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2015 | 159 | 07 |

Tytuł artykułu

Gatunki Phytophthora i Pythium w glebie i w korzeniach dębu szypułkowego na terenach popowodziowych w Nadleśnictwie Wołów

Treść / Zawartość

Warianty tytułu

EN
Phytophthora and Pythium species in soils and in roots of the pedunculate oaks in periodically flooded areas in Wolow Forest District

Języki publikacji

PL

Abstrakty

EN
Phytophthora and Pythium species (Oomycota) are known to be serious pathogens of forest trees. Little is known, however, about their presence in Polish oak forests and their role in the oak decline, especially in the flooded areas. The aim of this study was (1) to detect and compare populations of microorganisms from Oomycota and fungi in roots and soil of healthy and declining pedunculate 30−126 years old oak stands, which had been flooded by the Odra River for three months in 1997 and one month in 2010, (2) to demonstrate the relationship between different chemical factors of soil and the occurrence of microorganisms, and (3) to assess the contribution of Oomycota to oak decline. Study was carried out in Wołów Forest District (south−western Poland). Microorganisms were isolated from fine (1−5 mm in diameter) roots and non−rhizosphere soil collected from 0−50 cm horizon. Isolation procedure from roots included surface sterilization and plating the root segments on the nutrient agar. An oak leaf baiting method was used for isolation of Oomycota from soil. Identification of microorganisms was based on morphology and sequencing of the ITS1/2 rDNA. Oomycota was represented by: Globisporangium, Phytophthora and Pythium and fungi mostly by: Aspergillus, Chaetosphaeria, Cylindrocarpon, Mortierella, Mucor, Penicillium, Trichoderma and Umbelopsis. Globisporangium attrantheridium (syn. Pythium attrantheridium) occurred locally and was found in roots of only one flooded oak. This is the first record of this species on oak and in Poland. G. intermedium, P. gibbosa/P. gregata, P. plurivora and Pythium sp. were found in soil of flooded and non−flooded (control) oak stands. The organisms occurred in podzolized brown soils, brown alluvial soils and gley soils that had most nitrogen (21−60 mg/kg), various amounts of calcium (61.1−347.6 mg/100g) and moderate acidity (pH=3.85−4.2). There was often a significant association between exposure to flood and the health status of oak trees assessed by the scale of defoliation. Oomycota seemed to be only moderately associated with increased tree defoliation as a symptom of oak decline.

Wydawca

-

Czasopismo

Rocznik

Tom

159

Numer

07

Opis fizyczny

s.531-539,tab.,bibliogr.

Twórcy

autor
  • Katedra Fitopatologii Leśnej, Uniwersytet Przyrodniczy w Poznaniu, ul.Wojska Polskiego 71c, 60-625 Poznań
autor
  • Katedra Fitopatologii Leśnej, Uniwersytet Przyrodniczy w Poznaniu, ul.Wojska Polskiego 71c, 60-625 Poznań
  • Katedra Fitopatologii Leśnej, Uniwersytet Przyrodniczy w Poznaniu, ul.Wojska Polskiego 71c, 60-625 Poznań

Bibliografia

  • Akilli S., Ulubaş−Serçe Ç., Katircioglu Y. Z., Maden S. 2013. Does Pythium anandrum contribute to the dieback of sessile oak (Quercus petraea) in Turkey? Forest Pathology 43: 505−508.
  • Allain−Boulé N., Tweddell R., Mazzola M., Bélanger R., Lévesque C. A. 2004. Pythium attrantheridium sp. nov.: taxonomy and comparison with related species. Mycological Research 108: 795−805.
  • Balci Y., Halmschlager E. 2003a. Phytophthora species in oak ecosystems in Turkey and their association with declining oak trees. Plant Pathology 52: 694−700.
  • Balci Y., Halmschlager E. 2003b. Incidence of Phytophthora species in oak forests in Austria and their possible involvement in oak decline. Forest Pathology 33: 157−74.
  • Belisario A., Cacciola O., Magnano di San Lio G. 1997. Phytophthora cactorum on walnut seedlings in Italian nurseries. European Journal of Forest Pathology 27: 137−146.
  • Belisario A., Maccaroni M., Vettraino A. M., Valier A., Vannini A. 2006. Phytophthora species associated with decline and death of English walnut in Italy and France. Acta Horticulturae 705: 401−407.
  • Borecki T., Keczyński A. 1992. Atlas ubytku aparatu asymilacyjnego drzew leśnych. Agencja ATUT, Warszawa.
  • Brasier C. M., Robredo F., Ferraz J. F. P. 1993. Evidence for Phytophthora cinnamomi involvement in Iberian oak decline. Plant Pathology 42: 140−5.
  • Camy C., Delatour C., Marcais B. 2003. Relationships between soil factors, Quercus robur health, Collybia fusipes root infection and Phytophthora presence. Annals of Forest Science 60: 419−426.
  • Domsch K. H., Gams W., Anderson Traute−Heidi. 1980. Compendium of Soil Fungi. Academic Press.
  • Jankowiak R., Stępniewska H., Bilański P., Kolařík M. 2014. Occurrence of Phytophthora plurivora and other Phytophthora species in oak forests of southern Poland and their association with site conditions and the health status of trees. Folia Microbiologica (Praha) 59 (6): 531−42.
  • Jönsson U. 2004. Phytophthora and oak decline – impact on seedlings and mature trees in forest soils. PhD Thesis− introductory. Lund. Sweden. 1−44.
  • Jung T., Blaschke H., Neumann P. 1996. Isolation, identification and pathogenicity of Phytophthora species from declining oak stands. European Journal of Forest Pathology 26: 253−72.
  • 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: 706−18.
  • Jung T., Blaschke H., Oßwald W. 2003a. Effect of environmental constraints on Phytophthora−mediated oak decline in central Europe. W: McComb J. A., Hardy G. E., Tommerup I. [red.]. Phytophthora in forests and natural ecosystems. Proceedings of the Second International Meeting of IUFRO Working Party 7.02.09, 2001. Albany. Western Australia. Perth. Australia. Murdoch University Print. 89−98.
  • Jung T., Cooke D. E. L., Blaschke H., Duncan J. M., Osswald W. 1999. Phytophthora quercina sp. nov., causing root rot of European oaks. Mycological Research 103: 785−798.
  • Jung T., Hansen E. M., Winton L., Osswald W., Delatour C. 2002. Three new species of Phytophthora from European oak forests. Mycological Research 106: 397−411.
  • Jung T., Nechwatal J., Cooke D. E. L., Hartmann G., Blaschke M., Osswald W. F., Duncan J. M., Delatour C. 2003b. Phytophthora pseudosyringae sp. nov., a new species causing root and collar rot of deciduous tree species in Europe. Mycological Research 107: 772−789.
  • Kelly S., Guest D., Daniel R. 2013. Elevated soil nitrogen increases the severity of dieback due to Phytophthora cinnamomi. Australasian Plant Patholology 42:155−162.
  • Małecka M. 2013. Choroby korzeni. W: Krótkoterminowa prognoza występowania ważniejszych szkodników i chorób infekcyjnych drzew leśnych w Polsce w 2014 roku. Instytut Badawczy Leśnictwa. Analizy i Raporty 22: 144−146.
  • Marçais B., Dupuis F., Desprez−Loustau M. L. 1993. Influence of water stress on susceptibility of red oak (Quercus rubra) to Phytophthora cinnamomi. European Journal of Forest Pathology 23: 295−305.
  • Maurel M., Robin C., Capron G., Desprez−Loustau M. L. 2001. Effects of root damage associated with Phytophthora cinnamomi on water relations, biomass accumulations, mineral nutrition and vulnerability to water deficit of five oak and chestnut species. Forest Pathology 31: 353−369.
  • Oleksyn J., Przybył K. 1987. Oak decline in the Soviet Union. Scale and hypotheses. European Journal of Forest Pathology 17: 321−336.
  • Oszako T. 2000. Oak declines in Europe's forest – history, causes and hypothesis. W: Oszako T., Delatour C. [red.]. Recent advances on oak health in Europe. Warsaw. Poland: Forest Research Institute. 11−40.
  • Rizzo D. M., Garbelotto M., Davidson J. M., Sloughter G. W., Koike S. T. 2002. Phytophthora ramorum as the cause of extensive mortality of Quercus spp. & Lithocarpus densiflorus in California. Plant Disease 86: 205−214.
  • Robin C., Capron G., Desprez−Loustau M. L. 2001. Root infection by Phytophthora cinnamomi in seedlings of three oak species. Plant Pathology 50: 708−716.
  • Robin C., Desprez−Loustau M. L., Capron G., Delatour C. 1998. First record of Phytophthora cinnamomi on cork and holm oaks in France and evidence of pathogenicity. Annals of Forest Science 55: 869−883.
  • Romero M. A., Sanchez J. E., Jimenez J. J., Belbahri L., Trapero A., Lefort F., Sanchez M. E. 2007. New Pythium taxa causing root rot on Mediterranean Quercus Species in south−west Spain and Portugal. Journal of Phytopathology 155: 289−295.
  • Sánchez M. E., Caetano P., Ferraz J., Trapero A. 2002. Phytophthora disease of Quercus ilex in south−western Spain. Forest Pathology 32: 5−18.
  • Szabó I., Lakatos F., Sipos G. 2013. Occurrence of soilborne Phytophthora species in declining broadleaf forests in Hungary. European Journal of Plant Pathology 137:159−168.
  • Tsao P. H. 1990. Why many Phytophthora root rots and crown rots of tree and horticultural crops remain undetected. Bulletin OEPP/EPPO Bulletin 20. 11−17.
  • Ukthede R. S., Smith E. M. 1995. Effect of nitrogen form and application method on incidence and severity of Phytophthora crown and root rot of apple trees. European Journal of Plant Pathology 101: 283−289
  • White T. J., Bruns T., Lee S., Taylor J. W. 1990. Amplification and direct sequencing of fungal ribosomal RNA genes for phylogenetics. W: Innis M. A., Gelfand D. H., Sninsky J. J., White T. J. [red.]. PCR Protocols: A Guide to Methods and Applications. Academic Press. Inc. New York. 315−322.

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Bibliografia

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