Tag Archives: Plum

Brown Rot

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UW Plant Disease Facts

 

Authors:   Ashley Ellinghuysen*, UW-Madison Plant Pathology
Last Revised:   02/28/2024
D-number:   D0024

What is brown rot? 

Brown rot is a destructive fungal disease of trees and shrubs in the genus Prunus, which includes peaches, plum, cherries, apricots and nectarines.  Brown rot is particularly a problem on the fruits of susceptible plants, with the potential to cause losses of 50% or more prior to harvest.  After harvest, additional losses due to the disease are possible if fruits are injured, bruised or stored at warm temperatures with moisture.

The presence of powdery gray masses on the surface of rotting fruit is characteristic of brown rot. (Photo courtesy of Wayne Griffiths)
The presence of powdery gray masses on the surface of rotting fruit is characteristic of brown rot. (Photo courtesy of Wayne Griffiths)

What does brown rot look like? 

Initial symptoms of brown rot often occur in the spring as brown spots on blossoms.  Affected blossoms eventually collapse completely, and can produce a gummy material that sticks to twigs leading to infections and subsequent twig dieback.  Fruits that develop from healthy flowers can become infected as they mature leading to a brown fruit rot that quickly encompasses an entire fruit.  Eventually, affected fruits will dry and shrivel to form “mummies”.  Characteristic powdery, gray masses of spores form on the surfaces of both rotting fruits and mummies.

Where does brown rot come from? 

Brown rot is caused by two fungi in the genus Monilinia (primarily M. fructicola and less commonly M. laxa).  These fungi may be introduced into a garden via airborne spores produced on nearby wild or volunteer Prunus trees and shrubs.  Insects such as sap beetles, vinegar flies and honeybees can also transport spores.  These insects are attracted to brown rotted fruit and can subsequently visit and drop off spores on otherwise healthy fruit.  Wounds due to insect feeding or hail can provide an entry point into fruits for brown rot fungi.  Further spread can occur when infected and healthy fruits touch.  Once introduced into a garden, brown rot fungi can overwinter on infected twigs and in mummified fruits that are hanging from trees or have fallen to the ground.  Initial infections each spring are typically due to spores that are blown or splashed from twigs or from the gray masses on mummified fruits.  More rarely, mummified fruits that are partially or shallowly buried in the ground will produce small (up to 1/16 inch diameter) mushroom-like structures called apothecia.  Apothecia produce a second type of spore that can cause infections.  Brown rot can occur under a wide range of temperatures (40 to 86°F), but tends to be more of a problem when the weather is warm (i.e., 68 to 77°F) and wet (i.e., with three or more hours of rain or dew formation).

How do I save a tree with brown rot? 

Brown rot is not a lethal disease, but once fruits are infected, there are no curative treatments.  To manage twig infections, prune four to six inches below sunken or dead tissue on each branch.  Dispose of these branches by burning (where allowed by local ordinance) or burying them.  To prevent spread of brown rot fungi on pruning tools, decontaminate tools between each cut by treating them for at least 30 seconds in a 10% bleach solution or preferably (due to its less corrosive properties) 70% alcohol.  Rubbing alcohol and many spray disinfectants contain approximately 70% alcohol and are easy to use.  If you use bleach, be sure to thoroughly rinse and oil tools after pruning to prevent rusting.

Fruits with brown rot eventually shrivel and dry forming a structure called a mummy. (Photo courtesy of Wayne Griffiths)
Fruits with brown rot eventually shrivel and dry forming a structure called a mummy. (Photo courtesy of Wayne Griffiths)

How do I avoid problems with brown rot in the future?  

Remove and destroy any wild or volunteer Prunus trees and shrubs on your property, as well as all rotting and mummified Prunus fruits, as these can be reservoirs for brown rot fungi.  Burn (where allowed by local ordinance) or deep bury these materials.  Thin your Prunus trees to increase air flow and promote more rapid drying of twigs and fruits.  For information on how and when to prune, see UW Bulletin A3629, Growing Apricots, Cherries, Peaches, and Plums in Wisconsin (available at https://learningstore.extension.wisc.edu/).  Be sure to decontaminate cutting tools after tree/shrub removal and pruning as described above.  Carefully handle fruits during harvest to minimize bruising, and store fruits in a cool, not overly wet environment.

If brown rot has been a chronic problem in your garden and the cultural methods discussed above have not proven successful for control, consider using fungicides.  Select products that are labeled for use on apricots, cherries, peaches and/or plums and that contain captan, myclobutanil or propiconazole.  To prevent blossom infections, make one application when approximately 10% of flowers are open.  To prevent fruit infections, begin making applications three weeks before anticipated harvest, particularly if there is wet weather.  When applying more than one application, DO NOT use myclobutanil and/or propiconazole for all treatments, as these active ingredients have similar modes of action; excessive use of these active ingredients can select for fungicide-resistant strains of brown rot fungi.  Instead, alternate use of these active ingredients with use of captan or only use captan (which is not known to have problems with resistance development) for control.  Also consider insecticide treatments to manage insects that can damage fruits and provide entry points for brown rot fungi.  See UW Bulletin A4104, Midwest Fruit Pest Management Guide (available at https://learningstore.extension.wisc.edu/), for suggested insecticides and timings of applications.  Be sure to read and follow all label instructions of any fungicides and insecticides that you select to ensure that you use these products in the safest and most effective manner possible.  Be especially careful not to apply any pesticides closer to harvest than is allowed on the label.

For more information on brown rot: 

Contact the University of Wisconsin Plant Disease Diagnostics Clinic (PDDC) at (608) 262-2863 or pddc@wisc.edu.


This Fact Sheet is also available in PDF format:

*Completed as partial fulfillment of the requirements for Plant Pathology 558 at the University of Wisconsin Madison.

© 2013-2024 the Board of Regents of the University of Wisconsin System doing business as University of Wisconsin-Madison Division of Extension.

An EEO/Affirmative Action employer, University of Wisconsin-Madison Division of Extension provides equal opportunities in employment and programming, including Title IX and ADA requirements. This document can be provided in an alternative format by calling Brian Hudelson at (608) 262-2863 (711 for Wisconsin Relay).

References to pesticide products in this publication are for your convenience and are not an endorsement or criticism of one product over similar products. You are responsible for using pesticides according to the manufacturer’s current label directions. Follow directions exactly to protect the environment and people from pesticide exposure. Failure to do so violates the law.

Thanks to Nolan Bornowski , Rebecca Ellinghuysen , Patty McManus , Patti Nagai, Scott Reuss and Brittany Seidl for reviewing this document.

A complete inventory of UW Plant Disease Facts is available at the University of Wisconsin-Madison Plant Disease Diagnostics Clinic website: https://pddc.wisc.edu.

Submit additional lawn, landscape, and gardening questions at https://hort.extension.wisc.edu/ask-a-gardening-question/.

Bacterial Canker

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UW Plant Disease Facts

 

Authors:   Mary Francis Heimann* and Brian Hudelson, UW-Madison Plant Pathology
Last Revised:   02/28/2024
D-number:   D0009

What is bacterial canker? 

Bacterial canker is a common and sometimes lethal disease of trees in the genus Prunus including cherry, plum and peach.  Bacterial canker is sometimes also referred to as “gummosis”, “blossom blast”, “dieback”, “spur blight” and “twig blight”.

Ooze (see arrow) on Prunus branches or trunks can indicate a bacterial canker problem.
Ooze (see arrow) on Prunus branches or trunks can indicate a bacterial canker problem.

What does bacterial canker look like? 

Often branch dieback is the first symptom of bacterial canker that homeowners notice.  However, other more subtle symptoms of flowers, leaves, fruits and branches typically precede this dieback.  Initially, infected trees are symptomless.  Infected flowers often open but then collapse.  Infected leaves become spotted and yellowed.  The centers of leaf spots often shothole (i.e., fall out).  If spotting is severe, leaves may fall off.  Infected fruits develop dead spots surrounded by water-soaked tissue.  Spots can eventually develop into a fruit rot.  Branch or trunk infections often occur at pruning sites and lead to cankers (i.e., sunken, dead areas).  Cankers often produce a gummy, resinous ooze.  Wood in the cankered area is typically discolored.  Flower, fruit and branch infections can become systemic, leading to twig dieback, death of larger branches, or even death of an entire tree.

Where does bacterial canker come from? 

Bacterial canker is caused by the bacteria Pseudomonas syringae pv. syringae (Pss) and P. syringae pv. mors-prunorum (Psm).  These bacteria overwinter in cankers, in asymptomatic, systemically infected branches, and in buds of susceptible trees.  Pss is also known to occur naturally on the leaves of many plants including many weed species.  Both Pss and Psm can subsequently be spread by rain splash, wind, or insects.  The bacteria can also be spread to healthy branches when contaminated pruning tools are used.  Infections most often occur during cool, wet conditions.

How do I save a plant with bacterial canker? 

Prune infected branches at least 12 inches below cankers or other dead tissue, and dispose of branches by burning (where allowed by local ordinance) or burying them.  Prune branches only during the winter (e.g., Jan. and Feb.) or during dry periods in late summer (e.g., Aug.).  DO NOT prune during the cool, wet periods (e.g., spring and fall).  Disinfest pruning tools after each cut by treating them for at least 30 seconds with a 10% bleach solution or preferably 70% alcohol (e.g., rubbing alcohol straight from the bottle or a spray disinfectant).  If you decide to use bleach, be sure to thoroughly rinse and oil your tools after pruning is complete to prevent rusting.

How do I avoid problems with bacterial canker in the future? 

Healthy trees are better able to slow the development of bacterial canker.  Therefore make sure that trees are watered and fertilized properly.  Keep weeds and other plants that may harbor bacterial canker pathogens from around the base of susceptible trees.  Copper-containing sprays have been advocated for bacterial canker management.  However, in many areas, copper-resistant strains of Pss and Psm are present and therefore copper sprays are ineffective.

For more information on bacterial canker: 

Contact the University of Wisconsin Plant Disease Diagnostics Clinic (PDDC) at (608) 262-2863 or pddc@wisc.edu.


This Fact Sheet is also available in PDF format:

*Mary Francis Heimann is a Distinguished Outreach Specialist Emerita at the University of Wisconsin-Madison.

© 2004-2024 the Board of Regents of the University of Wisconsin System doing business as University of Wisconsin-Madison Division of Extension.

An EEO/Affirmative Action employer, University of Wisconsin-Madison Division of Extension provides equal opportunities in employment and programming, including Title IX and ADA requirements. This document can be provided in an alternative format by calling Brian Hudelson at (608) 262-2863 (711 for Wisconsin Relay).

References to pesticide products in this publication are for your convenience and are not an endorsement or criticism of one product over similar products. You are responsible for using pesticides according to the manufacturer’s current label directions. Follow directions exactly to protect the environment and people from pesticide exposure. Failure to do so violates the law.

Thanks to Diana Alfuth, Patty McManus and Ann Wied for reviewing this document.

A complete inventory of UW Plant Disease Facts is available at the University of Wisconsin-Madison Plant Disease Diagnostics Clinic website: https://pddc.wisc.edu.

Submit additional lawn, landscape, and gardening questions at https://hort.extension.wisc.edu/ask-a-gardening-question/.

Bacterial Blight

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UW Plant Disease Facts
 
Authors:   Gina Foreman* and Brian Hudelson, UW-Madison Plant Pathology
Last Revised:   02/28/2024
D-number:   D0008
 
Death of lilac branch tips and leaves due to bacterial blight.
Death of lilac branch tips and leaves due to bacterial blight.

What is bacterial blight? 

Bacterial blight, also known as blossom blight or shoot blight, is a common and often serious disease of Chinese, Japanese, Persian and common lilac, as well as walnut, apple, pear, plum and cherry.  White flowering varieties of common lilac are most susceptible to the disease.

What does bacterial blight look like? 

Initial symptoms of bacterial blight may include dark brown necrotic (dead) leaf spots with yellow halos.  If leaf spots develop before leaves are fully expanded, leaf curling and twisting may result.  More advanced symptoms include necrotic blotches starting at the leaf margins and advancing inward, as well as black streaking on twigs.  In its most severe form, bacterial blight can result in the death of branch tips, leaves and blossoms.

Where does bacterial blight come from? 

Bacterial blight is caused by the bacterium Pseudomonas syringae pv. syringae (Pss), which survives in diseased stem tissue (cankers), plant debris, and soil.  Pss can be spread by insects and on pruning tools but is more commonly spread by wind and rain.  Often Pss is found on the surface of healthy plants and does not cause disease.  Infections can occur when the bacterium enters tissue through natural openings or through wounds caused by insects, pruning, wind damage or hail.

How do I save a plant with bacterial blight? 

Prune diseased twigs 10 to 12 inches below the point of visible symptoms, and dispose of the branches by burning (where allowed by local ordinance) or burying them.  Always prune in dry weather, and disinfest pruning tools after each cut by treating them for at least 30 seconds with a 10% bleach solution or preferably 70% alcohol (e.g., rubbing alcohol straight from the bottle or a spray disinfectant).  If you decide to use bleach, be sure to thoroughly rinse and oil your tools after pruning is complete to prevent rusting.

How do I avoid problems with bacterial blight in the future?  

When planting lilacs, provide adequate spacing between shrubs.  Thin individual shrubs each winter to promote good air circulation (see University of Wisconsin Garden Facts XHT1015, Pruning Deciduous Shrubs, for pruning tips).  Properly water, fertilize and mulch shrubs to avoid stress that may predispose them to disease.  Avoid overhead watering that may keep leaves wet.  If you have had chronic problems with bacterial blight, you may want to use a combination of copper and mancozeb-containing fungicides for control.  Apply fungicides two to three times at seven to 10 day intervals as leaves emerge, but before symptoms develop.  Read and follow all label instructions of the fungicide that you select to ensure that you use the fungicide in the safest and most effective manner possible.

For more information on bacterial blight: 

Contact the University of Wisconsin Plant Disease Diagnostics Clinic (PDDC) at (608) 262-2863 or pddc@wisc.edu.


This Fact Sheet is also available in PDF format:

*Completed as partial fulfillment of the requirements for Plant Pathology 875 – Plant Disease Diagnostics Clinic Internship at the University of Wisconsin Madison.

© 2002-2024 the Board of Regents of the University of Wisconsin System doing business as University of Wisconsin-Madison Division of Extension.

An EEO/Affirmative Action employer, University of Wisconsin-Madison Division of Extension provides equal opportunities in employment and programming, including Title IX and ADA requirements. This document can be provided in an alternative format by calling Brian Hudelson at (608) 262-2863 (711 for Wisconsin Relay).

References to pesticide products in this publication are for your convenience and are not an endorsement or criticism of one product over similar products. You are responsible for using pesticides according to the manufacturer’s current label directions. Follow directions exactly to protect the environment and people from pesticide exposure. Failure to do so violates the law.

Thanks to Ann Joy, Kristin Kleeberger and Mike Maddox for reviewing this document.

A complete inventory of UW Plant Disease Facts is available at the University of Wisconsin-Madison Plant Disease Diagnostics Clinic website: https://pddc.wisc.edu.

Submit additional lawn, landscape, and gardening questions at https://hort.extension.wisc.edu/ask-a-gardening-question/.