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Limited morphological, physiological and genetic diversity of Phytophthora palmivora from cocoa in Papua New Guinea. Plant Pathology [Internet]. 2017 ;66:124–130. Available from: http://doi.wiley.com/10.1111/ppa.12557.
Lineage, Temperature, and Host Species have Interacting Effects on Lesion Development in Phytophthora ramorum. Plant Disease [Internet]. 2014 ;98(12):1717 - 1727. Available from: http://apsjournals.apsnet.org/doi/abs/10.1094/PDIS-02-14-0151-RE.
Littleleaf disease of shortleaf and loblolly pines. 1954 :41 pages..
The long-term survival of Phytophthora cinnamomi in mature Banksia grandis killed by the pathogen. Forest Pathology [Internet]. 2012 ;42:28–36. Available from: http://dx.doi.org/10.1111/j.1439-0329.2011.00718.x.
A Lucid key to the common species of Phytophthora. Plant Disease [Internet]. 2012 ;96:897-903. Available from: http://dx.doi.org/10.1094/PDIS-08-11-0636.
‘‘Mal del ciprés’’ disease: analysis of the association between aerial symptoms and vitality of trees. Phytophthoras in Forests and Natural Ecosystems. Proceedings of the Fourth Meeting of the International Union of Forest Research Organizations (IUFRO) Working Party. 2009 :282–3..
Management of black pod disease of cocoa with reduced number of fungicide application and crop sanitation. African Journal of Agricultural Research [Internet]. 2007 ;2(11):601–604. Available from: http://www.academicjournals.org/article/article1380898856_Opoku%20et%20al.pdf.
Management of P. kernoviae and P. ramorum in southwest England. . Phytophthoras in Forests and Natural Ecosystems. 2009 ;General Technical Report PSW-GTR-221:177-183..
Management of Phytophthora pod rot disease on cocoa farms in Ghana. Crop Protection [Internet]. 2003 ;22(3):469 - 477. Available from: http://www.sciencedirect.com/science/article/pii/S026121940200193X.
Management of red needle cast, caused by Phytophthora pluvialis, a new disease of radiata pine in New Zealand. New Zealand Plant Protection [Internet]. 2014 ;67:48–53. Available from: http://www.nzpps.org/nzpp_abstract.php?paper=670480.
Managing Chamaecyparis lawsoniana (Port-Orford-Cedar) to control the root disease caused by Phytophthora lateralis in the Pacific Northwest, USA. In: Coastally restricted forests. Coastally restricted forests. New York : Oxford University Press, 1998; 1998. pp. 93–100..
Managing Port-Orford-Cedar and the Introduced Pathogen Phytophthora lateralis. Plant Disease [Internet]. 2000 ;84:4-14. Available from: http://apsjournals.apsnet.org/doi/abs/10.1094/PDIS.2000.84.1.4.
Membrane-based oligonucleotide array developed from multiple markers for the detection of many Phytophthora species. Phytopathology. 2013 ;103(1):43 - 54..
Metabarcoding and development of new Real-time specific assays reveal Phytophthora species diversity in Holm Oak forests in eastern Spain. Plant Pathology [Internet]. 2017 ;66:115–123. Available from: http://doi.wiley.com/10.1111/ppa.12541.
A microsatellite analysis identifies global pathways of movement of Phytophthora cinnamomi and the likely sources of wildland infestations in California and Mexico. Phytopathology [Internet]. 2019 . Available from: https://apsjournals.apsnet.org/doi/10.1094/PHYTO-03-19-0102-R.
Microsatellite markers for population studies of Phytophthora megakarya (Pythiaceae), a cacao pathogen in Africa. American Journal of Botany [Internet]. 2012 ;99:e353-e356. Available from: http://www.amjbot.org/content/early/2012/08/29/ajb.1200053.abstract.
Microsatellite markers identify three lineages of Phytophthora ramorum in US nurseries, yet single lineages in US forest and European nursery populations. Molecular Ecology [Internet]. 2006 ;15:1493–1505. Available from: http://dx.doi.org/10.1111/j.1365-294X.2006.02864.x.
The Microscopic Examination of Phytophthora cinnamomi in Plant Tissues Using Fluorescent In Situ Hybridization. Journal of Phytopathology [Internet]. 2014 ;162(11-12):747 - 757. Available from: http://doi.wiley.com/10.1111/jph.2014.162.issue-11-12http://doi.wiley.com/10.1111/jph.12257.
Migratory passerine birds in Britain carry Phytophthora ramorum inoculum on their feathers and “feet” at low frequency. Forest Pathology [Internet]. 2020 ;50(1):e12569. Available from: https://onlinelibrary.wiley.com/doi/abs/10.1111/efp.12569.
Mitotic Recombination and Rapid Genome Evolution in the Invasive Forest Pathogen Phytophthora ramorum . mBio [Internet]. 2019 ;10(2). Available from: https://mbio.asm.org/content/10/2/e02452-18
Modelling Phytophthora disease risk in Austrocedrus chilensis forests of Patagonia. European Journal of Forest Research [Internet]. 2011 :1-15. Available from: http://dx.doi.org/10.1007/s10342-011-0503-7.
Modelling the influence of winter frosts on the development of the stem canker of red oak, caused by Phytophthora cinnamomi. Annales des Sciences Forestiere [Internet]. 1996 ;53:369-382. Available from: http://dx.doi.org/10.1051/forest:19960219.
Molecular detection of Phytophthora ramorum, the causal agent of sudden oak death in California, and two additional species commonly recovered from diseased plant material. Phytopathology [Internet]. 2004 ;94:621-631. Available from: http://dx.doi.org/10.1094/PHYTO.2004.94.6.621.
Molecular diagnosis of Phytophthora lateralis in trees, water, and foliage baits using multiplex polymerase chain reaction. Forest Pathology. 2001 ;31:275 - 283..
A molecular phylogeny of Phytophthora and related Oomycetes. Fungal Genetics and Biology [Internet]. 2000 ;30:17-32. Available from: http://www.sciencedirect.com/science/article/B6WFV-45FC03G-1G/2/1cb8ec25d08dae3a16f56e74cd92e99e.