References
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. Development of a lab-on-a-chip device for diagnosis of plant pathogens. Biosensors and Bioelectronics [Internet]. 2011 ;26:4070 - 4075. Available from: http://www.sciencedirect.com/science/article/pii/S0956566311001916
. Dieback and Mortality of Pinus radiata Trees in Italy Associated with Phytophthora cryptogea. Plant Disease [Internet]. 2014 ;98(1):159 - 159. Available from: http://dx.doi.org/10.1094/PDIS-05-13-0572-PDN
. Discovery of a fourth evolutionary lineage of Phytophthora ramorum: EU2. Fungal Biology [Internet]. 2012 ;116(11):1178 - 1191. Available from: http://linkinghub.elsevier.com/retrieve/pii/S1878614612001572
. Distribution and expression of elicitin genes in the interspecific hybrid oomycete Phytophthora alni. Appl. Environ. Microbiol. [Internet]. 2007 ;73:5587-5597. Available from: http://aem.asm.org/content/73/17/5587.abstract
Diversity of Phytophthora species in natural ecosystems of Taiwan and association with disease symptoms. Plant Pathology [Internet]. 2017 ;66:194–211. Available from: http://doi.wiley.com/10.1111/ppa.12564http://api.wiley.com/onlinelibrary/tdm/v1/articles/10.1111%2Fppa.12564
Diversity of Phytophthora species in Valdivian rainforests and association with severe dieback symptoms . Forest Pathology [Internet]. 2018 :e12443. Available from: https://onlinelibrary.wiley.com/doi/abs/10.1111/efp.12443
. Effect of Brassica Biofumigant Amendments on Different Stages of the Life Cycle of Phytophthora cinnamomi. Journal of Phytopathology [Internet]. 2016 . Available from: http://doi.wiley.com/10.1111/jph.12482http://api.wiley.com/onlinelibrary/tdm/v1/articles/10.1111%2Fjph.12482
. Effects of Soil Solarization and Trichoderma asperellum on Soilborne Inoculum of Phytophthora ramorum and Phytophthora pini in Container Nurseries. Plant Disease [Internet]. 2016 ;100(2):438 - 443. Available from: http://apsjournals.apsnet.org/doi/10.1094/PDIS-04-15-0453-RE
. Endemic and Emerging Pathogens Threatening Cork Oak Trees: Management Options for Conserving a Unique Forest Ecosystem. Plant Disease [Internet]. 2016 ;100(11):2184 - 2193. Available from: http://apsjournals.apsnet.org/doi/10.1094/PDIS-03-16-0408-FE
. Epidemiological modeling of invasion in heterogeneous landscapes: spread of sudden oak death in California (1990–2030). Ecosphere [Internet]. 2011 ;2:art17. Available from: http://www.esajournals.org/doi/abs/10.1890/ES10-00192.1
. Etiology of oak decline in Spain. European Journal of Forest Pathology [Internet]. 1999 ;29:17–27. Available from: http://dx.doi.org/10.1046/j.1439-0329.1999.00128.x
. Evidence for Phytophthora cinnamomi involvement in Iberian oak decline. Plant Pathology [Internet]. 1993 ;42:140–145. Available from: http://dx.doi.org/10.1111/j.1365-3059.1993.tb01482.x
. First detection in the US: new plant pathogen, Phytophthora tentaculata, in native plant nurseries and restoration sites in California. Native Plants Journal [Internet]. 2015 ;16(1):23 - 27. Available from: http://npj.uwpress.org/cgi/doi/10.3368/npj.16.1.23
. First Report of Phytophthora occultans Causing Root and Collar Rot on Ceanothus, Boxwood, Rhododendron, and Other Hosts in Horticultural Nurseries in Oregon, USA. Plant Disease [Internet]. 2015 ;99(9):1282. Available from: http://apsjournals.apsnet.org/doi/10.1094/PDIS-02-15-0156-PDN
. First Report of Phytophthora ramorum Causing Japanese Larch Dieback in France. Plant Disease [Internet]. 2018 :PDIS-02-18-0288. Available from: https://apsjournals.apsnet.org/doi/10.1094/PDIS-02-18-0288-PDN
. First Report of the NA2 Clonal Lineage of Phytophthora ramorum in Indiana. Plant Disease [Internet]. 2020 ;104(6):1875. Available from: https://apsjournals.apsnet.org/doi/10.1094/PDIS-12-19-2543-PDN
. First report of the NA2 clonal lineage of the sudden oak death pathogen, Phytophthora ramorum, infecting tanoak in Oregon forests. Plant Disease [Internet]. 2022 . Available from: https://apsjournals.apsnet.org/doi/pdf/10.1094/PDIS-10-21-2152-PDN
. First reports of Phytophthora ramorum clonal lineages NA1 and EU1 causing Sudden Oak Death on tanoaks in Del Norte County, California. Plant Disease [Internet]. 2021 . Available from: https://apsjournals.apsnet.org/doi/10.1094/PDIS-12-20-2633-PDN
. Forest type influences transmission of Phytophthora ramorum in California oak woodlands. Phytopathology [Internet]. 2011 ;101:492-501. Available from: http://apsjournals.apsnet.org/doi/abs/10.1094/PHYTO-03-10-0064
. Four phenotypically and phylogenetically distinct lineages in Phytophthora lateralis. Fungal Biology [Internet]. 2012 :-. Available from: http://www.sciencedirect.com/science/article/pii/S1878614612001717?v=s5
. Gene × environment tests discriminate the new EU2 evolutionary lineage of Phytophthora ramorum and indicate that it is adaptively different. Forest Pathology [Internet]. 2013 ;44(3):219-232. Available from: http://dx.doi.org/10.1111/efp.12085
. Genetic characterization of the natural hybrid species Phytophthora alni as inferred from nuclear and mitochondrial DNA analyses. Fungal Genetics and Biology [Internet]. 2006 ;43:511 - 529. Available from: http://www.sciencedirect.com/science/article/B6WFV-4JS1TK3-1/2/aead0efc6dc22a393ebadec5b3211855
Genetic diversity of Phytophthora pluvialis, a pathogen of conifers, in New Zealand and the west coast of the United States of America. Plant Pathology [Internet]. 2018 ;67(5):1131 - 1139. Available from: https://onlinelibrary.wiley.com/doi/abs/10.1111/ppa.12812?campaign=wolacceptedarticle
. Genotypic diversity of Phytophthora cinnamomi and P. plurivora in Maryland’s nurseries and Mid-Atlantic forests. Phytopathology [Internet]. 2017 . Available from: http://apsjournals.apsnet.org/doi/10.1094/PHYTO-05-16-0215-R
. Growth enhancement, amino acid synthesis and reduction in susceptibility towards Phytophthora megakarya by arbuscular mycorrhizal fungi inoculation in cocoa plants. Journal of Phytopathology [Internet]. 2012 ;160:220–228. Available from: http://dx.doi.org/10.1111/j.1439-0434.2012.01888.x