Laurel wilt

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title: "Laurel wilt" type: doc version: 1 created: 2026-02-28 author: "Wikipedia contributors" status: active scope: public tags: ["fungal-tree-pathogens-and-diseases", "ophiostomatales"] description: "Plant disease" topic_path: "general/fungal-tree-pathogens-and-diseases" source: "https://en.wikipedia.org/wiki/Laurel_wilt" license: "CC BY-SA 4.0" wikipedia_page_id: 0 wikipedia_revision_id: 0

::summary Plant disease ::

::data[format=table title="Infobox plant disease"]

Field	Value
name	Laurel Wilt
image	Raffaelea lauricola (Laurel Wilt).jpg
image_caption	Infected Persea palustris
common_names	laurel wilt disease
causal_agents	Harringtonia lauricola
hosts	laurel family
vectors	Xyleborus glabratus
EPPO_codes	RAFFLA
::

| name = Laurel Wilt | image = Raffaelea lauricola (Laurel Wilt).jpg | image_caption = Infected Persea palustris | common_names = laurel wilt disease | causal_agents = Harringtonia lauricola | hosts = laurel family | vectors = Xyleborus glabratus | EPPO_codes = RAFFLA | distribution = | treatment =

Laurel wilt, also called laurel wilt disease, is a vascular disease that is caused by the fungus Harringtonia lauricola (previously known as Raffaelea lauricola), which is transmitted by the invasive redbay ambrosia beetle, Xyleborus glabratus. The disease affects and kills members of the laurel family. The avocado is perhaps the most commercially valuable plant affected by laurel wilt.

Symptoms

Symptoms of laurel wilt include wilted stems and leaves and dark streaking in the wood. Laurel wilt can spread in at least two ways: one is via the beetle's natural reproduction and migration. A second way is through the sale and transport of beetle-infested wood, a result of redbay's use as firewood and for outdoor grilling.

Life cycle

• Harringtonia lauricola* lives symbiotic with the beetleXyleborus glabratus. It reproduces clonally and is vertically transmitted originally evolving from a sexual population of mutualists. This combination of traits and ancestral traits is common, however Dreaden et al. 2019 finds H. lauricola to be one of only a few known cases in which the current, vertically transmitted clonal symbiote retains sexuality. Almost all others have dispensed with it and reproduce asexual or functionally so

History

Laurel wilt has been found in South Carolina, North Carolina, Mississippi, Alabama, and Georgia. In 2025, it was confirmed in New York. But its appearance is most notable in Florida, where it has reached as far south as Miami-Dade County and as far west as Bay County. The redbay ambrosia beetle was detected in Savannah, Georgia's Port Wentworth area in spring 2002; however, it is likely to have been established in the area prior to 2002 when the three adult specimens were trapped at the port. The beetle likely entered the country in solid wood packing material with cargo that was imported at Port Wentworth. Redbay trees began dying in Georgia and South Carolina near the Savannah area in 2003. By early 2005, officials with the Georgia Forestry Commission (GFC), South Carolina Forestry Commission (SCFC), and USDA Forest Service began to suspect the newly discovered ambrosia beetle was associated with this mortality.

Consequences

The redbay (Persea borbonia), a tree particularly abundant in maritime forests of Georgia, South Carolina and Florida, has been the primary species affected by the wilt. Sassafras, a less common tree in the coastal plains of the Southeast but with a more extensive range than redbay, has also been affected by the disease but to a lesser extent than redbay. The wilt fungus has also been isolated from dead and dying pondspice (Litsea aestivalis) and pondberry (Lindera melissifolia), however the redbay ambrosia beetle has not been found in either of these species. Pondberry is a federally endangered species while pondspice is regarded as a threatened or endangered species in some southeastern states.

Florida avocado industry

In 2010, the state's avocado crop earned about $65 million wholesale each year, with commercial avocados growing on 7500 acre mostly in Miami-Dade County. Avocado represented the second-largest fruit crop in Florida, after citrus.

In 2007, an avocado tree near Jacksonville, FL was found showing symptoms of laurel wilt, and the laurel wilt fungus was confirmed to be present in the tree. Field and laboratory observations have since confirmed that the redbay ambrosia beetle will infest avocado trees, although there may be some variation in how susceptible different avocado cultivars are to the laurel wilt fungus.

In 2011, laurel wilt-infected trees were detected in Miami-Dade County, near areas of commercial avocado groves.

Fungicidal efforts

In a September 2008 study, a possible fungicide was tested. The abstract of the study reads as follows:

::quote In this study, the systemic fungicide propiconazole completely inhibited mycelial growth of Raffaelea spp. in vitro at concentrations 0.1 parts per million (ppm) or greater and was fungitoxic at 1 ppm or greater, whereas the fungicide thiabendazole was less inhibitory. None of the ten mature redbay trees that received root-flare injections of propiconazole developed crown wilt symptoms for at least 30 weeks after being inoculated with Raffaelea spp., whereas nine of ten untreated control trees wilted in more than one-third of their crowns. Propiconazole was retained in the stem xylem for at least 7.5 months after injection but was more frequently detected in samples from trees injected 4.5 months earlier and was not well detected in small-diameter branches. Results suggest that propiconazole may be useful in preventing laurel wilt in redbay, but limitations and questions regarding duration of efficacy, rate of uptake, and efficacy under different levels of disease pressure remain. ::

In 2011, the EPA granted a Section 18 Emergency Exemption allowing the use of Tilt (a formulation of propiconazole) on commercial avocado trees to prevent laurel wilt disease. However, questions remain about the efficacy and cost-effectiveness of this treatment in commercial groves

Resistance in redbay trees

Some redbay trees may be resistant to the disease, and future research will investigate factors associated with resistance, in the hope that tolerant varieties can be identified and developed.

References

References

1. (2025). "EPPO Datasheet: Harringtonia lauricola". EPPO Bulletin.
2. Harrington, TC; Fraedrich, SW; and Aghayeva, DN. 2008, ''Raffaelea lauricola'', a new ambrosia beetle symbiont and pathogen on the ''Lauraceae''. Mycotaxon. 104: 399 - 404.
3. "Redbay Ambrosia Beetle-Laurel Wilt Pathogen: A Potential Major Problem for the Florida Avocado Industry".
4. (January 2015). "Recovery Plan for Laurel Wilt on Redbay and Other Forest Species Caused by Raffaelea lauricola and disseminated by Xyleborus glabratus".
5. (2020-01-07). "Ecology and Evolution of Insect–Fungus Mutualisms". [[Annual Reviews (publisher).
6. "Map - Current known distribution of Laurel Wilt in North Carolina".
7. "NYSDEC DEC and partners confirm Laurel Wilt invasive plant disease on Long Island".
8. [http://www.fs.fed.us/r8/foresthealth/laurelwilt/dist_map.shtml USDA Forest Service, Forest Health Protection, Southern Unit: Laurel Wilt Distribution Map] {{webarchive. link. (2011-10-23)
9. "Georgia Forestry Commission, Laurel WIlt Disease Associated With Redbay Ambrosia Beetle".
10. USAD Forest Service, "Plant Susceptibility." Laurel Wilt. July 2008. http://www.fs.fed.us/r8/foresthealth/laurelwilt/plant_susceptibility.shtml June 2009.
11. [http://horttech.ashspublications.org/content/20/1/234.abstract Evans, E.A. J. Crane, A. Hodges, and J. Osborne 2010. Potential Economic Impact of Laurel Wilt Disease on the Florida Avocado Industry. Hort Technology 20: 234-238]
12. [http://apsjournals.apsnet.org/doi/abs/10.1094/PDIS-92-6-0976A Mayfield, A.E. III, J.A. Smith, M. Hughes, and T.J. Dreaden. 2008. First report of laurel wilt disease caused by a Raffaelea lauricola on avocado in Florida. Plant Disease 92(6): 976-976.]
13. [http://www.bioone.org/doi/abs/10.1653/0015-4040(2008)91%5B485:AOTRAB%5D2.0.CO;2 A. E. Mayfield IIIa, J. E. Peñab, J. H. Craneb, J. A. Smithc, C. L. Branchd, E. D. Ottosond, and M. Hughes. 2008. Ability of the Redbay Ambrosia Beetle (Coleoptera: Curculionidae: Scolytinae) to Bore into Young Avocado (Lauraceae) Plants and Transmit the Laurel Wilt Pathogen (Raffaelea sp). Florida Entomologist 91(3):485-487.]
14. Avocado groves in the area are being closely monitored for the presence of the redbay ambrosia beetle and incidence of laurel wilt disease [http://www.freshfromflorida.com/press/2011/02252011.html Florida Department of Agriculture and Consumer Services Press Release 2/25/11: Laurel Wilt Disease Identified In Miami-Dade County] {{webarchive. link. (2012-09-11)
15. Albert E. Mayfield III; Edward L. Barnard; Jason A. Smith; Shawn C. Bernick; Jeffrey M. Eickwort; and Tyler J. Dreaden. Scientific Journal of the International Society of Arboiculture. "Effect of Propiconazole on Laurel Wilt Disease Development in Redbay Trees and on the Pathogen In Vitro." September, 2008. http://www.fs.fed.us/r8/foresthealth/laurelwilt/resources/pubs/laurel_wilt_isa_auf_article.pdf June, 2009.
16. [http://www.pbcgov.com/coextension/mastergardener/pdf/redbayupdate.pdf Crane, JH. 2011. UPDATE: Redbay Ambrosia Beetle - Laurel Wilt of Avocado]{{dead link. (December 2017)

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