Invasive Species Compendium

Detailed coverage of invasive species threatening livelihoods and the environment worldwide

Datasheet

Trichothecium roseum
(fruit rot of tomato)

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Datasheet

Trichothecium roseum (fruit rot of tomato)

Summary

  • Last modified
  • 21 November 2019
  • Datasheet Type(s)
  • Pest
  • Natural Enemy
  • Preferred Scientific Name
  • Trichothecium roseum
  • Preferred Common Name
  • fruit rot of tomato
  • Taxonomic Tree
  • Domain: Eukaryota
  •   Kingdom: Fungi
  •     Phylum: Ascomycota
  •       Subphylum: Pezizomycotina
  •         Class: Sordariomycetes
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    Compendia
    CAB International
    Wallingford
    Oxfordshire
    OX10 8DE
    UK
    compend@cabi.org
  • Distribution map More information

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Identity

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Preferred Scientific Name

  • Trichothecium roseum Link

Preferred Common Name

  • fruit rot of tomato

Other Scientific Names

  • Cephalothecium roseum CORDA

International Common Names

  • English: pink mould rot of cucurbits; pink rot of apple; soft rot of mango
  • Spanish: podredumbre amarga (manzano, peral); podredumbre amarga de las cucurbitaceas; podredumbre rosada (manzano, peral); podredumbre rosada del pepino; podredumbre rosada del tomate
  • French: moisissure rose de la tomate; moisissure rose du concombre; moisissure rose du poirier; moisissure rose du pommier; pink-rot du poirier; pourriture amere des cucurbitacees; pourriture amere du poirier; pourriture amere du pommier

Local Common Names

  • Germany: Bitterfaeule: Weinrebe; Bitterton: Wein; Mykotoxinbildner (Trichothecin); Schalenfaeule: Weinrebe

EPPO code

  • TRITRO (Trichothecium roseum)

Taxonomic Tree

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  • Domain: Eukaryota
  •     Kingdom: Fungi
  •         Phylum: Ascomycota
  •             Subphylum: Pezizomycotina
  •                 Class: Sordariomycetes
  •                     Subclass: Hypocreomycetidae
  •                         Order: Hypocreales
  •                             Genus: Trichothecium
  •                                 Species: Trichothecium roseum

Distribution Table

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The distribution in this summary table is based on all the information available. When several references are cited, they may give conflicting information on the status. Further details may be available for individual references in the Distribution Table Details section which can be selected by going to Generate Report.

Last updated: 10 Jan 2020

References

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Chandel SS; Mohinder Kaur, 2003. Effect of fungicidal seed treatment on seed variability, seed mycoflora and plant health of marigold. Journal of Hill Research, 16(1):29-31.

Dong WH; Bian YB, 2013. Stipe canker caused by Trichothecium roseum on the edible shaggy mane Coprinus comatus in China. Plant Disease, 97(11):1507-1508. http://apsjournals.apsnet.org/loi/pdis

Fakhrunnisa; Hashmi MH; Ghaffar A, 2006. Seedborne mycoflora of wheat, sorghum and barley. Pakistan Journal of Botany, 38(1):185-192. http://www.pjbot.org

Greathead DJ; Greathead AH, 1992. Biological control of insect pests by insect parasitoids and predators: the BIOCAT database. Biocontrol News and Information, 13(4):61N-68N.

He ShiLan; Liu ZengLiang; Liu XiaoMei; Xie YiXian; Pu JinJi, 2011. A new disease in mango caused by Trichothecium roseum. Journal of Fruit Science, 28(3):474-478.

Inácio CA; Pereira-Carvalho RC; Morgado FGA; Fonseca MEN; Boiteux LS, 2011. A tomato fruit rot caused by Trichothecium roseum in Brazil. Plant Disease, 95(10):1318. http://apsjournals.apsnet.org/loi/pdis

Kirti Joshi; Harsh NSK; Rawat PS; Shukla AN, 2004. Mycoflora associated with different seed sources of Pinus wallichiana. Indian Forester, 130(12):1410-1415.

Kita W; Pusz W, 2010. Fungi from seeds of velvetleaf (Abutilon theophrasti Medik.). (Grzyby zasiedlajace nasiona zaslazu pospolitego (Abutilon theophrasti Medik.).) Progress in Plant Protection, 50(2):656-659. http://www.progress.plantprotection.pl/pliki/2010/PPP_50_2_27_Kita_W.pdf

Lin SH; Wang JH; Wu AB, 2016. A post-harvest pink rot of pepper caused by Trichothecium roseum in China. Plant Disease, 100(11):2164. http://apsjournals.apsnet.org/loi/pdis

Liu YJ; Zhou LJ; Chen LS; Zhou HB; Xu SW; Zhao H, 2016. Trichothecium roseum causes fruit rot of Polygonatum cyrtonema in China. Plant Disease, 100(8):1780. http://apsjournals.apsnet.org/loi/pdis

Lõiveke H; Ilumäe E; Laitamm H, 2004. Microfungi in grain and grain feeds and their potential toxicity. Agronomy Research, 2(2):195-205.

Nadia Ashraf; Bhat MY; Wani AH; Koka JA; Shazia Parveen, 2016. Diversity of foliicolous fungi on peach (Prunus persica) from Kashmir Valley of India. Indian Phytopathology, 69(3):294-297. http://epubs.icar.org.in/ejournal/index.php/IPPJ/article/view/60160/24994

Pradeep AG; Lokesh S; Rai VR, 2003. Efficacy of some essential oils on seed mycoflora and seedling quality of some crop species saved by farmers. Advances in Plant Sciences, 16(1):53-58.

Procházková Z, 2009. Quality, and fungus contamination, of European beech (Fagus sylvatica) beechnuts collected from the forest floor and from nets spread on the floor. (Kvalita a zdravotní stav bukvic sbíraných ze zeme a ze sítí.) Zprávy Lesnického Výzkumu, 54(3):205-212.

Puia C; Pop R, 2004. The phytosanitary status of the stored apples as effect of the ozone exposure. Buletinul Universitatii de Stiinte Agricole si Medicina Veterinara Cluj-Napoca. Seria Agricultura, 60:146-151.

Razia Sultana; Shamim Shamsi, 2010. Association of fungi with symptomatic plant parts of chickpea (Cicer arietinum L.) from Bangladesh. Bangladesh Journal of Plant Pathology, 26(1/2):69-75.

Shazia Rasheed; Shahnaz Dawar; Ghaffar A; Shaukat SS, 2004. Seedborne mycoflora of groundnut. Pakistan Journal of Botany, 36(1):199-202.

Sieber TN; Jermini M; Conedera M, 2007. Effects of the harvest method on the infestation of chestnuts (Castanea sativa) by insects and moulds. Journal of Phytopathology, 155(7/8):497-504. http://www.blackwell-synergy.com/loi/jph

Szopinska D; Bralewski TW, 2006. Dill (Anethum graveolens L.) seed stalk architecture and seeds infestation with fungi. Notulae Botanicae, Horti Agrobotanici, Cluj-Napoca, 34:75-78.

Terabe NI; Martins CM; Homechin M, 2008. Microorganisms associated with fruits of different cultivars of Pecan nut. (Microrganismos associados a frutos de diferentes cultivares de noz Pecan.) Ciência e Agrotecnologia, 32(2):659-662. http://www.scielo.br/pdf/cagro/v32n2/49.pdf

Thippeswamy G; Lokesh S; Rai VR, 2003. Influence of some indigenous medicinal plants extracts on seed mycoflora and seedling growth of some oilseed crop species. Advances in Plant Sciences, 16(1):67-74.

Tomar DS; Shastry PP; Nayak MK; Sikarwar P, 2012. Effect of seed borne mycoflora on cotton seed (JK 4) and their control. Journal of Cotton Research and Development, 26(1):105-108. http://www.crdaindia.com

Zhang Y; Han JG; Bolkan H; Shi QH, 2006. The mycoflora of perennial ryegrass seed and their effects on the germination and seedling vigour. Seed Science and Technology, 34(2):429-441.

Distribution References

CABI Data Mining, Undated. CAB Abstracts Data Mining.,

CABI, Undated. CABI Compendium: Status inferred from regional distribution. Wallingford, UK: CABI

CABI, Undated a. CABI Compendium: Status as determined by CABI editor. Wallingford, UK: CABI

Dong W H, Bian Y B, 2013. Stipe canker caused by Trichothecium roseum on the edible shaggy mane Coprinus comatus in China. Plant Disease. 97 (11), 1507-1508. http://apsjournals.apsnet.org/loi/pdis DOI:10.1094/PDIS-03-13-0344-PDN

Greathead D J, Greathead A H, 1992. Biological control of insect pests by insect parasitoids and predators: the BIOCAT database. Biocontrol News and Information. 13 (4), 61N-68N.

He ShiLan, Liu ZengLiang, Liu XiaoMei, Xie YiXian, Pu JinJi, 2011. A new disease in mango caused by Trichothecium roseum. Journal of Fruit Science. 28 (3), 474-478.

Inácio C A, Pereira-Carvalho R C, Morgado F G A, Fonseca M E N, Boiteux L S, 2011. A tomato fruit rot caused by Trichothecium roseum in Brazil. Plant Disease. 95 (10), 1318. http://apsjournals.apsnet.org/loi/pdis DOI:10.1094/PDIS-06-11-0464

Kita W, Pusz W, 2010. Fungi from seeds of velvetleaf (Abutilon theophrasti Medik.). (Grzyby zasiedlające nasiona zaślazu pospolitego (Abutilon theophrasti Medik.).). Progress in Plant Protection. 50 (2), 656-659. http://www.progress.plantprotection.pl/pliki/2010/PPP_50_2_27_Kita_W.pdf

Lin S H, Wang J H, Wu A B, 2016. A post-harvest pink rot of pepper caused by Trichothecium roseum in China. Plant Disease. 100 (11), 2164. http://apsjournals.apsnet.org/loi/pdis

Liu Y J, Zhou L J, Chen L S, Zhou H B, Xu S W, Zhao H, 2016. Trichothecium roseum causes fruit rot of Polygonatum cyrtonema in China. Plant Disease. 100 (8), 1780. http://apsjournals.apsnet.org/loi/pdis DOI:10.1094/PDIS-12-15-1433-PDN

Nadia Ashraf, Bhat M Y, Wani A H, Koka J A, Shazia Parveen, 2016. Diversity of foliicolous fungi on peach (Prunus persica) from Kashmir Valley of India. Indian Phytopathology. 69 (3), 294-297. http://epubs.icar.org.in/ejournal/index.php/IPPJ/article/view/60160/24994

Razia Sultana, Shamim Shamsi, 2010. Association of fungi with symptomatic plant parts of chickpea (Cicer arietinum L.) from Bangladesh. Bangladesh Journal of Plant Pathology. 26 (1/2), 69-75.

Terabe N I, Martins C M, Homechin M, 2008. Microorganisms associated with fruits of different cultivars of Pecan nut. (Microrganismos associados a frutos de diferentes cultivares de noz Pecan.). Ciência e Agrotecnologia. 32 (2), 659-662. http://www.scielo.br/pdf/cagro/v32n2/49.pdf DOI:10.1590/S1413-70542008000200049

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