108 Hamilton et al: A Portable Diagnostic Approach Confirms Laurel Wilt Disease in Minutes 52(3):273-288. https://doi.org/10.1016/j.ecolecon.2004.10 .002 Ploetz RC, Pérez-Martínez JM, Smith JA, Hughes M, Dreaden TJ, Inch SA, Fu Y. 2012. Responses of avocado to laurel wilt, caused by Raffaelea lauricola. Plant Pathology. 61(4): 801-808. https://doi.org/10.1111/j.1365-3059.2011.02564.x Ranger CM, Reding ME, Schultz PB, Oliver JB, Frank SD, Addesso KM, Hong Chong J, Sampson B, Werle C, Gill S, Krause C. 2016. Biology, ecology, and management of non- native ambrosia beetles (Coleoptera: Curculionidae: Scolyti- nae) in ornamental plant nurseries. Journal of Integrated Pest Management. 7(1):9;1-23. https://doi.org/10.1093/jipm/ pmw005 Santini A, Ghelardini L, De Pace C, Desprez-Loustau ML, Capretti P, Chandelier A, Cech T, Chira D, Diamandis S, Gaitniekis T, Hantula J, Holdenrieder O, Jankovsky L, Jung T, Jurc D, Kirisits T, Kunca A, Lygis V, Malecka M, Marcais B, Schmitz S, Schumacher J, Solheim H, Solla A, Szabo I, Tsopelas P, Vannini A, Vettraino AM, Webber J, Woodward S, Stenlid J. 2013. Biogeographical patterns and determinants of invasion by forest pathogens in Europe. New Phytologist. 197(1):238-250. https://doi.org/10.1111/j.1469-8137.2012 .04364.x Shih H, Wuest CE, Fraedrich SW, Harrington TC, Chen C. 2018. Assessing the susceptibility of Asian species of Lauraceae to the laurel wilt pathogen, Raffaelea lauricola. Taiwan Journal of Forest Science. 33(3):173-184. Thiessen LD, Neill TM, Mahaffee WF. 2018. Development of a quantitative loop-mediated isothermal amplification assay for the field detection of Erysiphe necator. PeerJ. 6:e4639. https://doi.org/10.7717/peerj.4639 Tomlinson JA, Dickinson MJ, Boonham N. 2010. Detection of Botrytis cinerea by loop-mediated isothermal amplification. Letters in Applied Microbiology. 51(6):650-657. https://doi .org/10.1111/j.1472-765X.2010.02949.x Tomlinson JA, Ostoja-Starzewska S, Webb K, Cole J, Barnes A, Dickinson M, Boonham N. 2013. A loop-mediated isothermal amplification-based method for confirmation of Guignardia citricarpa in citrus black spot lesions. European Journal of Plant Pathology. 136(2):217-224. https://doi.org/10.1007/ s10658-013-0168-9 US Department of the Interior. 2016. Safeguarding America’s lands and waters from invasive species: A national framework for early detection and rapid response. Washington (DC, USA): US Department of the Interior. 55 p. Villari C, Tomlinson JA, Battisti A, Boonham N, Capretti P, Fac- coli M. 2013. Use of loop-mediated isothermal amplification for detection of Ophiostoma clavatum, the primary blue stain fungus associated with Ips acuminatus. Applied and Environ- mental Microbiology. 79(8):2527-2533. https://doi.org/10 .1128/AEM.03612-12 Yerushalmy J. 1947. Statistical problems in assessing methods of medical diagnosis, with special reference to X-ray techniques. Public Health Reports. 62(40):1432-1449. https://doi.org/10 .2307/4586294 ACKNOWLEDGMENTS We thank David Jenkins (South Carolina Forestry Commission), Chandler Barton (Arkansas Department of Agriculture, Forestry Division), Wayne Langston and Jim Slye (North Carolina Forest Service), Chip Bates and Chris Barnes (Georgia Forestry Com- mission), Jaesoon Hwang, Stephen Clarke, and Susan Best (USDA Forest Service), John Henderson and Rick Martin (Ten- nessee Forestry), Alexandra Blevins (Kentucky Division of For- estry), and Megan Buland (University of Kentucky) for their assistance in field collection and in-field testing. Funding for this project was provided by The USDA Forest Service, Forest Health Protection Special Technology Development Program (Grant #: 17DG11083150006) and the D.B. Warnell School of Forestry and Natural Resources, University of Georgia. Jeffrey L. Hamilton, MS (corresponding author) Warnell School of Forestry and Natural Resources University of Georgia Athens, GA, USA
[email protected] Stephen W. Fraedrich, PhD USDA Forest Service Southern Research Station Athens, GA, USA Campbell J. Nairn, PhD Warnell School of Forestry and Natural Resources University of Georgia Athens, GA, USA Albert E. Mayfield, PhD USDA Forest Service Southern Research Station Asheville, NC, USA Caterina Villari, PhD (corresponding author) Warnell School of Forestry and Natural Resources University of Georgia Athens, GA, USA 706-542-2535
[email protected] Conflicts of Interest: The authors reported no conflicts of interest. Résumé. Contexte: La maladie du flétrissement du laurier a pro- voqué une mortalité importante des espèces lauracées dans le Sud-est des États-Unis. L’agent causal est un champignon invasif, Raffaelea lauricola, symbiote du coléoptère Xyleborus glabratus, qui provoque un flétrissement vasculaire rapide et fatal. Un dia- gnostic précoce du flétrissement du laurier est impératif pour la gestion efficace de cette maladie. Le processus de diagnostic actuel est toutefois lent en raison de la longueur des tests de labo- ratoire nécessaires pour confirmer la présence de l’agent pathogène. Les méthodes: nous avons testé la robustesse et la portabilité sur le terrain d’un test d’amplification isotherme à médiation par boucle (AIMB) spécifique à l’espèce et récemment mis au point ©2021 International Society of Arboriculture
May 2021
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