Crown rot of wheat is caused by the fungal pathogen ''Fusarium pseudograminearum''. ''F. pseudograminearum'' is a member of the fungal phylum

Ascomycota Ascomycota is a phylum of the kingdom Fungi that, together with the Basidiomycota, forms the subkingdom Dikarya. Its members are commonly known as the sac fungi or ascomycetes. It is the largest phylum of Fungi, with over 64,000 species. The def ...

and is also known as ''Gibberella coronicola'' (

teleomorph In mycology, the terms teleomorph, anamorph, and holomorph apply to portions of the life cycles of fungi in the phyla Ascomycota and Basidiomycota: *Teleomorph: the sexual reproductive stage (morph), typically a fruiting body. *Anamorph: an ase ...

). It is a monoecious fungus, meaning it does not require another host other than wheat to complete its life cycle. Although ''F. pseudograminearum'' can produce both anamorphic and teleomorphic states, the teleomorph is usually not present for crown rot of wheat. This ''

Fusarium ''Fusarium'' is a large genus of filamentous fungi, part of a group often referred to as hyphomycetes, widely distributed in soil and associated with plants. Most species are harmless saprobes, and are relatively abundant members of the soil mi ...

'' species has, until recently, been considered to be the same as the species known as ''

Fusarium graminearum ''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 dolla ...

'' (head blight of wheat) due to many similar characteristics. One of the only differences between the two species is that ''F. pseudograminearum'' lacks its sexual stage on the wheat host.Stephens, AE; Gardiner, DM; White, RG; Munn, AL; Manners, JM, (2008) Phases of Infection and Gene Expression of Fusarium graminearum During Crown Rot Disease of Wheat, Molecular Plant-Microbe Interactions, Vol 21, No. 12, pp1571–1581. 10. Wallwork, H; Butt, M; Cheong, JPE; Williams, KJ, (2004) Resistance to Crown Rot in Wheat Identified Through an Improved Method for Screening Adult Plants, Australian Plant Pathology Society, Vol 33, pp1–7 An important characteristic in terms of infection that also distinguishes ''F. pseudgraminearum'' from ''F. graminearum'' is that ''F. pseudograminearum'' rarely infects the head of the wheat plant, only the crown, whereas ''F. graminearum'' can infect the entire wheat host.Agnieszka M. Mudge, Ruth Dill-Macky, et al, (2006) A role for the mycotoxin deoxynivalenol in stem colonisation during crown rot disease of wheat caused by Fusarium graminearum and Fusarium pseudograminearum, Physiological and Molecular Plant Pathology, Volume 69, Issues 1–3, July–September, Pages 73–85, ISSN 0885-5765, Other than these differences, the signs and symptoms of both fungal pathogens are very similar, showing necrosis of the stem base and crown. ''F. pseudograminearum'' also produces mycotoxins once colonization of the wheat has been fully established, which are responsible for the majority of the symptoms produced. Crown Rot of Wheat is an important plant disease that needs to be well managed due to its detrimental effects that it can have on entire fields of wheat. The infection of ''F. pseudograminearum'' can develop during stressful water deficits in fields and can spread quickly to other wheat plants, whose symptoms will ultimately lead to plant death.

Hosts and symptoms

''Fusarium pseudograminearum'' has a limited host range, only infecting species of wheat and barley. ''F. pseudograminearum'' can infect seedlings, but can also infect the crowns of mature wheat hosts. Crown rot of wheat produces asexual structures called conidiospores, which are produced in sporodochium structures inside the stem of the infected host. As the conidiospores germinate and invade the

xylem Xylem is one of the two types of transport tissue in vascular plants, the other being phloem. The basic function of xylem is to transport water from roots to stems and leaves, but it also transports nutrients. The word ''xylem'' is derived from ...

and

pith Pith, or medulla, is a tissue in the stem Stem or STEM may refer to: Plant structures * Plant stem, a plant's aboveground axis, made of vascular tissue, off which leaves and flowers hang * Stipe (botany), a stalk to support some other ...

of the stem, both the stem and crown develop a red-brown or white discoloration.Desmond, Olivia, Edgar, Cameraon et al, (2006) Methyl jasmonate induced gene expression in wheat delays symptom development by the crown rot pathogen Fusarium pseudograminearum, Physiological and Molecular Plant Pathology, Volume 67, Issues 3–5, September 2005 – October 2006, Pages 171–179, ISSN 0885-5765, The primary infection of the host’s xylem is thought to occur at the crown or lower sheath of the stem from stubble containing a spore and mycelial inoculum. The infection of the xylem leaves the tissue water-soaked and with a pink or salmon color. As the infection proliferates the crown then becomes punky and is ultimately dysfunctional.Chakraborty, S; Liu, CJ; Mitter, V; Scott, JB; Akinsanmi, OA; Ali, S; Dill-Macky, R; Nicol, J; Backhouse, D; Simpfendorfer, S, (2006) Pathogen Population Structure and Epidemiology are Keys to Wheat Crown Rot and Fusarium Head Blight Management, Australian Plant Pathology Society, Vol 35, pp643–655 Due to the vast infection throughout the host, the plant's growth is stunted and will show incomplete grain fill. As well as infecting the xylem and pith of the host, ''F. pseudograminearum'' produces

mycotoxin A mycotoxin (from the Greek μύκης , "fungus" and τοξίνη , "toxin") is a toxic secondary metabolite produced by organisms of kingdom Fungi and is capable of causing disease and death in both humans and other animals. The term 'mycotoxin' ...

s once it has fully been established. Mycotoxins are toxins produced by fungi that are harmful to animals and human if consumed. ''F. pseudograminearum'' produces the trichothecene mycotoxin

deoxynivalenol Vomitoxin, also known as deoxynivalenol (DON), is a type B trichothecene, an epoxy-sesquiterpenoid. This mycotoxin occurs predominantly in grains such as wheat, barley, oats, rye, and corn, and less often in rice, sorghum, and triticale. The occ ...

, or DON, which spreads throughout the plant stem and builds up in the tissue. The production of DON can produce the formation of whiteheads, which are heads of grain that died prematurely. It is known that ''F. pseudograminearum'' does not infect the heads of the wheat, but the formation of the "whiteheads" is a secondary symptom of the buildup of the mycotoxin DON. The transport dysfunction occurring in the xylem and the buildup of DON will ultimately lead to death of the infected wheat plants.

Disease cycle

The disease cycle of ''F. pseudograminearum'' includes both sexual and asexual stages, however the sexual stage has been observed to not play an important role in the establishment of the disease. Overwintering on crop residue, seeds, or in the soil is easily accomplished for this Fusarium species due to the formation of survival structures called

chlamydospore A chlamydospore is the thick-walled large resting spore of several kinds of fungi, including Ascomycota such as '' Candida'', Basidiomycota such as ''Panus'', and various Mortierellales species. It is the life-stage which survives in unfavourable c ...

s. As spring arrives the chlamydospores are signaled to germinate, producing asexual structures called

conidia A conidium ( ; ), sometimes termed an asexual chlamydospore or chlamydoconidium (), is an asexual, non-motile spore of a fungus. The word ''conidium'' comes from the Ancient Greek word for dust, ('). They are also called mitospores due to the ...

. As mentioned previously, the formation of sexual structures is rare in the field, but the pathogen's teleomorph would produce structures called

perithecia An ascocarp, or ascoma (), is the fruiting body ( sporocarp) of an ascomycete phylum fungus. It consists of very tightly interwoven hyphae and millions of embedded asci, each of which typically contains four to eight ascospores. Ascocarps are mo ...

. As the perithecia form they would produce

asci ASCI or Asci may refer to: * Advertising Standards Council of India * Asci, the plural of ascus, in fungal anatomy * Accelerated Strategic Computing Initiative * American Society for Clinical Investigation * Argus Sour Crude Index * Association of ...

that contain ascospores inside. The perithecia forcibly discharge the ascospores and then those airborne spores are disseminated either by wind, rain, or animal. These sexual spores then land on a mature wheat host and would start to colonize the stem and area around the crown as summer proliferates. However, the asexual stage of ''F. pseudograminearum'' is a much simpler cycle that produces the most damage to the wheat. Conidia, produced from the chlamydospores in soil or spread by wind, can infect wheat through natural openings and colonize the xylem and pith of the host. Formation of asexual structures called sporodochia can produce even more conidia, which act as a repeating infection stage. Soon the wheat plant will have multiple infection sites, most of which are near the crown. As harvest season approaches at the end of the summer the dry warm environment has allowed ''F. pseudograminearum'' to colonize the plant and start producing harmful mycotoxins that produce secondary symptoms in the grains of the wheat. The mycotoxin DON is harmful to animal and humans that consume the wheat, which makes the crop inedible and is thus a costly problem (Miedaner et al. 2008).

Environment

Crown rot of wheat caused by ''Fusarium'' is a widespread disease. It was previously believed that crown rot is restricted in its geographical distribution. In the United States, the disease is most prevalent in the driest and warmest regions of the Pacific Northwest.Backhouse, D., Burgess, L., (2002) Climate analysis of the distribution of Fusarium graminearum, F. pseudograminerarum, and F. culmorum on cereals in Australia, Australiaisan Plant Pathology, Vol. 31, P.321-327 However, recent investigations have suggested that the disease is found in most cereal producing regions of the world. Local environmental conditions play a large role in the prevalence of ''F. pseudograminearum''. This is particularly evident during late season when the crops are maturing. While both rainfall and temperature are important, studies have shown that rainfall plays a much larger role in the prevalence and severity of crown rot, although a weak temperature-disease correlation does exist.Backhouse, D; Abubaker, AA; Burgess, LW; Dennis, JI; Hollaway; Wildermuth, GB; Wallwork, H; Henry, FJ, (2004) Survey of Fusarium Species Associated with Crown Rot of Wheat and Barley in Eastern Australia, Australian Plant Pathology Society, Vol 33, pp255–261 In the field survey of wheat crops in Australia, the maximum summer temperature in areas where ''F. pseudograminearum'' was found to be as high as 31 °C. Under drought conditions, where warm and dry weather predominates, crown rot symptoms are intensified. This is largely due to the pathogen's ability to survive and thrive under these conditions. Laboratory studies suggest that ''F. pseudograminearum'' grows best under dry (<-1MPa) conditions.Singh, D., Backhouse, D., Kristiansen, P., (2009) Interaction of temperature and water potential in displacement of Fusarium pseudograminearum from cereal residues by fungal antagonists, Biological Control, Vol. 48, P.188-195 They further showed that while the pathogen grew fairly well in temperatures ranging from 5 °C to 30 °C, it does not grow well at 5 °C or 35 °C.

Management

The most common management practice for controlling Fusarium crown rot of wheat is to use resistant varieties. While no fully resistant variety exists, resistance in the form of tolerance to the disease can be used. A few of the resistant wheat varieties include 2–49, Sunco, Kukri, Brundage, Gene, Weatherford, Madson, Temple, and Tubbs. Tolerance still allows the host to become infected by the pathogen, but it provides the host with the ability to withstand the infection and produce an acceptable yield. Agronomic practices can be used to reduce the severity of Fusarium crown rot on wheat, but they cannot eliminate the disease. Practices which can help reduce the risk of disease are: not rotating wheat with oats, tilling fields after harvest to improve water infiltration, establishing a dust and stubble mulch in the spring, applying the correct amount of nitrogen to fields, and planting wheat at an intermediate planting date which balances the larger plants and greater stress of early planting with the lower yields of later planting. These practices work to reduce disease by creating an unfavorable environment for the pathogen or by making the host less susceptible. Since these practices do not necessarily line up with preferred agronomic and economic considerations, the use of resistant or tolerant varieties is becoming the accepted management practice.

Importance

''Fusarium'' crown rot is one of the most important ailments affecting wheat. Because of wheat’s central role in the global diet, crown rot represents a major economic concern. Not only is crown rot severe, it is also widespread. Across the United States, average losses in winter wheat resulting from crown rot have been estimated to be as high as 9.5% through large areas of the Pacific northwest.Hogg, AC; Johnston, RH; Klouser, L; Kephart, KD; Dyer, AT, (2010) Monitoring Fusarium Crown Rot Populations in Spring Wheat Residues Using Quantitative Real-Time Polymerase Chain Reaction, Phytopathology, Vol 100, No. 1, pp49–57 Similar losses are seen in other western states in the United States. Beyond North America, crown rot is a particularly concerning disease in Australia. In the past three decades, crown rot has become the disease of greatest relative importance in the northern grain producing regions of Australia. Overall, it is only second to septoria blotch in terms of its economic impact to wheat. Experts believe that the recent surge in crown rot prevalence in Australia is most likely resulting from cereals being growing in closer rotations and stubble retention practices becoming more prevalent. Furthermore, in seasons where environmental conditions permit, crown rot can decrease wheat yield by up to 100% in Australia and up to 65% in North America. Aside from the disease-induced crop loss, crown rot is also significant due to the toxicity of infected wheat. As noted above, DON is produced by ''F. pseudograminearum'' during disease development.Desmond, O., Manner, J., Stephens, D., et al, (2008) The Fusarium mycothoxin deoxynivalenol elicits hydrogen peroxide production, programmed cell death and defense in wheat, Mol. Plant Path., Vol. 9, P.435-445 DON has been shown to be toxic to both humans as well as animals after they inject the infected crop. In some European nations, the government has put out regulatory guidelines suggesting that DON's total daily intake should not exceed 1μg/kg.Larsen, J., Hunt, J., Perrin, I., et al, (2004) Workshop on trichothecenes with a focus on DON: summary report, ''

Toxicology Letters ''Toxicology Letters'' is a peer-reviewed scientific journal for the rapid publication of short reports on all aspects of toxicology, especially mechanisms of toxicity. Toxicology Letters is the official journal of Eurotox.Smiley et al, Oregon State University
{{Taxonbar, from=Q428585 pseudograminearum Fungal plant pathogens and diseases Wheat diseases