientific classification | |
Kingdom: | Fungi |
Division: | Basidiomycota |
Class: | Pucciniomycetes |
Order: | Pucciniales |
Family: | Phragmidiaceae |
Genus: | Phragmidium |
Species: | P. violaceum |
Binomial name | |
Phragmidium violaceum (Schultz) G. Winter, (1880) | |
Synonyms | |
Phragmidium violaceum is a plant pathogen native to Europe, Africa, and the Middle East. It primarily infects Rubus species.
It has been used in the biological control of invasive blackberry species in Chile, Australia, and New Zealand. In 2005, it was discovered growing on Himalayan blackberry plants in Oregon. This accidental introduction does not appear to be infecting native vegetation, so it offers hope for reducing the impact of invasive blackberries in the Pacific Northwest.
The foliar symptoms that can be found include purple leaf spots along with yellow and tan centers. [1] These can be found on the upper surface of the leaf and can resemble Septoria leaf spot. On the lower surface of the leaf yellow to orange pustules will be surrounded by a purple tinge. [2] These can resemble cane and leaf rust. The leaves that are severely infected can start to dehydrate as well as start to curl. The leaves that are older and closer to the cane will get infected first and can die as well. The flowers and the fruits that are infected may fail to ripen. Stem infections as well as the continuous defoliation may cause the dieback of the canes. [1] During the summer and fall the infected leaves can start to develop black pustules otherwise known as telia among the uredinia.
The pathogen is a macrocyclic, autoecious rust fungus, and produces five different spore states that represent the asexual and sexual components of the life cycle. [3] Dikaryotic urediniospores are released during the summer as well as the spring while teliospores represent the overwintering stage. When the sexual outcrossing occurs the dikaryotic aeciospores and urediniospores are initiated. [4] The teliospores in the spring will then undergo meiosis in order to produce haploid basidiospores. This follows the insect-mediated transfer of spermatia from the spermogonia of the different types of mating to the receptive hyphae. [5] The spores are spread very easily and can be spread by wind.
Cultural tactics along with dormant season lime sulfur can help to reduce the initial inoculums source. The chemical tactics function to protect the healthy younger plant tissues. [1] By removing the old fruiting canes early, after the harvest it will prevent the spreading of the infection. Chemical controls can be effective as well. Chemical protection will need to start by applying lime sulfur to the leaves that are infected. Fungicide application during fall, in the month of September, is the most beneficial for the health of the plant. There may be development of fungal resistance if there is overuse of any single product. The fungicides are primarily protectants therefore, cannot eradicate the disease after it becomes established. [1] The biological control works when an uncharacterized population and or a mixture of strains of a pathogen from the native range of the target weed is released in the area into which the weed is introduced. [3] The strain F15 was released as a biological control agent in 1991 and 1992. [5] The release of the additional strains can originate the potential to increase the genetic diversity of the population of P. violaceum. The occurrence through recombination or the increase in the effective population size can in turn improve the impact of the biological control agent. [3] Biological control agent is likely to be successful, however there is a high potential for the failure of additional strains due to the amount of inoculums involved in the pathogen strain recruitment. [6] The amount of inoculums released is small when compared with the well-adapted pathogen that exists in the population
Rusts are plant diseases caused by pathogenic fungi of the order Pucciniales.
Soybean rust is a disease that affects soybeans and other legumes. It is caused by two types of fungi, Phakopsora pachyrhizi, commonly known as Asian soybean rust and Phakopsora meibomiae, commonly known as New World soybean rust. P. meibomiae is the weaker pathogen of the two and generally does not cause widespread problems. The disease has been reported across Asia, Australia, Africa, South America and the United States.
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.
This is a glossary of some of the terms used in phytopathology.
Leptosphaeria coniothyrium is a plant pathogen. It can be found around the world.
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 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 melanocephala is a plant pathogen, it is the causal agent of sugarcane rust. This pathogen affects multiple species of sugarcane, including Saccharum spontaneum or wild sugarcane, Saccharum robustum, and the most commonly cultivated species Saccharum officinarum. Puccinia melanocephala can also infect other member of the family Poaceae, including some species of bamboo such as Bambusa vulgaris. The first symptoms of sugarcane rust are elongate, yellow-colored leaf spots, roughly 1mm to 4mm in length. The leaf spots gradually become bigger and turn a reddish-brown color. The uredia develop underneath the epidermis where the leaf spots are present. When the uredia become big enough, they break through the epidermis to form the characteristic rust pustules from which uredospores are borne. These pustules can coalesce, resulting in large areas of dead tissue.
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.
Melampsora lini is a species of fungus and plant pathogen found in Ireland and commonly known as flax rust.
Elsinoë ampelina is a plant pathogen, which is the causal agent of anthracnose on grape.
Phakopsora pachyrhizi is a plant pathogen. It causes Asian soybean rust.
Austropuccinia psidii, commonly known as myrtle rust, guava rust, or ʻōhiʻa rust; is a rust native to South America that 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.
Phragmidium is a genus of rust fungus that typically infects plant species in the family Rosaceae. It is characterised by having stalked teliospores borne on telia each having a row of four or more cells. All species have a caeoma which is a diffuse aecidium lacking a peridium.
Raspberry spur blight is caused by the fungus Didymella applanata. This plant pathogen is more problematic on red raspberries (Rubus idaeus) than on black or purple raspberries. The fungus infects the leaves first and then spreads to the cane. It causes necrotic spots on the cane near the base of the petiole attachment. Raspberry spur blight can cause a significant reduction in yield, fruit blight, premature leaf drop, and weak bud and cane growth. The magnitude of damage is not clearly understood in the United States, however, studies from Scotland suggest damage to the cane itself is limited. The disease has minor economic impacts by reducing leaves in the summer or killing buds. Major economic damage occurs if the disease manages to kill the entire cane. In the United States, this disease is found in Oregon and Washington.
Banana freckle is a disease caused by the fungus Guignardia musae (telomorph) or Phyllosticta musarum (anamorph). Generally, the causal agent of disease is referred to as Guignardia-Phyllosticta sp. There are several different strains of the fungus that exist to infect different banana varieties around the globe. Symptoms include yellowing of the tissue and formation of small dark brown spots on the leaves and fruit. Within the spots, conidia or pycnidia can be found. Banana freckle is easily propagated and spread from plant to plant by rain splash and movement of infected tissue or fruit. Management of the disease consists of cutting out infected leaves, using the paper bag method, fungicide application, and proper sanitation techniques. This devastating disease is extremely relevant for the major banana exporting countries of the world. In the absence of chemical control, there is about a 78% yield loss. Banana freckle disease needs to be carefully monitored in order to prevent further spread of the disease.
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.
Melampsora amygdalinae is a fungal pathogen and part of the division Basidiomycota. It is known as a rust fungus that is host specific. M. amygdalinae commonly infects willows of the genus Salix. This fungus was first discovered in 1909 by Heinrich Klebahn who was a professor of soil biology in Hamburg. Neimi at el. explain how the pathogen occurs throughout the whole distribution of the host, and the small natural populations are an area of interest. This rust fungus is annual and autoecious, which references the fungus spending its entire life in a single host.
Puccinia sorghi, or common rust of maize, is a species of rust fungus that infects corn and species from the plant genus Oxalis.