Clavibacter sepedonicus | |
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Scientific classification | |
Domain: | Bacteria |
Phylum: | Actinomycetota |
Class: | Actinomycetia |
Order: | Micrococcales |
Family: | Microbacteriaceae |
Genus: | Clavibacter |
Species: | C. sepedonicus |
Binomial name | |
Clavibacter sepedonicus | |
Type strain | |
ATCC 33113 CCUG 23908 CFBP 2049 CIP 104844 DSM 20744 ICMP 2535 JCM 9667 LMG 2889 NCPPB 2137 VKM Ac-1405 [3] | |
Synonyms [3] | |
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Clavibacter sepedonicus is a species of bacteria in the genus Clavibacter . [1] [2] C. sepedonicus is a high-profile alien plant pathogen of A2 Quarantine status affecting only potatoes. It causes a disease in potatoes known as 'ring rot' due to the way it rots vascular tissue inside potato tubers [4] It is present in parts of Europe but is under statutory control under 'Council Directive 93/85/EEC' of 4 October 1993 on the control of potato ring rot. This means that if an outbreak occurs, the outbreak must be controlled and if possible the disease has to be eradicated. If necessary, prohibitions are put into place to prevent further spread.
A plant showing symptoms of ring rot should be reported to the local plant health authority.
C. sepidonicus is an economically important pathogen because it affects only potato, which was the 12th highest ranking commodity in 2009, generating $44,128,413,000 globally. [5] Like all bacteria in the genus Clavibacter, C. sepidonicus causes a systemic vascular infection by invading the xylem vessels and multiplying there which sometimes leads to plugged xylem vessels. When diagnosing a C. sepidonicus infection in potato, look for discoloration of the vascular ring within the tuber that has been described as "glassy" or "water-soaked" with the ooze inside having a "cheese-like consistency". [6] [7]
Symptoms of potato 'ring rot' are yellowing of the leaf margins which later turn brown and look like they are burned. Tubers rot from the inside, sometimes progressing to leave hollow shells. Rotting of the tubers is the more common symptom. Infected land cannot be used again for susceptible crops for several years. Among others, United States, Canada, many EU states and Middle Eastern countries have not yet been able to eradicate this pathogen.
The causal agent of Ring Rot of Potato overwinters many different ways. The bacteria survives in infected tubers in both storage and in the field. Diseased tubers then infect newly planted tubers. The bacterium also may be foundas dried slime on machinery or containers. For instance, if a knife cuts into an infected tuber, the next 20 tubers that the knife cuts have a high risk of becoming infected. [8] The bacteria enters the host through wounds and invades the xylem where it multiplies via binary fission. If colonization is successful, the bacteria may plug the xylem vessels. In advanced stages of infection, the bacteria will move out of the vessels and break down the surrounding parenchyma tissue before moving into new vessels. The bacteria may also invade the roots and cause them to deteriorate. [8]
C. sepidonicus spreads by contaminated soil, surfaces, infected seed, wash waters, infected potato waste, etc. It can survive on warehouse walls, boxes, bags etc. On machinery in dry conditions, it can survive at least a month – sometimes in the form of dried bacterial ooze. It is also able to overwinter in soil in association with plant debris. C. sepidonicus will only survive in the soil as long as the host tissue in which it resides persists and resists decomposition by saprophytic microorganisms in the soil. This poor ability to compete as a saprophyte in the absence of a susceptible host makes Clavibacter sp. known as soil invaders as opposed to soil inhabitants. [8]
North, Northwest and Central Europe have favorable climates for virulence. The disease multiplies rapidly and survives longer in cooler environments around 21 °C. At favorable conditions, the pathogen can survive 63 months in infected potato stems and 18 months in burlap sacks. [9]
In the UK, DEFRA Plant Health and Seed Inspectors (PHSI) and SEERAD carry out annual survey work on ware and seed potatoes. Samples are sent to the Fera Science which was formerly known as The Central Science Laboratory (for England and Wales) and to Scottish Agricultural Science Agency (SASA) (for Scotland) for latent infection testing (infected but not showing symptoms). Infected crops once identified are intercepted, impounded, and destroyed. additional text. In the EU, quarantine facilities and licences are required to obtain, hold, and/or work with the bacteria and in the UK, Department of Trade and Industry (DTI) export licences are required to export it to countries outside of the EU whether through a third party country or not. The last known outbreak in the UK was in August 2004. [10]
There are no chemicals to treat ring rot of potato. There are no resistant varieties either. If a tuber tests positive for Clavibacter sepidonicus, proper authorities should be immediately contacted as this is a quarantine disease in the United States as well Europe. [6]
Subsp. sepidonicus presents a danger of long-distance dispersal due to its ability to survive in seeds. [11]
Fusarium wilt is a common vascular wilt fungal disease, exhibiting symptoms similar to Verticillium wilt. This disease has been investigated extensively since the early years of this century. The pathogen that causes Fusarium wilt is Fusarium oxysporum. The species is further divided into formae speciales based on host plant.
Dickeya dadantii is a gram-negative bacillus that belongs to the family Pectobacteriaceae. It was formerly known as Erwinia chrysanthemi but was reassigned as Dickeya dadantii in 2005. Members of this family are facultative anaerobes, able to ferment sugars to lactic acid, have nitrate reductase, but lack oxidases. Even though many clinical pathogens are part of the order Enterobacterales, most members of this family are plant pathogens. D. dadantii is a motile, nonsporing, straight rod-shaped cell with rounded ends, much like the other members of the genus, Dickeya. Cells range in size from 0.8 to 3.2 μm by 0.5 to 0.8 μm and are surrounded by numerous flagella (peritrichous).
Xylella fastidiosa is an aerobic, Gram-negative bacterium of the genus Xylella. It is a plant pathogen, that grows in the water transport tissues of plants and is transmitted exclusively by xylem sap-feeding insects such as sharpshooters and spittlebugs. Many plant diseases are due to infections of X. fastidiosa, including bacterial leaf scorch, oleander leaf scorch, coffee leaf scorch (CLS), alfalfa dwarf, phony peach disease, and the economically important Pierce's disease of grapes (PD), olive quick decline syndrome (OQDS), and citrus variegated chlorosis (CVC). While the largest outbreaks of X. fastidiosa–related diseases have occurred in the Americas and Europe, this pathogen has also been found in Taiwan, Israel, and a few other countries worldwide.
Ralstonia solanacearum is an aerobic non-spore-forming, Gram-negative, plant pathogenic bacterium. R. solanacearum is soil-borne and motile with a polar flagellar tuft. It colonises the xylem, causing bacterial wilt in a very wide range of potential host plants. It is known as Granville wilt when it occurs in tobacco. Bacterial wilts of tomato, pepper, eggplant, and Irish potato caused by R. solanacearum were among the first diseases that Erwin Frink Smith proved to be caused by a bacterial pathogen. Because of its devastating lethality, R. solanacearum is now one of the more intensively studied phytopathogenic bacteria, and bacterial wilt of tomato is a model system for investigating mechanisms of pathogenesis. Ralstonia was until recently classified as Pseudomonas, with similarity in most aspects, except that it does not produce fluorescent pigment like Pseudomonas. The genomes from different strains vary from 5.5 Mb up to 6 Mb, roughly being 3.5 Mb of a chromosome and 2 Mb of a megaplasmid. While the strain GMI1000 was one of the first phytopathogenic bacteria to have its genome completed, the strain UY031 was the first R. solanacearum to have its methylome reported. Within the R. solanacearum species complex, the four major monophyletic clusters of strains are termed phylotypes, that are geographically distinct: phylotypes I-IV are found in Asia, the Americas, Africa, and Oceania, respectively.
Clavibacter michiganensis is an aerobic non-sporulating Gram-positive plant pathogenic actinomycete of the genus Clavibacter. Clavibacter michiganensis has several subspecies. Clavibacter michiganensis subsp. michiganensis causes substantial economic losses worldwide by damaging tomatoes and potatoes.
Curtobacterium flaccumfaciens is a Gram-positive bacterium that causes disease on a variety of plants. Gram-positive bacteria characteristics include small irregular rods, lateral flagella, the ability to persist in aerobic environments, and cells containing catalase. In the interest of studying pathogenicity in plants, this species is broken down further into pathovars, which help to better describe the pathogen.
Ceratocystis fimbriata is a fungus and a plant pathogen, attacking such diverse plants as the sweet potato and the tapping panels of the Para rubber tree. It is a diverse species that attacks a wide variety of annual and perennial plants. There are several host-specialized strains, some of which, such as Ceratocystis platani that attacks plane trees, are now described as distinct species.
Macrophomina phaseolina is a Botryosphaeriaceae plant pathogen fungus that causes damping off, seedling blight, collar rot, stem rot, charcoal rot, basal stem rot, and root rot on many plant species.
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.
Colletotrichum coccodes is a plant pathogen, which causes anthracnose on tomato and black dot disease of potato. Fungi survive on crop debris and disease emergence is favored by warm temperatures and wet weather.
Ditylenchus destructor is a plant pathogenic nematode commonly known as the potato rot nematode. Other common names include the iris nematode, the potato tuber eelworm and the potato tuber nematode. It is an endoparasitic, migratory nematode commonly found in areas such as the United States, Europe, central Asia and Southern Africa.
Xylophilus ampelinus is a species of bacteria that can cause plant disease. It is available from the NCPPB in the United Kingdom and other international culture collections such as ICMP in New Zealand, and LMG/BCCM in Belgium.
Laminated root rot also known as yellow ring rot is caused by the fungal pathogen Phellinus weirii. Laminated root rot is one of the most damaging root disease amongst conifers in northwestern America and true firs, Douglas fir, Mountain hemlock, and Western hemlock are highly susceptible to infection with P. weirii. A few species of plants such as Western white pine and Lodgepole pine are tolerant to the pathogen while Ponderosa pine is resistant to it. Only hardwoods are known to be immune to the pathogen.
Bacterial soft rots are caused by several types of bacteria, but most commonly by species of gram-negative bacteria, Erwinia, Pectobacterium, and Pseudomonas. It is a destructive disease of fruits, vegetables, and ornamentals found worldwide, and affects genera from nearly all the plant families. The bacteria mainly attack the fleshy storage organs of their hosts, but they also affect succulent buds, stems, and petiole tissues. With the aid of special enzymes, the plant is turned into a liquid mush in order for the bacteria to consume the plant cell's nutrients. Disease spread can be caused by simple physical interaction between infected and healthy tissues during storage or transit. The disease can also be spread by insects. Control of the disease is not always very effective, but sanitary practices in production, storing, and processing are something that can be done in order to slow the spread of the disease and protect yields.
Dickeya solani is a bacterium that causes blackleg and soft rot in potato crops. Its symptoms are often indistinguishable from those caused by Pectobacterium but is more virulent, causing disease from lower levels of inoculum and spreading through the plant more effectively.
Xanthomonas campestris pv. vesicatoria is a bacterium that causes bacterial leaf spot (BLS) on peppers and tomatoes. It is a gram-negative and rod-shaped. It causes symptoms throughout the above-ground portion of the plant including leaf spots, fruit spots and stem cankers. Since this bacterium cannot live in soil for more than a few weeks and survives as inoculum on plant debris, removal of dead plant material and chemical applications to living plants are considered effective control mechanisms.
Beet vascular necrosis and rot is a soft rot disease caused by the bacterium Pectobacterium carotovorum subsp. betavasculorum, which has also been known as Pectobacterium betavasculorum and Erwinia carotovora subsp. betavasculorum. It was classified in the genus Erwinia until genetic evidence suggested that it belongs to its own group; however, the name Erwinia is still in use. As such, the disease is sometimes called Erwinia rot today. It is a very destructive disease that has been reported across the United States as well as in Egypt. Symptoms include wilting and black streaks on the leaves and petioles. It is usually not fatal to the plant, but in severe cases the beets will become hollowed and unmarketable. The bacteria is a generalist species which rots beets and other plants by secreting digestive enzymes that break down the cell wall and parenchyma tissues. The bacteria thrive in warm and wet conditions, but cannot survive long in fallow soil. However, it is able to persist for long periods of time in the rhizosphere of weeds and non-host crops. While it is difficult to eradicate, there are cultural practices that can be used to control the spread of the disease, such as avoiding injury to the plants and reducing or eliminating application of nitrogen fertilizer.
Blackleg is a plant disease of potato caused by pectolytic bacteria that can result in stunting, wilting, chlorosis of leaves, necrosis of several tissues, a decline in yield, and at times the death of the potato plant. The term "blackleg" originates from the typical blackening and decay of the lower stem portion, or "leg", of the plant.
Bacterial wilt of carnations is a bacterial disease caused by the plant pathogen Paraburkholderia caryophylli. Previously named Pseudomonas caryophilli, the pathogen is an aerobic gram negative bacteria known for only being capable of entering its host through wounds. Once inside the host, it colonizes the vascular system and roots causing symptoms such as, internal stem cracking, yellowing of the leaves, wilting, and the development of cankers. As a bacterial disease, bacterial wilt of carnations can also be characterized by signs such as bacterial streaming, and bacterial ooze.
Clavibacter insidiosus is a species of Clavibacter. It causes bacterial wilt, with its most notable host being Medicago sativa (alfalfa). Other species in the Medicago genus are also known to be hosts such as Medicago falcata. Additionally, Lotus corniculatus, Melilotus alba, Onobrychis viciifolia, and Trifolium sp. are known hosts.
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: CS1 maint: archived copy as title (link), CABI and EPPO for the EU. "Clavibacter michiganensis subsp. sepedonicus", EPPO quarantine pest. Retrieved on 2011-10-26.{{cite web}}
: CS1 maint: archived copy as title (link), CABI and EPPO for the EU. "Clavibacter michiganensis subsp. michiganensis", EPPO quarantine pest. Retrieved on 2011-10-26.