[Afandi, A., Murayama, E., Hieno, A., Suga, H., Kageyama, K. 2018. Population structures of the water-borne plant pathogen Phytopythium helicoides reveal its possible origins and transmission modes in Japan. PLoS One, 13 (12), e0209667.10.1371/journal.pone.0209667]Search in Google Scholar
[Bala, K., Robideau, G.P., Désaulniers, N., De Cock, A.W.A.M., Lévesque, C.A. 2010. Taxonomy, DNA barcoding and phylogeny of three new species of Pythium from Canada. Persoonia: Molecular Phylogeny and Evolution of Fungi, 25, 22.10.3767/003158510X524754]Search in Google Scholar
[Baten, M.A. et al. 2014. Phylogenetic relationships among Phytopythium species, and re-evaluation of Phytopythium fagopyri comb. nov., recovered from damped-off buckwheat seedlings in Japan. Mycological Progress, 13 (4), 1003.10.1007/s11557-014-1003-1]Search in Google Scholar
[Bedard, J.E., Schurko, A.M., de Cock, A.W., Klassen, G.R. 2006. Diversity and evolution of 5S rRNA gene family organization in Pythium. Mycological Research, 110 (1), 86–95.10.1016/j.mycres.2005.08.001]Search in Google Scholar
[Bennett, R.M., Thines, M. 2017a. Confirmation that Phytophthora insolita (Peronosporaceae) is present as a marine saprotroph on mangrove leaves and first report of the species for the Philippines. Nova Hedwigia, 105 (1/2), 185–196.10.1127/nova_hedwigia/2017/0404]Search in Google Scholar
[Bennett, R.M., Nam, B., Dedeles, G.R., Thines, M. 2017b. Phytopythium leanoi sp. nov. and Phytopythium dogmae sp. nov., Phytopythium species associated with mangrove leaf litter from the Philippines. Acta Mycologica, 52 (2).10.5586/am.1103]Search in Google Scholar
[Blackwell, E. 1949. Terminology in Phytophthora. Mycological Papers, 30, 1–24.]Search in Google Scholar
[Boari, A.J., Cunha, E.M., Quadros, A.F.F., Barreto, R.W., Fernandes, A.F. 2018. First report of Phytopythium sp. causing storage root rot and foliage blight of cassava in Brazil. Plant Disease, 102 (5), 1042.10.1094/PDIS-09-17-1449-PDN]Search in Google Scholar
[Briard, M., Dutertre, M., Rouxel, F., Brygoo, Y. 1995. Ribosomal RNA sequence divergence within the Pythiaceae. Mycological Research, 99 (9), 1119–1127.10.1016/S0953-7562(09)80782-X]Search in Google Scholar
[Broders, K.D., Lipps, P.E., Ellis, M., Dorrance, A.E. 2009. Pythium delawarii – a new species isolated from soybean in Ohio. Mycologia, 101, 232–238.10.3852/08-133]Search in Google Scholar
[Cooke, D.E.L., Drenth, A., Duncan, J.M., Wagels, G., Brasier, C.M. 2000. A molecular phylogeny of Phytophthora and related oomycetes. Fungal Genetics and Biology, 30 (1), 17–32.10.1006/fgbi.2000.1202]Search in Google Scholar
[De Cock, A.W.A.M. et al. 2015. Phytopythium: molecular phylogeny and systematics. Persoonia: Molecular Phylogeny and Evolution of Fungi, 34, 25.10.3767/003158515X685382]Search in Google Scholar
[Fichtner, E.J., Browne, G.T., Mortaz, M., Ferguson, L., Blomquist, C.L. 2016. First report of root rot caused by Phytopythium helicoides on Pistachio Rootstock in California. Plant Disease, 100 (11), 2337.10.1094/PDIS-12-15-1424-PDN]Search in Google Scholar
[Hillocks, R.J., Wydra, K. 2002. Bacterial, fungal and nematode diseases. In: Cassava: biology, production and utilization (eds.: R.J. Hillocks, J.M. Thresh, A.C. Belloti). CABI, UK, 261–280.10.1079/9780851995243.0261]Search in Google Scholar
[Jankowiak, R., Stepniewska, H., Bilanski, P. 2015. Notes on some Phytopythium and Pythium species occurring in oak forests in southern Poland. Acta Mycologica, 50 (1).10.5586/am.1052]Search in Google Scholar
[Javadi, N., Sharifnabi, B. 2016. Phytopythium litorale, the causal agent of almond root and crown rot in Iran. Proceedings of 22nd Iranian Plant Protection Congress, 27–30 August 2016. College of Agriculture and Natural Resources, University of Tehran, Karaj, Iran.]Search in Google Scholar
[de Jesus, A.L. et al. 2016. Morphological and phylogenetic analyses of three Phytopythium species (Peronosporales, Oomycota) from Brazil. Cryptogamie Mycologie, 37 (1), 117–128.10.7872/crym/v37.iss1.2016.117]Search in Google Scholar
[Jung, T. et al. 2020. A survey in natural forest ecosystems of Vietnam reveals high diversity of both new and described Phytophthora taxa including P. ramo-rum. Forests, 11 (1), 93.10.3390/f11010093]Search in Google Scholar
[Karaca, G., Jonathan, R., Paul, B. 2009. Pythium stipitatum sp. nov. isolated from soil and plant debris taken in France, Tunisia, Turkey, and India. FEMS Microbiology Letters, 295, 164–169.10.1111/j.1574-6968.2009.01579.x]Search in Google Scholar
[Leanio, E.M. 2001. Straminipilous organisms from fallen mangrove leaves from Panay Island, Philippines. Fungal Diversity, 6, 75–81.]Search in Google Scholar
[Lévesque, C.A., de Cock, W.A.M. 2004. Molecular phylogeny and taxonomy of the genus Pythium. Mycological Research, 108, 1363–1383.10.1017/S0953756204001431]Search in Google Scholar
[Marano, A.V. et al. 2014. A new combination in Phytopythium: P. kandeliae (Oomycetes, Straminipila). Mycosphere, 5, 510–522.10.5943/mycosphere/5/4/3]Search in Google Scholar
[Nam, B., Choi, Y.J. 2019. Phytopythium and Pythium species (Oomycota) isolated from freshwater environments of Korea. Mycobiology, 47 (3), 261–272.10.1080/12298093.2019.1625174]Search in Google Scholar
[Polat, Z., Awan, Q.N., Hussain, M., Akgül, D.S. 2017. First report of Phytopythium vexans causing root and collar rot of kiwifruit in Turkey. Plant Disease, 101 (6), 1058.10.1094/PDIS-11-16-1554-PDN]Search in Google Scholar
[Poltronieri, L.S., Trindade, D.R., Silva, H.M., de Albuquerque, F.C. 1997. Pathogens associated to the cassava soft root rot in the State of Para, Brazil (in Portuguese with English summary). Fitopatologia Brasileira, 22, 111.]Search in Google Scholar
[Prencipe, S., Savian, F., Nari, L., Ermacora, P., Spadaro, D., Martini, M. 2020. First report of Phytopythium vexans causing decline syndrome of Actinidia deliciosa ‘Hayward’in Italy. Plant Disease, 104 (7).10.1094/PDIS-10-19-2101-PDN]Search in Google Scholar
[Pringsheim, N. 1858. Beitraege zur morphologie und systematic algae. 1. Die Saprolegnieen. Jahrbücher für Wissenschaftliche Botanik, 1, 284–306.]Search in Google Scholar
[Radmer, L., Anderson, G., Malvick, D.M., Kurle, J.E., Rendahl, A., Mallik, A. 2017. Pythium, Phytophthora, and Phytopythium spp. associated with soybean in Minnesota, their relative aggressiveness on soybean and corn, and their sensitivity to seed treatment fungicides. Plant Disease, 101 (1), 62–72.10.1094/PDIS-02-16-0196-RE30682312]Search in Google Scholar
[Rai, M., Abd-Elsalam, K.A., Ingle, A.P. 2020. Pythium: diagnosis, diseases and management. CRC Press.10.1201/9780429296406]Search in Google Scholar
[Redekar, N.R., Eberhart, J.L., Parke, J.L. 2019. Diversity of Phytophthora, Pythium, and Phytopythium species in recycled irrigation water in a container nursery. Phytobiomes Journal, 3 (1), 31–45.10.1094/PBIOMES-10-18-0043-R]Search in Google Scholar
[Robideau, G.P. et al. 2011. DNA barcoding of oomycetes with cytochrome c oxidase subunit I and internal transcribed spacer. Molecular and Ecological Resources, 11, 1002–1011.10.1111/j.1755-0998.2011.03041.x]Search in Google Scholar
[Rodriguez-Padron, C., Siverio, F., Perez-Sierra, A., Rodríguez, A. 2018. Isolation and pathogenicity of Phytophthora species and Phytopythium vexans recovered from avocado orchards in the Canary Islands, including Phytophthora niederhauserii as a new pathogen of avocado. Phytopathologia Mediterranea, 57 (1), 89–106.]Search in Google Scholar
[Senda, M., Suga, H., Levésque, G.A. 2009. Two new species of Pythium, P. senticosum and P. takayamanum, isolated from cool-temperate forest soil in Japan. Mycologia, 101, 439–448.10.3852/08-104]Search in Google Scholar
[Silva, J.L.D.S., Ishida, A.K.N., Cunha, R.L., Lima, A.M., Moura, E.F. 2019. Culture medium and inoculation methodology for the study of soft root rot caused by Phytopythium sp. Ciência Rural, 49 (11).10.1590/0103-8478cr20180875]Search in Google Scholar
[Thines, M. 2014. Phylogeny and evolution of plant pathogenic oomycetes – a global overview. European Journal of Plant Pathology, 138 (3), 431–447.10.1007/s10658-013-0366-5]Search in Google Scholar
[Uzuhashi, S., Tojo, M., Kakishima, M. 2010. Phylogeny of the genus Pythium and description of new genera. Mycoscience, 51, 337–365.10.1007/S10267-010-0046-7]Search in Google Scholar
[van der Plaats-Niterink, A.J. 1981. Monograph of the genus Pythium Vol. 21. Centraalbureau voor Schimmelcultures, Baarn.]Search in Google Scholar
[Villa, N.O., Kageyama, K., Asano, T., Suga, H. 2006. Phylogenetic relationships of Pythium and Phytophthora species based on ITS rDNA, cytochrome oxidase II and β-tubulin gene sequences. Mycologia, 98 (3), 410–422.10.3852/mycologia.98.3.410]Search in Google Scholar
[Wang, K.X., Xie, Y.L., Yuan, G.Q., Li, Q.Q., Lin, W. 2015. First report of root and collar rot caused by Phytopythium helicoides on Kiwifruit (Actinidia chinensis). Plant Disease, 99 (5), 725.10.1094/PDIS-08-14-0817-PDN]Search in Google Scholar
[Yang, X., Richardson, P.A., Olson, H.A., Hong, C.X. 2013. Root and stem rot of begonia caused by Phytopythium helicoides in Virginia. Plant Disease, 97 (10), 1385–1385.10.1094/PDIS-05-13-0472-PDN]Search in Google Scholar
[Yin, X., Li, X.Z., Yin, J.J., Wu, X. 2016. First report of Phytopythium helicoides causing rhizome rot of Asian lotus in China. Plant Disease, 100 (2), 532.10.1094/PDIS-07-15-0833-PDN]Search in Google Scholar