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transcript
Ralstonia solanacearum Race 3 biovar 2
Background photo: USDA APHIS PPQ Archiveshttp://www.ipmimages.org
Ralstonia solanacearum Race 3 biovar 2
• Introduction
• Hosts
• Symptoms
• Transmission
• Detection
• ControlPhoto Jean L. Williams-Woodward, University of Georgia, www.forestryimages.org
Introduction
• Ralstonia solanacearum Race 3 biovar 2 is a bacterium that causes the following diseases: – Southern Wilt of Geranium – Brown Rot and Bacterial Wilt of Potato– Bacterial Wilt of Tomato and Other
Solanaceous Crops• This pathogen is designated as a member of
the Agricultural Bioterrorism Select Agent List.
Other Ralstonia solanacearum Races and Biovars
Race Host Range Geographic Distribution
Biovar
1 Wide Asia, Australia, Americas
3,4
1
2 Banana
Other Musa spp.
Caribbean,Brazil
Philippines
1
3 Potato, some
other
Solanaceae,
Geranium;
Worldwide except US and Canada
2
4 Ginger Asia 3,4
5 Mulberry China 5(Daughtrey, 2003 Reprinted, with slight modification, from Denny and Hayward, 2001)
Global Distribution
• World wide losses from bacterial wilt on potato crops are more than $950 million per year (Allen 2003).
• Outbreaks of R. solanacearum Race 3 biovar 2 have occurred throughout Europe in recent years.
• These outbreaks are thought to be the result of imports of infected plant material from locations where the disease is already established (Janse 1996).
Photo H.D. Thurston, Cornell University, http://www.tropag-fieldtrip.cornell.edu/docthurston/Thumbs%20-%20Brown%20Rot/Brown%20Rot.html
History in United States
(Year)Race 3 commonly found throughout the world except for United States and Canada
Introduction of Rs R3b2 on geranium cuttings
1999
Introduction of Rs R3b2 on geranium cuttings
2000
No Reported Cases2001
No Reported Cases2002
Detection on cuttings from Kenya, 127 greenhouses in 27 states
2003
Detection on cuttings from Guatemala, no additional sites found
Testing but no positives - Yet2005 - 2006
Photo Peggy Greb, USDA-ARS
Hosts• Hosts of Ralstonia
solanacearum Race 3 biovar 2 include several solanaceous plants:– Potato– Tomato– Eggplant– woody nightshade
• Geranium (Pelargonium spp.) can also serve as a host.Photo H.D. Thurston, Cornell University, http://www.tropag-
fieldtrip.cornell.edu/docthurston/Thumbs%20-%20Brown%20Rot/Brown%20Rot.html
Symptoms on Geraniums
• Yellowing, wilting and browning of lower leaves
• Vascular discoloration and necrosis of the stem
• Brown discoloration of the roots
Photos Margery Daughtrey, Cornell University, www.pdis.org
Signs on Geraniums
• Bacterial Ooze• Bacterial streaming:
cut stem or petiole placed in water should display cloud generated from bacterial streaming out of plant tissue
Bacterial ooze
Photo Margery Daughtrey, Cornell University, www.pdis.org
Photo David B. Langston, University of Georgia, www.forestryimages.org
Bacterial Streaming
Signs and Symptoms on Potato Plants
Foliage• Stunting• Yellowing • Wilting, initially limited
to top of plantStem• Vascular discoloration• Collapse in young
plants• Bacterial ooze• Bacterial streaming
Photos H. David Thurston, Cornell University, http://www.tropag-fieldtrip.cornell.edu/docthurston/Thumbs%20-%20Brown%20Rot/Brown%20Rot.html
Signs and Symptoms on Potato Tubers
•Bacterial ooze, which in later stages may emerge from eye and heel
•Discoloration of the vascular ring
Photo Plant Protection Service Archives, Netherlands, www.forestryimages.org
Photo Central Science Laboratory, Harpenden Archives, British Crown, United Kingdom, www.forestryimages.org
Bacterial Ooze
Signs and Symptoms on Tomatoes
• Wilting
• Vascular discoloration
• Bacterial ooze
Photos Clemson University - USDA Cooperative Extension Slide Series,
www.forestryimages.org
Vascular DiscolorationVascular
Discoloration
Images are of Ralstonia solanacearum Race 1 not Race 3. Symptoms of Race 3 biovar 2 on tomato can be similar.
Transmission
• Contaminated soil, irrigation water, surface water, equipment and personnel
• Pathogen may enter plants via wounds from handling or nematode feeding Photo Anson Eaglin, USDA-APHIS , www.forestryimages.org
Transmission
Infected plant material – In geraniums: spread
through the use of infected cuttings
– In potatoes: spread through infected potato seed stock
Photo by Peggy Greb, USDA-ARS, http://www.ars.usda.gov/is/graphics/photos/jan03/k10149-1.htm
Detection and Diagnosis
• Isolation on Semi-Selective Medium
– Use of medium selective for R. solanacearum not to Race or biovar
• ELISA– Only specific for
Ralstonia solanacearum not Race and biovar
– Used for initial screening of large quantities of materials
The diagnosis to Race and biovar can be difficult often requiring several diagnostic tests to make a final diagnosis.
Photo Tom Creswell, NCSU , www.forestryimages.org
Culture of R. solanacearum on TZC semi-selective medium
Detection and Diagnosis
• Testing to Determine Race and Biovar– Carbon Utilization
Testing (used to differentiate biovar)
– Real Time PCR (used to differentiate Race)
Real-time PCR used for determination of race of R. solanacearum. (Photo Dawn Dailey-O’brien, Cornell University)
Control: Potato• No chemical control
available • Removal of weed hosts
such as woody nightshade which is thought to act as a reservoir for inoculum
• Altering soil pH over the course of the growing season
• Screening tubers for disease before planting in the field
• Rotation with non-susceptible crops
Photo Joel Floyd, USDA APHIS PPQ, www.forestryimages.org
Woody nightshade can serve as a host for R. solanacearum Race 3 Biovar 2 and a source of inoculum for potato crops
Control: Tomato
• Plant derived chemical: Thymol has been used as a pre-plant soil fumigant with some success (Momol 2006).
• Plant breeding efforts have resulted in some tomato breeds with high resistance but also some undesirable traits like small fruit (Momol 2006). Photo Keith Weller, USDA-ARS,
http://www.ars.usda.gov/is/graphics/photos/dec99/k7353-7.htm
Control: Geranium• No chemical control
available • Control relies on
eradication of infected plants and proper sanitation practices– Limit greenhouse access and
practice good sanitation techniques
– Water monitoring for presence of pathogen
– Clean irrigation system on a regular basis
– Culture index plant material 1-3 years to ensure it is disease free
– Practice weed control programs within and around greenhouses
Photo © Br. Alfred Brousseau, Saint Mary's College,
http://calphotos.berkeley.edu/
USDA-APHIS-PPQ Pest Data Sheet Ralstonia solanacearum Race 3 Biovar 2 Lemay et al. 2003
References• Allen, C. 2003. Bacterial Wilt Disease & Ralstonia solanacearum. Talk from 2003 Ralstonia Solanacearum race 3 biovar 2
Outbreak in Geraniums: A Program Review meeting held June 17 and 18, 2003 in Riverdale, MD.• Daughtrey, M. 2003. New and Re-emerging Diseases in 2003. Department of Plant Pathology, Cornell University, Long
Island Horticultural Research & Extension Center.• Denny, T. P. and Hayward, A.C. 2001. Ralstonia, pages 151-174 in: Schaad, N. W. et al. Laboratory guide for the
identification of plant pathogenic bacteria, 3rd ed. APS Press, St. Paul, 373 pp.• Elphinstone, J. and Harris, R. 2002. Monitoring and control of the potato brown rot bacterium in irrigation water. British
Potato Council report 190. http://www.potato.org.uk/upload/pdf/researchReports/report190.pdf. Accessed 2004 January 8.• Elphinstone, J. January 2004. Personal communication. EC project number: SMT project CT97-2179.• Harris, D. C. 1972. Intra-specific variation in Pseudomonas solanacearum. Pages 289-292 in: Proc. Int. Conf. Plant Pathog.
Bact., 3rd. • Janse, J. 1996. Potato Brown rot in western Europe – history, present occurrence and some remarks on possible origin,
epidemiology and control strategies. Bulletin OEPP/EPPO 26: 679-695.• Kim, S. H., Olson, R. N. and Schaad, N. 2002. Ralstonia solanacearum Biovar 2, Race 3 in geraniums imported from
Guatemala to Pennsylvania in 1999. Plant Disease 92:S42.• Kim, S. H., T. N. Olson, N. W. Schaad, and G. W. Moorman. 2003. Ralstonia solanacearum Race 3, Biovar 2, the Causal
Agent of Brown Rot of Potato, Identified in Geraniums in Pennsylvania, Delaware, and Connecticut. Plant Disease Page 87:4.
• Lemay, A., Redlin, S., Fowler, G., Dirani, M. 2003, February 12. Pest Data Sheet Ralstonia solanacearum race 3 biovar 2. USDA/APHIS/PPQ Center for Plant Health Science and Technology Plant Epidemiology and Risk Analysis Laboratory Raleigh, NC.
• Momol, T. 2006, October 12. Recovery Plan for Ralstonia solanacearum Race 3 biovar 2, Causing Brown Rot of Potato, Bacterial Wilt of Tomato and Southern Wilt of Geranium. National Plant Disease Recovery System. http://www.ars.usda.gov/SP2UserFiles/Place/00000000/opmp/Rs3-2RecoveryPlan-v-Oct112006.pdf. Accessed 2006 October 17.
• O’Hern, C. 2004 January 5. Detection of Ralstonia solanacearum race 3 biovar 2 in New York Greenhouse (document by Richard Dunkle) [Distribution list]. Accessed 2004 January 5. USDA-ARS Plant Health Division. 2002. Potato Brown Rot (RALSTONIA SOLANACEARUM) Report on monitoring and eradication in England 2002. Defra, Plant Health Division. http://www.defra.gov.uk/planth/phnews/monrad02.pdf. Accessed 2004 January 8.
• Williamson, L., Nakoho, K., Hudelson, B. and Allen, C. 2002. Ralstonia solanacearum race 3, biovar 2 strains isolated from geranium are pathogenic on potato. Plant Dis. 86:987-991
Additional Websites
• A list of federal, state, university, international, and organization websites about Ralstonia solanacearum Race 3 biovar 2 can be found at the USDA, National Agricultural Library, National Invasive Species Information Center
http://www.invasivespeciesinfo.gov/microbes/bacterialwilt.shtml
Acknowledgements Editorial Review
• Margery Daughtrey, Cornell University Long Island Horticulture and Extension Center
• Dr. Tim Momol, University of Florida, North Florida Research and Education Center
Authors
• Mary M. McKellar, mem40@cornell.edu Cornell University, NEPDN Training Coordinator
• Karen Snover-Clift, kls13@cornell.edu Cornell University, NEPDN Associate Director
Publication Details
• This publication can be used for non-profit, educational use only purposes. Photographers retain copyright to photographs or other images contained in this publication as cited. This material was developed as a topic-based training module for NPDN First Detector Training. Authors and the website should be properly cited. Images or photographs should also be properly cited and credited to the original source.
• Publication Number: 020• Publication Date: April 19, 2007