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Associations

provided by BioImages, the virtual fieldguide, UK
Foodplant / pathogen
colony of Erwinia carotovora infects and damages Brassica
Other: major host/prey

Foodplant / pathogen
colony of Erwinia carotovora infects and damages root of Brassica rapa
Other: major host/prey

Foodplant / pathogen
colony of Erwinia carotovora infects and damages leaf (petiole) of Apium graveolens var. dulce

Foodplant / pathogen
colony of Erwinia carotovora infects and damages soft, wet, rotten stem (near base) of Cucumis sativus

Foodplant / pathogen
colony of Erwinia carotovora infects and damages bulb of Allium porrum

Foodplant / pathogen
colony of Erwinia carotovora infects and damages Lactuca sativa

Foodplant / pathogen
colony of Erwinia carotovora infects and damages bulb of Allium cepa

Foodplant / pathogen
colony of Erwinia carotovora infects and damages root of Pastinaca sativa ssp. sativa var. hortensis

Foodplant / pathogen
colony of Erwinia carotovora infects and damages tuber of Solanum tuberosum

Foodplant / pathogen
colony of Erwinia carotovora infects and damages stem of Lycopersicon esculentum

Foodplant / pathogen
colony of Erwinia carotovora infects and damages corm of Cyclamen

Foodplant / pathogen
colony of Erwinia carotovora infects and damages bulb of Hyacinthus orientalis

Foodplant / pathogen
colony of Erwinia carotovora infects and damages corm of Iris

Foodplant / pathogen
colony of Erwinia carotovora infects and damages bulb of Muscari

Foodplant / pathogen
colony of Erwinia carotovora infects and damages tuber of Zantedeschia aethiopica

Foodplant / pathogen
colony of Erwinia carotovora infects and damages root of Brassica napus ssp rapifera
Other: major host/prey

Foodplant / pathogen
colony of Erwinia carotovora infects and damages fruit of Cucurbita

Foodplant / pathogen
colony of Erwinia carotovora infects and damages stem of mature of Cactaceae

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Pectobacterium carotovorum

provided by wikipedia EN

Soft rot in an onion caused by P. carotovorum or Dickeya dadantii

Pectobacterium carotovorum is a bacterium of the family Pectobacteriaceae; it used to be a member of the genus Erwinia.[1]

The species is a plant pathogen with a diverse host range, including many agriculturally and scientifically important plant species. It produces pectolytic enzymes that hydrolyze pectin between individual plant cells. This causes the cells to separate, a disease plant pathologists term bacterial soft rot. Specifically, it causes beet vascular necrosis and blackleg of potato and other vegetables (hence the name carotovora – "carrot-eater"), as well as slime flux on many different tree species.[2] Currently, there are four described subspecies of P. carotovorum (carotovorum, brasiliense, odoriferum, and actinidiae).[3]

This bacterium is a ubiquitous plant pathogen with a wide host range (carrot, potato, tomato, leafy greens, squash and other cucurbits, onion, green peppers, African violets, etc.), able to cause disease in almost any plant tissue it invades. It is a very economically important pathogen in terms of post-harvest losses, and a common cause of decay in stored fruits and vegetables. Decay caused by P. carotovora is often referred to as "bacterial soft rot" though this may also be caused by other bacteria. Most plants or plant parts can resist invasion by the bacteria, unless some type of wound is present. High humidity and temperatures around 30 °C (86 °F) favor development of decay. The cells become highly motile near this temperature (26 °C (79 °F)) when fructose is present.[4] Mutants can be produced which are less virulent. Virulence factors include: pectinases, cellulases, (which degrade plant cell walls), and also proteases, lipases, xylanases, and nucleases (along with the normal virulence factors for pathogens – Fe acquisition, lipopolysaccharide (LPS) integrity, multiple global regulatory systems).

Management

KENGAP, partners of the CABI-led programme, Plantwise have several recommendations for the management of P. carotovora including; washing hands and disinfecting tools regularly during and after harvesting, avoiding harvesting in warm and moist conditions. They also recommend frequent irrigation during head formation should be avoided to allow heads to dry and planting on ridges, raised beds or well drained soils prevents water logging around the plants.[5]

Plantwise partners also recommend thorough washing and disinfection of crates for to prevent post-harvest losses and that crop rotation with leguminous crops and cereals is practiced.[5][6]

Gas sensors can be used to detect the pathogen in storage.[7] Specifically metal-oxide-semiconductor-, electrochemical-, photoionization-, and nondispersive infrared- sensors are known to be useful.[7] These are all tested, found to be usable, and calibrations provided in Rutolo et al. 2018.[7]

Sources

Definition of Free Cultural Works logo notext.svg This article incorporates text from a free content work. Licensed under CC-BY-SA (license statement/permission). Text taken from Plantwise Factsheets for Farmers: Bacterial Soft Rot on Brassica, KENGAP Horticulture, Centre for Agriculture and Bioscience International (CABI) + Plantwise.

Definition of Free Cultural Works logo notext.svg This article incorporates text from a free content work. Licensed under CC-BY-SA (license statement/permission). Text taken from PMDG: Bacterial soft rot on cabbage​, Jonathan M. Gekone (MOALF), Stephen Koech (KALRO) and Miriam Otipa (KALRO), Centre for Agriculture and Bioscience International (CABI) + Plantwise.

References

  1. ^ Toth, Ian; Bell, Kenneth; Holeva, Maria; Birch, Paul (2003). "Soft rot erwiniae: from genes to genomes". Pathogen profile. Molecular Plant Pathology. Blackwell Publishing Ltd. 4 (1): 17–30. doi:10.1046/j.1364-3703.2003.00149.x. ISSN 1364-3703. PMID 20569359. S2CID 37973919. British Society for Plant Pathology (BSPP).
  2. ^ Toth, Ian K.; Bell, Kenneth S.; Holeva, Maria C.; Birch, Paul R. J. (1 January 2003). "Soft rot erwiniae: from genes to genomes". Molecular Plant Pathology. 4 (1): 17–30. doi:10.1046/j.1364-3703.2003.00149.x. PMID 20569359.
  3. ^ This review... Zeng, Yuan; Charkowski, Amy (2021). "The Role of ATP-Binding Cassette Transporters in Bacterial Phytopathogenesis". Phytopathology. American Phytopathological Society (APS). 111 (4): 600–610. doi:10.1094/phyto-06-20-0212-rvw. ISSN 0031-949X. ...cite this study: Li, Lei; Yuan, Lifang; Shi, Yanxia; Xie, Xuewen; Chai, Ali; Wang, Qi; Li, Baoju (2019). "Comparative genomic analysis of Pectobacterium carotovorum subsp. brasiliense SX309 provides novel insights into its genetic and phenotypic features". BMC Genomics. BMC. 20 (1): 486. doi:10.1186/s12864-019-5831-x. ISSN 1471-2164. PMC 6567464. PMID 31195968. S2CID 255817156. S2CID 189763708.
  4. ^ Aizawa, Shin-Ichi (2014). "Pectobacterium carotovorum — Subpolar Hyper-Flagellation". The Flagellar World. Elsevier. pp. 58–59. doi:10.1016/b978-0-12-417234-0.00018-9. ISBN 9780124172340.
  5. ^ a b "Bacterial Soft Rot on Brassica". Plantwise Knowledge Bank. Retrieved 2020-06-10.
  6. ^ "Bacterial soft rot on cabbage". Plantwise Knowledge Bank. Retrieved 2020-06-10.
  7. ^ a b c
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Wikipedia authors and editors
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visit source
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Pectobacterium carotovorum: Brief Summary

provided by wikipedia EN
Soft rot in an onion caused by P. carotovorum or Dickeya dadantii

Pectobacterium carotovorum is a bacterium of the family Pectobacteriaceae; it used to be a member of the genus Erwinia.

The species is a plant pathogen with a diverse host range, including many agriculturally and scientifically important plant species. It produces pectolytic enzymes that hydrolyze pectin between individual plant cells. This causes the cells to separate, a disease plant pathologists term bacterial soft rot. Specifically, it causes beet vascular necrosis and blackleg of potato and other vegetables (hence the name carotovora – "carrot-eater"), as well as slime flux on many different tree species. Currently, there are four described subspecies of P. carotovorum (carotovorum, brasiliense, odoriferum, and actinidiae).

This bacterium is a ubiquitous plant pathogen with a wide host range (carrot, potato, tomato, leafy greens, squash and other cucurbits, onion, green peppers, African violets, etc.), able to cause disease in almost any plant tissue it invades. It is a very economically important pathogen in terms of post-harvest losses, and a common cause of decay in stored fruits and vegetables. Decay caused by P. carotovora is often referred to as "bacterial soft rot" though this may also be caused by other bacteria. Most plants or plant parts can resist invasion by the bacteria, unless some type of wound is present. High humidity and temperatures around 30 °C (86 °F) favor development of decay. The cells become highly motile near this temperature (26 °C (79 °F)) when fructose is present. Mutants can be produced which are less virulent. Virulence factors include: pectinases, cellulases, (which degrade plant cell walls), and also proteases, lipases, xylanases, and nucleases (along with the normal virulence factors for pathogens – Fe acquisition, lipopolysaccharide (LPS) integrity, multiple global regulatory systems).

license
cc-by-sa-3.0
copyright
Wikipedia authors and editors
original
visit source
partner site
wikipedia EN