Access the full text.
Sign up today, get DeepDyve free for 14 days.
Loading next page...
/lp/wiley/the-natural-persistence-and-distribution-of-the-proposed-biological-13XPOWpDrB
References (46)
-
I. Kowarik, M. Lippe (2011)
Secondary wind dispersal enhances long-distance dispersal of an invasive species in urban road corridors, 9
-
Liza Knapp, C. Canham (2000)
Invasion of an old-growth forest in New York by Ailanthus altissima: sapling growth and recruitment in canopy gaps.Journal of The Torrey Botanical Society, 127
-
(1998)
Absterben von götterbäumen (Ailanthus altissima) in der südsteiermark [Decline of tree‐of‐heaven (Ailanthus altissima [Mill] Swingle) in Southern Styria] -
J. B. Heale, I. Isaak (1963)
Wilt of lucerne caused by species of Verticillium, 52
-
E. O'Neal, D. Davis (2015)
Biocontrol of Ailanthus altissima: inoculation protocol and risk assessment for Verticillium nonalfalfae (Plectosphaerellaceae: Phyllachorales)Biocontrol Science and Technology, 25
-
R. C. Ploetz, J. Hulcr, M. J. Wingfield, Z. W. Beer (2013)
Destructive tree diseases associated with ambrosia and bark beetles: Black swan events in tree pathology?, 97
-
S. Wilhelm (1955)
Longevity of the Verticillium wilt fungus in the laboratory and fieldPhytopathology, 45
-
M. J. Schall, D. D. Davis (2009a)
Ailanthus altissima wilt and mortality: Etiology, 93
-
E. S. O'Neal, D. D. Davis (2015b)
Intraspecific root grafts and clonal growth within Ailanthus altissima stands influence Verticillium nonalfalfae transmission, 99
-
J. Rebbeck, J. Jolliff (2018)
How long do seeds of the invasive tree, Ailanthus altissima remain viable?Forest Ecology and Management
-
J. Rebbeck, M. Malone, D. Short, M. Kasson, E. O'Neal, D. Davis (2013)
First Report of Verticillium Wilt Caused by Verticillium nonalfalfae on Tree-of-Heaven (Ailanthus altissima) in Ohio.Plant disease, 97 7
-
G. Sewell, J. Wilson (1966)
Verticillium wilt of the hop: the survival of V. albo-atrum in soilAnnals of Applied Biology, 58
-
M. T. Kasson, E. S. O'Neal, D. D. Davis (2015)
Expanded host range testing for Verticillium nonalfalfae: Potential biocontrol agent against the invasive Ailanthus altissima, 99
-
(2018)
R: A language and environment for statistical computing -
K. L. Wickert (2019)
Elucidating disease dynamics in the biocontrol of Ailanthus altissima while confirming the host specificity of the vascular wilt pathogen Verticillium nonalfaflae -
Rick Landenberger, Nathan Kota, J. McGraw (2007)
Seed dispersal of the non-native invasive tree Ailanthus altissima into contrasting environmentsPlant Ecology, 192
-
J. Heale, I. Isaac (1963)
Wilt of Lucerne caused by species of Verticillium. IV. Pathogenicity of V. albo-atrum and V. dahliae to Lucerne and other crops; spread and survival of V. albo-atrum in soil and in weeds; effect upon Lucerne production.Annals of Applied Biology, 52
-
I. Kowarik, I. Säumel (2007)
Biological flora of Central Europe: Ailanthus altissima (Mill.) SwinglePerspectives in Plant Ecology Evolution and Systematics, 8
-
P. Talboys (1960)
A CULTURE‐MEDIUM AIDING THE IDENTIFICATION OF VERTICILLIUM ALBO‐ATRUM AND V. DAHLIAEPlant Pathology, 9
-
P. Inderbitzin, R. Bostock, R. Davis, T. Usami, H. Platt, K. Subbarao (2011)
Phylogenetics and Taxonomy of the Fungal Vascular Wilt Pathogen Verticillium, with the Descriptions of Five New SpeciesPLoS ONE, 6
-
E. S. O'Neal (2014)
Biological control of Ailanthus altissima: Transmission, formulation, and risk assessment of Verticillium nonalfalfae -
C. Meloche, S. Murphy (2006)
Managing Tree-of-Heaven (Ailanthus altissima) in Parks and Protected Areas: A Case Study of Rondeau Provincial Park (Ontario, Canada)Environmental Management, 37
-
A. Gover, J. Johnson, K. Lloyd, J. Sellmer (2013)
Tree‐of‐heaven (Ailanthus altissima), Quicksheet 5: Wildland Weed Management, Penn State, College of Agricultural Sciences -
R. Brooks, A. Snyder, E. Bush, S. Salom, A. Baudoin (2020)
First Report of Verticillium Wilt Caused by Verticillium dahliae Impacting Ailanthus altissima in Virginia, U.S.A.Plant Disease, 104
-
O. Maschek, E. Halmschlager (2016)
First Report of Verticillium Wilt on Ailanthus altissima in Europe Caused by Verticillium nonalfalfaePlant Disease, 100
-
William Carter, T. Fredericksen (2007)
Tree seedling and sapling density and deer browsing incidence on recently logged and mature non-industrial private forestlands in Virginia, USA.Forest Ecology and Management, 242
-
L. Kinkel, Matthew Bakker, D. Schlatter (2011)
A coevolutionary framework for managing disease-suppressive soils.Annual review of phytopathology, 49
-
R. J. Hijmans (2019)
geosphere: Spherical Trigonometry. R package version 1.5‐10 -
P. DeBach (1964)
Biological Control of Insect Pests and Weeds -
H. Wickham (2016)
ggplot2: Elegant graphics for data analysis: Springer‐Verlag New York -
M. Kasson, Lindsay Kasson, K. Wickert, D. Davis, J. Stajich (2019)
Genome Sequence of a Lethal Vascular Wilt Fungus, Verticillium nonalfalfae, a Biological Control Used Against the Invasive Ailanthus altissimaMicrobiology Resource Announcements, 8
-
C. Asaro, C. Becker, J. Creighton (2009)
Control and utilization of tree‐of‐heaven: A guide for Virginia landowners -
R. K. Brooks, E. E. Bush, S. M. Salom, A. Baudoin (2019)
First report of Verticillium wilt caused by Verticillium dahliae impacting Ailanthus altissima (tree of heaven) in Virginia. USA, 104
-
E. Fradin, B. Thomma (2006)
Physiology and molecular aspects of Verticillium wilt diseases caused by V. dahliae and V. albo-atrum.Molecular plant pathology, 7 2
-
T. J. McAvoy, A. L. Snyder, N. Johnson, S. M. Salom, L. T. Kok (2012)
Road survey of the invasive tree‐of‐heaven (Ailanthus altissima) in Virginia, 5
-
M. T. Kasson, D. P. Short, E. S. O'Neal, K. V. Subbarao, D. D. Davis (2014)
Comparative pathogenicity, biocontrol efficacy, and multilocus sequence typing of Verticillium nonalfalfae from the invasive Ailanthus altissima and other hosts, 104
-
C. Thanassoulopoulos, D. Biris, E. Tjamos (1981)
Weed hosts as inoculum source of Verticillium in olive orchards.Phytopathologia Mediterranea, 20
-
O. Maschek, E. Halmschlager (2017)
Natural distribution of Verticillium wilt on invasive Ailanthus altissima in eastern Austria and its potential for biocontrolForest Pathology, 47
-
M. J. Schall (2008)
Verticillium wilt of Ailanthus altissima -
A. Snyder, M. Kasson, S. Salom, D. Davis, G. Griffin, L. Kok (2013)
First Report of Verticillium Wilt of Ailanthus altissima in Virginia Caused by Verticillium nonalfalfae.Plant disease, 97 6
-
D. Kahle, H. Wickham (2013)
ggmap: Spatial visualization with ggplot2, 5
-
(2002)
Verticillium wilts -
M. J. Schall, D. D. Davis (2009b)
Verticillium wilt of Ailanthus altissima: Susceptibility of associated tree species, 93
-
M. Kasson, M. Davis, D. Davis (2013)
The Invasive Ailanthus altissima in Pennsylvania: A Case Study Elucidating Species Introduction, Migration, Invasion, and Growth Patterns in the Northeastern US, 20
-
J. Hiemstra, D. Harris (1998)
A compendium of Verticillium wilts in tree species -
A. Snyder, S. Salom, L. Kok (2014)
Survey of Verticillium nonalfalfae (Phyllachorales) on tree-of-heaven in the southeastern USABiocontrol Science and Technology, 24
- Publisher
- Wiley
- Copyright
- Copyright © 2020 Blackwell Verlag GmbH
- ISSN
- 1437-4781
- eISSN
- 1439-0329
- DOI
- 10.1111/efp.12639
- Publisher site
- See Article on Publisher Site
Abstract
Reports of Ailanthus altissima stand declines in south‐central Pennsylvania resulted in the identification of the causal agent, a vascular wilt fungus, Verticillium nonalfalfae. Additional surveys throughout North America and Europe found that this disease outbreak was not an isolated event. One of these surveys identified and monitored six naturally diseased A. altissima stands in Virginia, USA, between 2009 and 2012. To help predict the long‐term outcome of infested stands, these naturally infested sites were monitored again from 2017 to 2018. While A. altissima were still present at all six sites, a reduction in the number of living A. altissima per hectare (from 604 to 66 overall) and A. altissima basal area per hectare (from 16.1 to 2.9 m2/ha overall) was consistently seen. At all but one of these sites, V. nonalfalfae was still causing disease on the remaining A. altissima. This reduction in A. altissima and persistence of V. nonalfalfae highlight the effectiveness of the pathogen at controlling this tree over long periods of time. A walking survey looking closely at all A. altissima stands along roads within 1 km of these sites found additional V. nonalfalfae infections around four sites. Since no correlation existed between tree infection status and distance from the known site, the patchy disease occurrence may indicate this pathogen is able to spread over longer distances or is more abundant than the previous survey suggested. Soil collected at these sites did not infect any A. altissima seedlings in a greenhouse study, suggesting that soil inoculum may not play an important role in V. nonalfalfae persistence. This research further supports the use of V. nonalfalfae as an effective biopesticide that can reduce A. altissima numbers consistently over many years.
Journal
Forest Pathology – Wiley
Published: Dec 1, 2020
Keywords: ; ; ; ;