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Rosso PH, Baccalá N, Havrylenko M, Fontenla S. Spatial pattern of Austrocedrus chilensis wilting and the scope of autocorrelation analysis in natural forests. Forest Ecology and Management [Internet]. 1994 ;67:273-279. Available from: http://dx.doi.org.proxy.library.oregonstate.edu/10.1016/0378-1127(94)90022-1

Peterson E, Hansen E, Hulbert J. Source or sink? The role of soil and water borne inoculum in the dispersal of Phytophthora ramorum in Oregon tanoak forests. Forest Ecology and Management [Internet]. 2014 ;322:48 - 57. Available from: http://linkinghub.elsevier.com/retrieve/pii/S0378112714001261

Peterson E, Hansen E, Hulbert J. Source or sink? The role of soil and water borne inoculum in the dispersal of Phytophthora ramorum in Oregon tanoak forests. Forest Ecology and Management [Internet]. 2014 ;322:48 - 57. Available from: http://linkinghub.elsevier.com/retrieve/pii/S0378112714001261

Ioos R, Husson C, Andrieux A, Frey P. SCAR–based PCR primers to detect the hybrid pathogen Phytophthora alni and its subspecies causing alder disease in Europe. European Journal of Plant Pathology [Internet]. 2005 ;112:323-335. Available from: http://dx.doi.org/10.1007/s10658-005-6233-2

R

Santos AF dos, Tessmann DJ, Alves TCA, Vida JB, Harakava R. Root and crown rot of Brazilian pine (Araucaria angustifolia) caused by Phytophthora cinnamomi. Journal of Phytopathology [Internet]. 2011 ;159:194–196. Available from: http://dx.doi.org/10.1111/j.1439-0434.2010.01741.x

Robin C, Piou D, Feau N, Douzon G, Schenck N, Hansen EM. Root and aerial infections of Chamaecyparis lawsoniana by Phytophthora lateralis: a new threat for European countries. Forest Pathology [Internet]. 2010 ;41:417–424. Available from: http://dx.doi.org/10.1111/j.1439-0329.2010.00688.x

Groves E, Howard K, Hardy G, Burgess T. Role of salicylic acid in phosphite-induced protection against Oomycetes; a Phytophthora cinnamomi - Lupinus augustifolius model system. European Journal of Plant Pathology [Internet]. 2015 ;141(3):559 - 569. Available from: http://link.springer.com/article/10.1007%2Fs10658-014-0562-y

Groves E, Howard K, Hardy G, Burgess T. Role of salicylic acid in phosphite-induced protection against Oomycetes; a Phytophthora cinnamomi - Lupinus augustifolius model system. European Journal of Plant Pathology [Internet]. 2015 ;141(3):559 - 569. Available from: http://link.springer.com/article/10.1007%2Fs10658-014-0562-y

Brasier CM. The role of Phytophthora pathogens in forests and semi-natural communities in Europe and Africa Hansen EM, Sutton W. Proceedings of 1st International Meeting on Phytophthoras in Forest and Wildland Ecosystems. 1999 :6–13.

Thoirain B, Husson C, Marçais B. Risk factors for the Phytophthora-induced decline of alder in northeastern France. Phytopathology [Internet]. 2007 ;97:99-105. Available from: http://apsjournals.apsnet.org/doi/abs/10.1094/PHYTO-97-0099

Stamps DJ, Waterhouse GM, Newhook FJ, Hall GS. Revised tabular key to the species of Phytophthora. Mycological papers, CAB International, Wallingford Oxon [Internet]. 1990 ;162:1-28. Available from: http://www.cabdirect.org/abstracts/19902300161.html;jsessionid=1D85C493563BECA35F0E55609ABAF21C

Sansford CE, Inman AJ, Baker R, Brasier C, Frankel S, de Gruyter J, Husson C, Kehlenbeck H, Kessel G, Moralejo E, et al. Report on the risk of entry, establishment, spread and socio-economic loss and environmental impact and the appropriate level of management for Phytophthora ramorum for the EU. Forest Research CSL, EU Sixth Framework Project RAPRA. [Internet]. 2009 ;Deliverable Report 28:311 p. Available from: http://rapra.csl.gov.uk/RAPRA-PRA_26feb09.pdf

Burgess TI, Webster JL, Ciampini JA, White D, Hardy GSJE, Stukely MJC. Re-evaluation of Phytophthora species isolated during 30 years of vegetation health surveys in western Australia using molecular techniques. Plant Disease. 2009 ;93(3):215 - 223.

Hansen E, Reeser P, Sutton W, Brasier C. Redesignation of Phytophthora taxon Pgchlamydo as Phytophthora chlamydospora sp. nov. North American Fungi [Internet]. 2015 ;10:1–14. Available from: https://www.pnwfungi.org/index.php/pnwfungi/article/view/1414

Gagnon M-C, Bergeron M-J, Hamelin RC, Grünwald NJ, Bilodeau GJ. Real-time PCR assay to distinguish Phytophthora ramorum lineages using the cellulose binding elicitor lectin (CBEL) locus. Canadian Journal of Plant Pathology [Internet]. 2014 ;36(3):367 - 376. Available from: http://www.tandfonline.com/doi/abs/10.1080/07060661.2014.924999

Q

Kunadiya MB, Dunstan WD, White D, Hardy GESt. J, Grigg AH, Burgess TI. A qPCR Assay for the Detection of Phytophthora cinnamomi Including an mRNA Protocol Designed to Establish Propagule Viability in Environmental Samples. Plant Disease [Internet]. 2019 ;103(9):2443 - 2450. Available from: https://apsjournals.apsnet.org/doi/10.1094/PDIS-09-18-1641-RE

P

Cobb RC, Ross N, Hayden KJ, Eyre CA, Dodd RS, Frankel SJ, Garbelotto M, Rizzo DM. Promise and Pitfalls of Endemic Resistance for Cultural Resources Threatened by Phytophthora ramorum. Phytopathology [Internet]. 2019 ;109(5):760 - 769. Available from: https://apsjournals.apsnet.org/doi/pdf/10.1094/PHYTO-04-18-0142-R

Frankel SJ, Shea PJ, Haverty MI. Proceedings of the sudden oak death second science symposium: the state of our knowledge. Sudden oak death second science symposium: the state of our knowledge [Internet]. 2005 :571 pp. Available from: http://www.fs.fed.us/psw/publications/documents/psw_gtr196/

Nelson A, Weiland G, Hudler G. Prevalence, distribution and identification of Phytophthora species from bleeding canker on European beech. Phytopathology. 2010 ;28:150–158.

Ireland KB, Hüberli D, Dell B, Smith IW, Rizzo DM, Hardy SGEJ. Potential susceptibility of Australian native plant species to branch dieback and bole canker diseases caused by Phytophthora ramorum. Plant Pathology [Internet]. 2012 ;61:234–246. Available from: http://dx.doi.org/10.1111/j.1365-3059.2011.02513.x

Ireland KB, Hüberli D, Dell B, Smith IW, Rizzo DM, Hardy SGEJ. Potential susceptibility of Australian native plant species to branch dieback and bole canker diseases caused by Phytophthora ramorum. Plant Pathology [Internet]. 2012 ;61:234–246. Available from: http://dx.doi.org/10.1111/j.1365-3059.2011.02513.x

Ireland KB, Hüberli D, Dell B, Smith IW, Rizzo DM, Hardy SGEJ. Potential susceptibility of Australian flora to a NA2 isolate of Phytophthora ramorum and pathogen sporulation potential. Forest Pathology [Internet]. 2011 ;42:305–320. Available from: http://dx.doi.org/10.1111/j.1439-0329.2011.00755.x

Ireland KB, Hüberli D, Dell B, Smith IW, Rizzo DM, Hardy SGEJ. Potential susceptibility of Australian flora to a NA2 isolate of Phytophthora ramorum and pathogen sporulation potential. Forest Pathology [Internet]. 2011 ;42:305–320. Available from: http://dx.doi.org/10.1111/j.1439-0329.2011.00755.x

Romportl D, Chumanová E, Havrdová L, Pešková V, Černý K. Potential risk of occurrence of Phytophthora alni in forests of the Czech Republic. Journal of Maps [Internet]. 2016 :1 - 5. Available from: http://www.tandfonline.com/doi/full/10.1080/17445647.2016.1198996

Noble R, Blackburn J, Thorp G, Dobrovin-Pennington A, Pietravalle S, Kerins G, Allnutt TR, Henry CM. Potential for eradication of the exotic plant pathogens Phytophthora kernoviae and Phytophthora ramorum during composting. Plant Pathology [Internet]. 2011 ;60:1077–1085. Available from: http://dx.doi.org/10.1111/j.1365-3059.2011.02476.x

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