Fusarium acuminatum

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Fusarium acuminatum
Scientific classification OOjs UI icon edit-ltr.svg
Domain: Eukaryota
Kingdom: Fungi
Division: Ascomycota
Class: Sordariomycetes
Order: Hypocreales
Family: Nectriaceae
Genus: Fusarium
Species:
F. acuminatum
Binomial name
Fusarium acuminatum
Ellis & Everh. (1895) [1]
Synonyms [2]
  • Fusarium caudatumWollenw., J. Agric. Res., Washington 2: 262 (1914)
  • Fusarium equiseti var. caudatum(Wollenw.) Joffe, Mycopath. Mycol. appl. 53(1-4): 220 (1974)
  • Fusarium gibbosum var. acuminatum(Ellis & Everh.) Bilaĭ, Fuzarii: 263 (1955)
  • Fusarium gibbosum var. acuminatum(Ellis & Everh.) Bilaĭ, Mikrobiol. Zh. 49(6): 6 (1987)
  • Fusarium scirpiLambotte & Fautrey, Revue mycol., Toulouse 16(no. 63): 111 (1894)
  • Fusarium scirpi subsp. acuminatum(Ellis & Everh.) Raillo, Fungi of the Genus Fusarium: 177 (1950)
  • Fusarium scirpi var. acuminatum(Ellis & Everh.) Wollenw., Fusaria autographica delineata 3: no. 930 (1930)
  • Fusarium scirpi var. caudatum(Wollenw.) Wollenw., Fusaria autographica delineata 3: no. 934, no. 935 (1930)
  • Fusarium scirpi var. commaWollenw., Fusaria autographica delineata 3: no. 922 (1930)
  • Fusarium scirpi var. nigrantumF.T. Benn., Ann. appl. Biol. 19: 21-26 (1932)
  • Fusarium scirpi var. pallensF.T. Benn., Ann. appl. Biol. 19: 21-26 (1932)
  • Gibberella acuminataWollenw., Centbl. Bakt. ParasitKde, Abt. II 106: 190 (1943)
  • Gibberella acuminataC. Booth, The Genus Fusarium: 161 (1971)
  • Microcera acuminata(Ellis & Everh.) Höhn., Sber. Akad. Wiss. Wien, Math.-naturw. Kl., Abt. 1 128: 729 (1919)

Fusarium acuminatum is a fungal plant pathogen.

It was originally found on the living stems of Solanum tuberosum in New York, USA. [2]

Fusarium acuminatum has been found to be a ripe rot pathogen of Actinidia deliciosa (fuzzy kiwifruit) in New Zealand. [3]

It has been found to cause post-harvest Rot on stored Kiwifruit (Actinidia arguta) in China. It was described as soft, brown, slightly sunken, water-soaked lesions with abundant white-to-pink mycelium. [4] It also causes root rot of Maidong ( Ophiopogon japonicus ) in China. [5] Fusarium acuminatum and Fusarium solani are known to be major pathogens causing root rot of Astragalus membranaceus (Mongolian milkvetch), which can lead to serious yield loss of the herb in China. [6]

Related Research Articles

<span class="mw-page-title-main">Fusarium wilt</span> Fungal plant disease

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.

<i>Fusarium</i> Genus of fungi

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 microbial community. Some species produce mycotoxins in cereal crops that can affect human and animal health if they enter the food chain. The main toxins produced by these Fusarium species are fumonisins and trichothecenes. Despite most species apparently being harmless, some Fusarium species and subspecific groups are among the most important fungal pathogens of plants and animals.

<i>Actinidia deliciosa</i> Species of plant

Actinidia deliciosa, the fuzzy kiwifruit, is a fruiting vine native to Southern China. Other species of Actinidia are also found in China and range east to Japan and north into southern areas of Russian Far East. This species grows naturally at altitudes between 600 and 2,000 m.

Alternaria japonica is a fungal plant pathogen. It is a cause of black spot disease in cruciferous plants. It is not a major source of crop loss, but is considered dangerous for plants during the seedling stage.

Cadophora malorum is a saprophytic plant pathogen that causes side rot in apple and pear and can also cause disease on asparagus and kiwifruit. C. malorum has been found parasitizing shrimp and other fungal species in the extreme environments of the Mid-Atlantic Ridge, and can be categorized as a halophilic psychrotrophic fungus and a marine fungus.

Stemphylium globuliferum is a plant pathogen infecting alfalfa.

Pestalotiopsis sydowiana is a plant pathogen infecting azaleas, heather, loquats, and rhododendrons.

Albonectria rigidiuscula is a fungal plant pathogen. The anamorph of A. rigidiuscula the fungus Fusarium decemcellulare is associated with inflorescence wilt and vascular necrosis in fruit tree crops such as Mango, Longan and Rambutan. F. decemcellulare causes a disease known as cushion gall in Theobroma cacao and other tropical trees.

Calonectria ilicicola is a fungal plant pathogen in the family Nectriaceae. It has been found to cause leaf spot in holly, root rot in blueberry, red crown rot in soybean, a root and crown rot of anthurium, and a soft rot of ginger.

Fusarium incarnatum is a fungal pathogen in the genus Fusarium, family Nectriaceae. It is usually associated with over 40 phylogenetic species in the natural environment to form the Fusarium incarnatum-equiseti species complex(FIESC). This complex is widespread across the globe in subtropical and temperate regions, resulting in many reported cases of crop diseases. It produces various mycotoxins including trichothecenes zearalenone, causing both plant and animal diseases.

Fusarium redolens is a species of fungus in the genus Fusarium and family Nectriaceae. This species is a soil-borne plant pathogen in temperate prairies. It causes diseases such as root, crown, and spear rot, seedling damping-off, and wilting disease. It is a known producer of the alkaloids peimisine and imperialine-3β-d-glucoside, which has implications for traditional Chinese medicine.

Fusarium sacchari is a fungal and plant pathogen of crops including sugarcane in China.

<i>Neocosmospora vasinfecta</i> Species of fungus

Neocosmospora vasinfecta is a fungal plant pathogen that causes, among other types of infections soybean stem rot.

Pseudocochliobolus eragrostidis is a plant pathogen infecting commelinids.

Pythium dissotocum is a plant pathogen infecting strawberry and rice.

Drechslera andersenii is a fungus that is a plant pathogen. It was originally found on the leaves of Lolium perenne in Great Britain. It was also found on Italian ryegrass.

Coniella is a fungus genus in the family Schizoparmeaceae, which contains 65 species recorded in the database Mycobank. This genus Coniella are reported as a typical plant pathogenic fungi for grape, eucalyptus and several plant. It mainly found in Europe, Asian, also South Africa. less report in American, only one paper published new spaces founded.

Cranberry fruit rot (CFR) is a disease complex of multiple fungal agents affecting the American cranberry. Cranberry fruit rot can be categorized into field rot and storage rot. The importance of field rot and fruit rot depends on how the cranberries will be processed after harvest. If cranberries are immediately processed after harvest, growers focus on preventing field rot while with fresh market cranberries, growers seek to prevent storage rot. There are 10-15 fungal pathogens known to cause cranberry fruit rot diseases, some active in only field rot, storage rot, or both. The majority of these fungal pathogens are ascomycetes, with the rest being deuteromycetes. There is no known bacterial pathogen that plays a role in CFR or any major disease on cranberry, potentially due to the low pH conditions on the cranberry fruit.

Epicoccum sorghinum is an ascomycete fungus with known plant pathogenicity to sugarcane and rice, causing ring spot disease and leaf spot disease. This fungus is primarily known for its production of tenuazonic acid, which leads to complications with growth and causes the symptoms of leaf spot disease. Tenuazonic acid not only affects plant growth, but has recently been proven to impact human health due to its prevalence in food and beverages. It is widely dispersed, affecting multiple hosts in different countries. Although not a serious threat, Epicoccum sorghinum has been known to influence the sorghum grain-mold complex in ways which reduce crop yields, seed viability, and kernel weight. As a result of continuous phylogenetic and morphological discoveries relevant to Epicoccum sorghinum, this fungus has undergone a number of name changes.

References

  1. Ellis & Everh., Proc. Acad. nat. Sci. Philad. 47: 441 (1895)
  2. 1 2 "Species Fungorum - GSD Species". www.speciesfungorum.org. Retrieved 13 August 2023.
  3. Pennycook, S.R.; Samuels, G.J. (1985). "Botryosphaeria and Fusicoccum species associated with ripe fruit rot of Actinidia deliciosa (kiwifruit) in New Zealand". Mycotaxon. 24: 445–458.
  4. Wang, C.W.; Ai, J.; Fan, S.T.; Lv, H.Y.; Qin, H.Y.; Yang, Y.M.; Liu, Y.X. (November 2015). "Fusarium acuminatum: A New Pathogen Causing Postharvest Rot on Stored Kiwifruit in China". Plant Disease. 99 (11): 1644. doi: 10.1094/PDIS-01-15-0021-PDN . ISSN   0191-2917.
  5. Tang, Tao; Wang, Fanfan; Guo, Jie; Guo, Xiaoliang; Duan, Yuanyuan; You, Jingmao (June 2021). "Fusarium acuminatum Associated with Root Rot of Maidong (Ophiopogon japonicus) in China". Plant Disease. 105 (6): 1860. doi: 10.1094/PDIS-11-20-2344-PDN . ISSN   0191-2917. PMID   33373289. S2CID   229723408.
  6. Wang, Yan; Wang, Chunwei; Ma, Yurong; Zhang, Xiqian; Yang, Hongbin; Li, Guangxin; Li, Xinfeng; Wang, Meiqin; Zhao, Xiaojun; Wang, Jianming; Zhang, Xianhong (2022). "Rapid and specific detection of Fusarium acuminatum and Fusarium solani associated with root rot on Astragalus membranaceus using loop-mediated isothermal amplification (LAMP)". European Journal of Plant Pathology. 163 (2): 305–320. doi:10.1007/s10658-022-02478-x. S2CID   248135988.


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