HomeMy WebLinkAbout2012 03 12 Informational 102 Providing information regarding Laurel Wilt Disease on local treesCOMMISSION AGENDA
ITEM 102
March 12, 2012
Regular Meeting
Informational X
Consent
Public Hearings
Regular
KS
City Manager
SR
Department
REQUEST:
The Community Development Department, Arbor Division, is providing information
to the City Commission on the laurel wilt disease affecting local trees.
SYNOPSIS:
Laurel wilt is a vascular disease that affects members of the Lauraceae family. In Winter
Springs, this includes bay trees ( Persea species), camphor, and avocado.
CONSIDERATIONS:
Laurel wilt is a vascular disease of the Lauraceae plant family. The disease is caused by a
fungus that is transmitted by the non - native redbay ambrosia beetle. Presently, it is
estimated that millions of Persea species have died from the disease throughout their native
range of North Carolina to south Florida and west to Mississippi. Trees from the Lauraceae
family present in Florida that could be affected by the disease include redbay, swampbay,
silkbay, sassafras, northern spicebush, pondberry, pondspice, avocado and camphor.
Once a tree becomes inoculated with the laurel wilt fungus, it typically dies within a few
weeks up to a few months. The infected tree then continues to serve as a breeding ground
for the beetle. When the infected trees die, they are often removed and transported offsite,
thereby transmitting the beetles throughout the state and potentially across state lines. Since
the disease also affects avocado trees, it has the potential to harm both the Florida and
California avocado industry.
Bay trees comprise a very small portion of the urban canopy of Winter Springs, therefore
laurel wilt is not likely have a large visual impact on the City's canopy. Although there are
a fair amount of camphor trees in wooded areas in the City and in residential yards, the
Informational 102 PAGE 1 OF 2 - March 12, 2012
camphor is an invasive tree species and removal of these trees is recommended. Avocados
are an ornamental fruit tree and are likely to be confined to residential yards. The other
trees affected in Florida, such as sassafras and pondspice or not common in this area.
With that said, it is important to educate the residents of Winter Springs about laurel wilt
and the risk of spreading the disease. A study conducted by the University of Florida found
that chipping the trees and covering them with a tarp for at least one week is a good disease
management strategy. Some beetles were found to have survived the chipping process, so
covering the wood chips for at least a week is important to reduce the spread of the beetle.
Since laurel wilt fungus was not found to be present in the wood chips, using the chips as
mulch does not pose a threat to other living trees in the Lauraceae family.
FISCAL IMPACT:
There is no know fiscal impact related to this agenda item.
COMMUNICATION EFFORTS:
This Agenda Item has been electronically forwarded to the Mayor and City Commission,
City Manager, City Attorney /Staff, and is available on the City's Website, LaserFiche, and
the City's Server. Additionally, portions of this Agenda Item are typed verbatim on the
respective Meeting Agenda which has also been electronically forwarded to the individuals
noted above, and which is also available on the City's Website, LaserFiche, and the City's
Server; has been sent to applicable City Staff, Media /Press Representatives who have
requested Agendas /Agenda Item information, Homeowner's Associations /Representatives
on file with the City, and all individuals who have requested such information. This
information has also been posted outside City Hall, posted inside City Hall with additional
copies available for the General Public, and posted at five (5) different locations around the
City. Furthermore, this information is also available to any individual requestors. City Staff
is always willing to discuss this Agenda Item or any Agenda Item with any interested
individuals.
Additional information on Laurel wilt will be published in an upcoming edition of the
City's Newsletter.
RECOMMENDATION:
Staff requests the City Commission receive and review the information provided in this
Agenda Item.
ATTACHMENTS:
A) University of Florida - Laurel Wilt Publication (FOR289)
Informational 102 PAGE 2 OF 2 - March 12, 2012
UF FLORIDA
IFAS Extension
FOR289
Assessing the Survival of the Redbay Ambrosia Beetle
and Laurel Wilt Pathogen in Wood Chips'
Don Spence, Jason Smith, Albert Mayfield III, Jiri Huler, Randy Ploetz and Lukasz Stelinski
Laurel wilt (LW) is a vascular disease of the Lauraceae plant
family. The disease is caused by a fungus (Raffaelea lauricola
T. C. Harrin., Aghayeva, & Fraedrich) that is vectored by
a non - native beetle, the redbay ambrosia beetle (RAB),
Xyleborus glabratus Eichhoff (Coleoptera: Curculionidae)
(Hanula 2008). To date, it is likely that millions of Persea
species have died from the disease, which currently ranges
from North Carolina to south Florida and west to Missis-
sippi. In this study we examined the survivability of the
RAB and the laurel wilt fungus in wood chips made from
infested trees and chipped using a standard tree chipper.
With large volumes of wood from dead Persea species, the
potential for intact infested logs to be moved from state to
state is significant. This disease also affects avocado ( Persea
americana) and has the potential to harm both the Florida
and California avocado industry. Results suggest that
chipping wood can be used to minimize the spread of both
RAB and the laurel wilt fungus.
Introduction
The laurel wilt vector and pathogen were introduced into
Georgia before 2002. Since then, laurel wilt has killed plants
in the Lauraceae, including: redbay (P. borbonia), swamp-
bay (P. palustris), silkbay (P. humilis), sassafras (Sassafras
albidum), northern spicebush (Lindera benzoin), pondberry
(Lindera melissifolia), and pondspice (Litsea aestivalis)
(Fraedrich et al. 2008). The disease also affects planted
avocado (P. americana) and camphor (Cinnamomum
camphora) (Mayfield et al. 2008, Smith et al. 2009). In the
eight years since laurel wilt has been recognized in the U.S.,
it has spread faster to the South than it has to the North or
West (Figure 1). From the site of first detection, the disease
has traveled some 200 miles north, reaching North Carolina
in 2011. To the south, the disease has moved almost twice
as far, reaching Miami -Dade County, Florida, in 2011 (DPI
2010). Laurel wilt was confirmed in Bay County, Florida,
and Mississippi in 2009 and in Alabama in 2011; however,
it is suspected that these movements were due to the
anthropogenic movement of firewood (Riggins et al. 2010)
( Figure 1) .
In its native Asian range, RAB is not known to be a pest.
The RAB is a true ambrosia beetle and attacks both living
and dead trees. And, like other ambrosia beetles, it bores
into a tree and deposits spores of its symbiotic fungi on
which it feeds (Harrington 2008). When living host trees
are attacked, the laurel wilt pathogen (R. lauricola) spreads
inside the tree through the water - conducting xylem tissue.
Although the exact mechanism of mortality is not known,
tree death likely occurs due to dysfunction of the water
conducting cells. Once a susceptible host is inoculated
with the fungus, death can occur in a few weeks or up to
1. This document is FOR289, one of a series of the School of Forest Resources and Conservation Department, Florida Cooperative Extension Service,
Institute of Food and Agricultural Sciences, University of Florida. Original publication date November 2011. Visit the EDIS website at http: / /edis.ifas.ufl.
edu.
2. Don Spence, PhD student, Department of Plant Pathology, University of Florida, Gainesville, FL 32611; Jason Smith, assistant professor, School of
Forest Resources and Conservation, University of Florida, Gainesville, FL 32611; Albert Mayfield III, USDA Forest Service, Southern Research Station,
Asheville, NC 28806; Jiri Huler, Department of Biology, North Carolina State University, Raleigh, NC 27695; Randy Ploetz, University of Florida Tropical
Research and Education Center, Homestead, FL 33031; and Lukasz Stelinski, University of Florida Citrus Research and Education Center, Lake Alfred, FL
33850.
The Institute of Food and Agricultural Sciences (IFAS) is an Equal Opportunity Institution authorized to provide research, educational information and other services only to
individuals and institutions that function with non - discrimination with respect to race, creed, color, religion, age, disability, sex, sexual orientation, marital status, national
origin, political opinions or affiliations. U.S. Department of Agriculture, Cooperative Extension Service, University of Florida, IFAS, Florida A &M University Cooperative
Extension Program, and Boards of County Commissioners Cooperating. Millie Ferrer - Chancy, Interim Dean
several months. Once trees die, they continue to serve
as breeding sites for more RAB. New RAB populations
can be established by a single female through a unique
reproductive strategy. A female RAB can produce flightless
male offspring without mating, and upon mating with those
offspring males, she can produce additional females that
can fly to new trees. Thus, a single female beetle emerging
from a tree has the potential to start a new population.
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Figure 1. Counties where Laurel Wilt has been identified.
Credits: USDA Forest Service, Forest Health Protection, http: / /www.
fs. fed. us /r8 /foresthealth /laurelwilt /maps /region al_infestation_ map_
april_14_2011.jpg to view full sized map.
Dead trees in urban landscapes are commonly taken in
large sections or chipped into wood pieces and taken to
local landfills. On occasion, when large volumes of trees are
collected from urban or rural areas they could be taken to a
wood processing plant for conversion into wood chips that
can be used as mulch or burned for electricity generation
(Asikainen and Pulkkinen. 1998). Due to the concern about
transmission of LW in chipped wood, we explored the
potential elimination and neutralization of the RAB and
laurel wilt fungus through the conversion of infested trees
into small wood chips.
Study
Several dozen diseased redbay trees were collected and
chipped into small wood pieces, ranging from 6.3 to 40
cm A Bandit model 1890 tree chipper was used to chip
the trees into 1 m mulch bins; the bins were either exposed
to full sun or kept in constant shade. In each bin we placed
small mesh bags containing woodchips from the infested
redbay trees (Figure 2). The bags were extracted every two
weeks and tested for the presence of the laurel wilt fungus
by plating small pieces of wood on artificial growth media
( Figure 3) .
The remaining wood chips from each mesh bag were
placed into small insect rearing chambers and monitored
for 10 weeks for beetle emergence (Figure 4). The rearing
chambers were kept at room temperature and exposed to
light daily.
I
To further test RAB survival in chipped wood, we
placed ten piles of infested redbay wood chips from the
pre - chipped wood pile under mesh netting in a garage to
evaluate RAB emergence without being exposed to rainfall
or high temperatures from direct exposure to sunlight
(Figure 5). We also placed ten 50 cm logs from the pre-
chipped wood pile (infested with RAB) under mesh netting
in the same garage to collect any beetles that emerged from
intact pieces of wood (Figure 6).
Over the course of the study, temperature was recorded
in the wood chip bins for each treatment. A temperature
Figure 2. 1 m mulch bin with mesh bags on the surface.
Figure 3. Wood chips with black staining from laurel wilt.
Figure 4. The rearing chambers were kept at room temperature and
exposed to light daily.
Figure 5. Wood chips under a mesh net.
probe was placed in the center of each bin and data logged
every hour from the beginning of the study in July until its
termination in late October.
Results
Raffaelea lauricola was not recovered from any of the 1400
samples of plated wood chips from the mesh bags. No RAB
emerged from any of the 400 insect rearing chambers,
regardless of whether the wood chips were in the sun or
shade. Five RAB emerged from the ten netted wood chip
piles (Figure 6). This is in contrast to 856 RAB that emerged
from 10 netted redbay logs (Figure 7) that were monitored
over the same period.
Recommendations
For those who wish to dispose of their dead redbay trees
that were killed by laurel wilt, chipping the trees and
covering them with a tarp for at least one week is a very
good disease management strategy. Since some RAB did
survive the chipping, tarping the wood chips for at least a
week is an important component to reducing the poten-
tial spread of the beetle. This type of sanitation strategy
could help to reduce the local impact of the disease.
• Since the laurel wilt fungus was not recovered from
wood chips, the use of wood chips as mulch (after the
chips have been tarped for a week) does not pose a threat
to living trees in the Lauraceae, nor does it provide a
mechanism for the movement of the laurel wilt disease.
Conclusion
Chipping trees that died from laurel wilt is a useful tool
to minimize the potential spread of laurel wilt. This study
provides evidence that: 1) owners of dead redbay trees have
a simple technique to dispose of dead trees; 2) chipping
dead trees can contain the disease within a small area; and
3) there is a low probability of long- distance movement of
LW via wood chips. More research is planned to assess the
environmental limits of X. glabratus and R. lauricola.
3
Figure 6. 50 cm log infested with RAB under a mesh net.
References
Asikainen, A., and P. Pulkkinen. 1998. Comminution of
logging residues with evolution 910R chipper, MOHA
chipper truck, and Morbark 1200 tub grinder. Int. J. For.
Engl. 9: 47 -53.
(FDACS) Florida Department of Agriculture http://fresh-
fromflorida.com/press/2011/0225201 I.html
Fraedrich, S., T. Harrington, R. Rabaglia, M. Ulyshen, A.
Mayfield, L. Hanula, J. Eickwort, and D. Miller. 2008. A
Fungal Symbiont of the Redbay Ambrosia Beetle Causes a
Lethal Wilt in Redbay and Other Lauraceae in the South-
eastern United States Plant Disease 92: 215 -224.
Hanula, J. L., A. E. Mayfield, S. W. Fraedrich, and R. J.
Rabaglia. 2008 Biology and host associations of redbay
ambrosia beetle (Coleoptera: Curculionidae:Scholytinae),
exotic vector of laurel wilt killing redbay trees in the south-
eastern United States. Forest Entomology 101: 1276 -1286.
Harrington, T., S. Fraedrich and D. Aghayeva. 2008.
Raffaelea lauricola, a new ambrosia beetle symbiont and
pathogen on the Lauraceae. Mycotaxon, 104: 399 -404.
Mayfield, A. E. III, J. A. Smith, M. Hughes, and T. J.
Dreaden. 2008. First report of laurel wilt disease caused by
Raffaelea lauricola on avocado in Florida. Plant Disease 92:
976.
Riggins, J. J., M. Hughes, J. A. Smith, A. E. Mayfield, III,
B. Layton, C. Balbalian, and R. Campbell. 2010. First
Occurrence of Laurel Wilt Disease Caused by Raffaelea
lauricola on Redbay Trees in Mississippi. Plant Disease 94:
(5) 634 -634.
Smith, J. A., L. Mount, A. E. Mayfield III, C. A. Bates, W. A.
Lamborn, and S. W. Fraedrich. 2009b. First report of laurel
wilt disease caused by Raffaelea lauricola on camphor in
Florida and Georgia. Plant Disease 93: 198.
USDA Forest Service, Forest Health Protection http: / /www
fs. fed. us /foresthealth/
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