Waterborne Phytophthora Species Occurrence and Diversity in the Valley of the Rák Brook

Authors

  • Judit Sárándi-Kovács Institute of Silviculture and Forest Protection, University of Sopron, Hungary
  • Ilona Szabó Institute of Silviculture and Forest Protection, University of Sopron, Hungary
  • Ferenc Lakatos Institute of Silviculture and Forest Protection, University of Sopron, Hungary

DOI:

https://doi.org/10.2478/aslh-2018-0009

Keywords:

waterborne Phytophthora, monitoring, plant pathogen, catchment area, vízi Phytophthora, kórokozó, vízgyűjtő terület

Abstract

This paper reports on a two-year monitoring of Phytophthora species occurring in the catchment area of the Rák Brook near Sopron. P. gonapodyides, P. lacustris, P. plurivora and P. pseudosyringae were found in the course of surveys completed in the vegetation period of 2011 and 2012. Diversity profiles and cluster analysis were calculated in order to compare the Phytophthora communities detected at different sites and times. Seasonal differences were observed in the species compositions. Temperature data and basic hydrological parameters were found to determine the presence or absence of waterborne Phytophthora species in the catchment area of the Rák Brook. Pathogenicity of the Phytophthora species discovered was confirmed and evaluated against sessile oak seedlings

References

BALCÍ, Y. – HALMSCHLAGER, E. (2003): Phytophthora species in oak ecosystems in Turkey and their association with declining oak trees. Plant Pathology 52: 694–702. https://doi.org/10.1111/j.1365-3059.2003.00919.x

BRASIER, C. M. (1996): Phytophthora cinnamomi and oak decline in southern Europe. Environmental constraints including climate change. Annals of Forest Science 53: 347–358. http://doi.org/10.1051/forest:19960217

BRAZEE, N. J. – WICK, R. L. – HULVEY, J. P. (2016): Phytophthora species recovered from the Connecticut River Valley in Massachusetts, USA. Mycologia 108 (1): 6–19. https://doi.org/10.3852/15-038

DÖVÉNYI, Z. (ed. 2010): Inventory of microregions in Hungary. Geographical Institute, Hungarian Academy of Sciences, Budapest.

ERWIN, D. C. – RIBEIRO, O. K. (1996): Phytophthora Diseases Worldwide. St. paul, Minnesota, APS Press The American Phytopathological Society.

GHIMIRE, S. R. – RICHARDSON, P. A. – MOORMAN, G. W. – LEA-COX, J. D. – ROSS, D. S. – HONG, C. X. (2009): An in-situ baiting bioassay for detecting Phytophthora species in irrigation runoff containment basins. Plant Pathology 58 (3): 577–583. http://doi.org/10.1111/j.1365-3059.2008.02016.x

GRIBOVSZKI, Z. – KALICZ, P. – KUCSARA, M. (2006): Characteristics of two forested catchments in the Sopron Hills. Acta Silvatica et Lignaria Hungarica 2:81–92.

HAMMER, Ø. – HARPER, D. A. T. – RYAN, P. D. (2001): PAST: Palaeontological Statistics software package for education and data analysis. Palaeontologia Electronica 4 (1): 9.

HANSEN, E. – DELATOUR, C. (1999): Phytophthora species in oak forests of north-east France. Annals of Forest Science 56: 539–547. https://doi.org/10.1051/forest:19990702

HANSEN, E. M. (2008): Alien forest pathogens: Phytophthora species are changing world forests. Boreal Environment Research 13: 33–41.

HULVEY, J. – GOBENA, D. – FINLEY, L. – LAMOUR, K. (2010): Co-occurrence and genotypic distribution of Phytophthora species recovered from watersheds and plant nurseries of eastern Tennessee Mycologia 102 (5):1127–1133. https://doi.org/10.3852/09-221

HWANG, J. – OAK, S. W. – JEFFERS, S. N. (2007): Detecting Phytophthora ramorum and other species of Phytophthora in streams in natural ecosystems using baiting and filtration methods. Proceedings of the Sudden Oak Death Third Science Symposim: 55–58.

HÜBERLI, D. – HARDY, G. E. St. J. – WHITE, D. – WILLIAMS, N. – BURGESS, T. (2013): Fishing for Phytophthora from Western Australia's waterways: a distribution and diversity survey. Australasian Plant Pathology 42: 25–260. https://doi.org/10.1007/s13313-012-0195-6

JUNG, T. – BLASCHKE, H. – NEUMANN, P. (1996): Isolation, identification and pathogenicity of Phytophthora species from declining oak stands. European Journal of Forest Pathology 26: 253–272. https://doi.org/10.1111/j.1439-0329.1996.tb00846.x

JUNG, T. - BLASCHKE, H. - OSSWALD, W. (2000): Involvement of soilborne Phytophthora species in Central European oak decline and the effect of site factors on the disease. Plant Pathology 49 (6): 706–718.

JUNG, T. – ORLIKOWSKI, L. – HENRICOT, B. – ABAD-CAMPOS, P. – ADAY, A. G. – AQUÍN CASAL, O. – BAKONYI, J. – CACCIOLA, S. O. – CECH, T. – CHAVARRIAGA, D. – CORCOBADO, T. – CRAVADOR, A. – NECOURCELLE, T. – DENTON, G. – DIAMANDIS, S. – DOGMUS-LEHTIJÄRVI, H. T. – FRANCESCHINI, A. – GINETTI, B. – GLAVENDEKIC, M. – HANTULA, J. – HARTMANN, G. – HERRERO, M. – IVIC, D. – HORTA JUNG, M. – LILJA, A. – KECA, N. – KRAMARETS, V. – LYUBENOVA, A. – MACHADO, H. – MAGNANO DI SAN LIO, G. – MANSILLA VÁZQUEZ, P. J. – MARCAIS, B. – MATSIAKH, I. – MILENKOVIC, I. – MORICCA, S. – NAGY, Z. Á. – NECHWATAL, J. – OLSSON, C. – OSZAKO, T. – PANE, A. – PAPLOMATAS, E. J. – PINTOS VARELA, C. – PROSPERO, S. – RIAL MARTINEZ, C. – RIGLING, D. – ROBIN, C. – RYTKÖNEN, A. – SÁNCHEZ, M. E. – SCANU, B. – SCHLENZIG, A. – SCHUMACHER, J. – SLAVOV, S. – SOLLA, A. – SONSA, E. – STENLID, J. – TALGØ, V. – TOMIC, Z. – TSOPELAS, P. – VANNINI, A. – VETTRAINO, A. M. – WENNEKER, M. – WOODWARD, S. – PERÉZ, S. – A. (2015): Widespread Phytophthora infestations in European nurseries put forest, semi-natural and horticultural ecosystems at high risk of Phytophthora diseases. Forest Pathology 46 (2): 134–163. https://doi.org/10.1111/efp.12239

KIRÁLY, G. (2008): Sopron Mountains. In: KIRÁLY, G. – MOLNÁR, Zs. – BÖLÖNI, J. – CSIKY, J. – VOJTKÓ, A. (ed.): Magyarország földrajzi kistájainak növényzete (Vegetation of the Hungarian microregions). MTA ÖBKI Vácrátót (In Hungarian).

KOVÁCS, J. – LAKATOS, F. – SZABÓ, I. (2013): Occurrence and diversity of soilborne Phytophthoras in a declining black walnut stand in Hungary. Acta Silvatica & Lignaria Hungarica 9: 57–69.

MARÇAIS, B. – HUSSON, C. (Ed. 2014): Phytophthora on Alnus spp. (alders). JKI Data Sheets - Plant Diseases and Diagnosis. Quedlinburg, Julius Kühn Institut, Bundesforschungsanstalt für Kulturpflanzen.

ORLIKOWSKI, L. B. – OSZAKO, T. – SZKUTA, G. (2006): First record on Phytophthora spp. associated with the decline of European beech stand in south-west Poland. Phytopathologia Polonica 42: 37–46.

REESER, P. W. – SUTTON, W. – HANSEN, E M. – REMIGI, P. – ADAMS, G. C. (2011): Pytophthora species in forest streams in Oregon and Alaska. Mycologia 103 (1): 22–35. https://doi.org/10.3852/10-013

SANTINI, A. – GHELARDINI, L. – DE PACE, C. – DESPREZ-LOUSTAU, M. – CAPRETTI, P. – CHANDELIER, A. – CECH, Th. L. – 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. – SZABÓ, I. – TSOPELAS, P. – VANNINI, A. – VETTRAINO, A. M. – WEBBER, J. – WOODWARD, S. – STENLID, J. (2012): 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

SÁRÁNDI-KOVÁCS, J. – LAKATOS, F. – SZABÓ, I. (2015): Post-epidemic Situation of a Previously Phytophthora alni Infected Common Alder Stand. Acta Silvatica et Lignaria Hungarica 11 (1): 27–38. https://doi.org/10.1515/aslh-2015-0002

STRNADOVÁ, V. – CERNY, K. – HOLUB, V. – GREGOROVÁ, B. (2010): The effects of flooding and Phytophthora alni infection on black alder. Journal of Forest Science 56 (1): 41–46. https://doi.org/10.17221/67/2009-JFS

SZABÓ, I. – LAKATOS, F. – SIPOS, Gy. (2013):Occurence of soilborne Phytophthora species in declining broadleaved forests in Hungary. European Journal of Plant Pathology 137: 159–168. https://doi.org/10.1007/s10658-013-0228-1

SZMORAD, F. (2011): The riparian alder forests of the Sopron Hills. Acta Silvatica et Lignaria Hungarica 7: 109–124.

TKACZYK, M. – MILENKOVIC, I. – NOWAKOWSKA, J. A. – BORYS, M. – KALUSKI, T. – GAWLAK, M. – CZYZ, M. – OSZAKO, T.(2017): Morphological and molecular identification of Phytophthora species isolated from the rhizosphere of declining oak trees in Krotoszyn Plateau. Genetika 49 (1): 203–215. https://doi.org/10.2298/GENSR1701203T

TJOSVOLD, S. A. – CHAMBERS, D. L. – KOIKE, S. T. – MORI, S. R. (2008): Disease on Nursery Stock as Affected by Environmental Factors and Seasonal Inoculum Levels of Phytophthora ramorum in Stream Water Used for Irrigation. Plant Disease 92 (11): 1566–1573. https://doi.org/10.1094/PDIS-92-11-1566

Judit SÁRÁNDI-KOVÁCS – Ilona SZABÓ – Ferenc LAKATOS: Waterborne Phytophthora Species Occurrence and Diversity in the Valley of the Rák Brook

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Published

2018-06-01

How to Cite

Sárándi-Kovács, J., Szabó, I., & Lakatos, F. (2018). Waterborne Phytophthora Species Occurrence and Diversity in the Valley of the Rák Brook. Acta Silvatica & Lignaria Hungarica, 14(2), 127–144. https://doi.org/10.2478/aslh-2018-0009

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Vol. 14 No. 2 (2018): Acta Silvatica et Lignaria Hungarica

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