PL EN


Preferencje help
Widoczny [Schowaj] Abstrakt
Liczba wyników
2015 | 55 | 3 |

Tytuł artykułu

Fungal communities in barren forest soil after amendment with different wood substrates and their possible effects on trees’, pathogens, insects and nematodes

Treść / Zawartość

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN
Scots pine sawdust, composted bark or coarse, post-harvest woody debris from conifers had been spread over the surface of barren forest soil before planting with Scots pine. The effects of the Scots pine sawdust, composted bark or coarse, post-harvest woody debris from conifers on the abundance and diversity of culturable fungi were investigated. The amendments were aimed at increasing the soil suppressiveness to Armillaria and Heterobasidion. The classical soil-dilution method was chosen for qualitative and quantitative analyses of fungal communities in soils because of its proven reliability and consistency. The soil was inhabited by saprotrophic fungi from Ascomycota and Zygomycota, including species known to be potential antagonists of Armillaria or H. annosum (i.e. Clonostachys + Trichoderma spp., Penicillium commune, P. daleae, P. janczewskii) or stimulants of Armillaria (i.e. Pseudogymnoascus roseus, Trichocladium opacum). Eleven years after treatment, the abundance and diversity of fungi, the abundance of P. commune, and locally the abundance of P. janczewskii increased, while Clonostachys + Trichoderma spp., and locally, P. daleae and T. opacum decreased. Amending the barren soil with organic matter does not guarantee effective, long-term suppressiveness of the sandy loam soil to Armillaria and Heterobasidion. Increased abundance of entomopathogenic and nematophagous species, 11 years after treatment, does suggest the long-term possibility of insect or nematode control in soil.

Wydawca

-

Rocznik

Tom

55

Numer

3

Opis fizyczny

p.301-311,fig.,ref.

Twórcy

autor
  • Department of Forest Protection, Forest Research Institute, Sekocin Stary, Braci Lesnej 3, 05-090 Raszyn, Poland
autor
  • Department of Forest Pathology, Poznan University of Life Sciences, Wojska Polskiego 71c, 60-625 Poznan, Poland
autor
  • Department of Forest Pathology, Poznan University of Life Sciences, Wojska Polskiego 71c, 60-625 Poznan, Poland

Bibliografia

  • Barron G.L. 1968. The Genera of Hyphomycetes from the Soil. The Williams & Wilkins Co., Baltimore, USA, 364 pp.
  • Bååth E., Söderström B.E. 1980. Degradation of macromolecules by microfungi isolated from different podzolic soil horizons. Canadian Journal of Botany 58 (4): 422–425.
  • Couture M., Fortin J.A., Dalpe Y. 1983. Oidiodendron griseum Robak: an endophyte of ericoid mycorrhiza in Vaccinium spp. New Phytologist 95 (3): 375–380.
  • Dai Y-C., Vainio E.J., Hantula J., Niemelä T., Korhonen K. 2003. Investigations on Heterobasidion annosum s. lat. in central and eastern Asia with the aid of mating tests and DNA fingerprinting. Forest Pathology 33 (5): 269–286.
  • Dai Y-C., Yuan H.S., Wei Y.L., Korhonen K. 2006. New records of Heterobasidion parviporum from China. Forest Pathology 36 (4): 287–293.
  • Dalpé Y. 1991. Statut endomycorrhizien du genre Oidiodendron. Canadian Journal of Botany 69 (8): 1712–1714.
  • Dashtban M., Buchkowski R., Qin W. 2011. Effect of different carbon sources on cellulase production by Hypocrea jecorina (Trichoderma reesei) strains. International Journal of Biochemistry and Molecular Biology 2 (3): 274–286.
  • Deacon L.J., Pryce-Miller E.J., Frankland J.C., Bainbridge B.W., Moore P.D., Robinson C.H. 2006. Diversity and function of decomposer fungi from a grassland soil. Soil Biology and Biochemistry 38 (1): 7–20.
  • Dettman J.R., van der Kamp B.J. 2001. The population structure of Armillaria ostoyae and Armillaria sinapina in the central interior of British Columbia. Canadian Journal of Botany 79 (5): 600–611.
  • Domsch K.H., Gams W., Anderson T.H. 1980. Compendium of Soil Fungi. Academic Press, London, UK, 672 pp.
  • Duda B., Sierota Z.H. 1987. Survival of Scots pine seedlings after biological and chemical control of damping-off in plastic greenhouses. Forest Pathology 17 (2): 110–117.
  • Eichorst S.A., Kusk C.R. 2012. Identification of cellulose-responsive bacterial and fungal communities in geographically and edaphically different soils by using stable isotope probing. Applied of Environental Microbiology 78 (8): 2316–2327.
  • Gams W., Diederich P., Poldmaa K. 2004. Fungicolous fungi. p. 344–391. In: “Biodiversity of Fungi: Inventory and Monitoring Methods” (G.M. Mueller, G.F. Bills, M.S. Foster, eds.). Elsevier Academic Press, Burlington, MA, USA, 777 pp.
  • Grantina-Ievina L., Kasparinskis R., Tabors G., Nikolajeva V. 2013. Features of saprophytic soil microorganism communities in conifer stands with or without Heterobasidion annosum sensu lato infection: a special emphasis on Penicillium spp. Environmental and Experimental Biology 11: 23–38.
  • Gregory S.C., Rishbeth J., Shaw C.G III. 1991. Pathogenicity and virulence. p. 76–87. In: “Armillaria Root Disease” (C.G III Shaw, G.A. Kile, eds.). Agriculture Handbook No. 691, United States Department of Agriculture, Forest Service, Washington, DC, USA, 233 pp.
  • Highley T.L. 1990. Laboratory studies on antagonism of Scytalidium lignicola to wood decay fungi. Material und Organismen 25 (3): 181–192.
  • Highley T.L. 1994. Effect of Scytalidium lignicola on decay resistance and strength of wood. International Research Group on Wood Preservation. Document NoIRG/WP/94–10061.
  • Hoitink H.A.J., Schmitthenner A.F., Herr L.J. 1975. Composted bark for control of root rot in ornamentals. Ohio Report on Research and Development 60: 25–26.
  • Hoitink H.A.J., Herr L.J., Schmitthenner A.F. 1976. Survival of some plant pathogens during composting of hardwood tree bark. Phytopathology 66 (11): 1369–1372.
  • Inglis P.W., Tigano M.S. 2006. Identification and taxonomy of some entomopathogenic Paecilomyces spp. (Ascomycota) isolates using rDNA-ITS sequences. Genetics and Molecular Biology 29 (1): 132–136.
  • Kile G.A., McDonald G.I., Byler J.W. 2001. Ecology and disease in natural forests. p. 102–121. In: “Armillaria Root Disease” (C.G. III Shaw, G.A. Kile, eds.). Agriculture Handbook No. 691, United States Department of Agriculture, Forest Service, Washington, DC, USA, 233 pp.
  • Klich M.A., Pitt J.I. 1992. A Laboratory Guide to the Common Aspergillus Species and their Teleomorphs. Commonwealth Scientific and Industrial Research Organisation, Division of Food Processing, North Ryde, New South Wales, Australia, 116 pp.
  • Korhonen K., Capretti P., Karjalainen R., Stenlid J. 1998. Distribution of Heterobasidion annosum intersterility groups in Europe. p. 93–104. In: “Heterobasidion annosum: Biology, Ecology, Impact and Control” (S. Woodward, J. Stenlid, R. Karjalainen, A. Hüttermann, eds.). CABI, Wallingford, UK, 589 pp.
  • Korhonen K., Stenlid J. 1998. Biology of Heterobasidion annosum. p. 43–70. In: “Heterobasidion annosum: Biology, Ecology, Impact and Control” (S. Woodward, J. Stenlid, R. Karjalainen, A. Hüttermann, eds.). CABI, Wallingford, UK, 589 pp.
  • Kwaśna H. 1995. Fungal communities in soil beneath Scots pine and their stumps. Effect of fungi on Heterobasidion annosum and Armillaria ostoyae growth. Acta Mycologica 30 (2): 193–205.
  • Kwaśna H. 1997a. Antagonistic effect of fungi communities from Scots pine fine roots on Heterobasidion annosum (Fr.) and Armillaria ostoyae (Romagn.) Herink growth. Phytopathologia Polonica 13: 133–146.
  • Kwaśna H. 1997b. Antagonistic effect of fungi from Scots pine stump roots on Heterobasidion annosum and Armillaria ostoyae. Acta Mycologica 32 (2): 369–381.
  • Kwaśna H. 1997c. Fungi on the surface of roots of Scots pine and its stumps and effect on Heterobasidion annosum (Fr.) Bref. and Armillaria ostoyae (Romagn.) Herink growth. Polish Agricultural Annual, ser. E, 26 (1/2): 109–123.
  • Kwaśna H. 2001. Fungi in the rhizosphere of common oak and its stumps and their possible effect on infection by Armillaria. Applied Soil Ecology 17 (3): 215–227.
  • Kwaśna H. 2002. Changes in microfungal communities in roots of Quercus robur stumps and their possible effect on colonization by Armillaria. Journal of Phytopathology 150 (7): 403–411.
  • Kwaśna H., Bateman G.L., Ward E. 2008. Determining species diversity of microfungal communities in forest tree roots by pure-culture isolation and DNA sequencing. Applied Soil Ecology 40 (1): 44–56.
  • Kwaśna H., Kotyńska U., Łakomy P., Mallett K. 2001. Stimulation of Armillaria rhizomorph formation by oak root fungi. Acta Mycologica 36 (2): 257–272.
  • Kwaśna H., Sierota Z., Bateman G.L. 2000. Fungal communities in fallow soil before and after amending with pine sawdust. Applied Soil Ecology 14 (2): 177–182.
  • Kwaśna H., Nirenberg H. 1994. The effectiveness of two methods used for isolating soil fungi. Acta Mycologica 29 (1): 13–22.
  • Kwaśna H., Walkowiak U., Łakomy P., Gornowicz R., Mikiciński A., Gałązka S., Szewczyk W. 2014. An effect of different silviculture techniques on the functional diversity of microorganisms in soil of Pinus sylvestris plantation. Journal of Plant Protection Research 55 (3): 241–253.
  • Magurran A.E. 1988. Ecological Diversity and its Measurement. Princeton University Press, Princeton, NJ, USA, 179 pp.
  • Nayebyazdi N., Salary M., Ghanbary M.A.T., Ghorbany M., Bahmanyar M.A. 2012. Investigation of cellulase activity in some soil borne fungi isolated from agricultural soils. Annals of Biological Reseach 3: 5705–5713.
  • Nikolajeva V., Petrina Z., Vulfa L., Alksne L., Eze D., Grantina L., Gaitnieks T., Lielpetere A. 2012. Growth and antagonism of Trichoderma spp. and conifer pathogen Heterobasidion annosum s.l. in vitro at different temperatures. Advances in Microbiology 2 (3): 295–302.
  • Nilsson T. 1973. Studies on wood degradation and cellulolytic activity of microfungi. Studia Forestalia Suecica 104: 1–40.
  • Nona D.A., Blake M.I., Crespi H.L., Katz J.J. 1968. Effect of deuterium oxide on the culturing of Penicillium janczewskii II. Isolation of fully deuterated griseofulvin. Journal of Pharmaceutical Sciences 57 (6): 975–979.
  • Otrosina W.J., Garbelotto M. 2010. Heterobasidion occidentale sp. nov. and Heterobasidion irregulare nom. nov.: a disposition of North American Heterobasidion biological species. Fungal Biology 114 (1): 16–25.
  • Pitt J. 1979. The Genus Penicillium and its Teliomorphic States Eupenicillium and Talaromyces. Academic Press, New York, USA, 634 pp.
  • Quesada-Moraga E., Herrero N., Zabalgogeazcoa I. 2014. Entomopathogenic and nematophagous fungal endophytes. Advances in Endophytic Research 1: 85–99.
  • Rajput A.Q., Khanzada M.A., Shahzad S. 2014. Effect of different organic substrates and carbon and nitrogen sources on growth and shelf life of Trichoderma harzianum. Journal of Agricultural Science and Technology 16 (4): 731–745.
  • Raper K.B., Thom C. 1949. A Manual of the Penicillia. Williams & Wilkins Co. Baltimore, USA, 875 pp.
  • Richard F., Moreau P.A., Selosse M.A., Gardes M. 2004. Diversity and fruiting patterns of ectomycorrhizal and saprobic fungi in an old-growth Mediterranean forest dominated by Quercus ilex L. Canadian Journal of Botany 82 (12): 1711–29.
  • Rombach M.C., Shepard B.M., Roberts D.W. 1986. Biological control: Insect pathogens. In: “Management of Rice Insects” (E.A. Henrichs, ed.). Wiley, New York, USA, 791 pp.
  • Rubino D.L., McCarthy B.C. 2003. Composition and ecology of macrofungal and myxomycete communities on oak woody debris in a mixed-oak forest of Ohio. Canadian Journal of Forest Research 33 (11): 2151–2163.
  • Sierota Z. 1995. Rola grzyba Phlebiopsis gigantea (Fr.:Fr.) Julich w ograniczaniu huby korzeni w drzewostanach sosny zwyczajnej (P. sylvestris L.) na gruntach porolnych. [The Role of the Fungus Phlebiopsis gigantea (Fr.:Fr.) Jülich as a Limiting Factor of the Heterobasidion annosum (Fr.) Bref. in the Scots Pine (Pinus sylvestris L.) Stands in Post-agricultural Lands]. Prace Instytutu Badawczego Leśnictwa, Warszawa, 810 pp.
  • Sierota Z. 2013. Heterobasidion root rot in forests on former agricultural lands in Poland: Scale of threat and prevention. Academic Journal 8 (47): 2298–2305.
  • Sierota Z., Kwaśna H. 1988. Effect of pine sawdust on structure of soil fungi communities in the soils of post agricultural land. Acta Mycologica 33 (1): 77–90.
  • Sierota Z., Kwaśna H. 1998. Changes in fungal communities in abandoned farmland soil enriched with pine sawdust. Folia Forestalia Polonica. Series A. Forestry 40: 85–94.
  • Sierota Z., Kwaśna H. 1999. Ocena mikologiczna zmian zachodzących w glebie gruntu porolnego po dodaniu trocin iglastych. [A mycological assessment of changes occurring in the post-agricultural land soil after adding softwood sawdust]. Sylwan 4: 57–66.
  • Stursová M., Zifčáková L., Leigh M.B., Burgess R., Baldrian P. 2012. Cellulose utilization in forest litter and soil: identification of bacterial and fungal decomposers. FEMS Microbiology Ecology 80 (3): 735–746.
  • Sun M., Liu X. 2006. Carbon requirements of some nematophagous, entomopathogenic and mycoparasitic hyphomycetes as fungal biocontrol agents. Mycopathologia 161 (5): 295–305.
  • Szwajkowska-Michałek L., Kwaśna H., Łakomy P., Perkowski J. 2012. Inhibition of Armillaria and Heterobasidion growth by Penicillium adametzii isolated from Pinus sylvestris forest soil. Forest Pathology 42 (6): 454–466.
  • Tarwacki G. 2013. Krótkoterminowa prognoza występowania ważniejszych szkodników i chorób infekcyjnych drzew leśnych w Polsce w 2013 roku. [Short-term prognosis of occurrence of the important pests and diseases of trees in Poland in 2013]. Instytut Badawczy Leśnictwa: 1–173.
  • Tischler W. 1949. Grundzüge der terrestrischen Tierökologie. Friedrich Vieweg und Sohn, Braunschweig, Germany, 219 pp.
  • Trojanowski J., Heider K. 1975. Degradation of phenolic compounds by soft rot and white rot fungi. p. 417–418. In: “Biodegradation and Humification” (G. Kilbertus, O. Reisinger, A Mourey, J.A. Consela da Fonseca, eds.). Pierron, Sarreguemines, France, 496 pp.
  • van der Heijden M.G.A., Klironomos J.N., Ursic M., Moutoglis P., Streitwolf-Engel R., Boller T., Wiemken A., Sanders I.R. 1998. Mycorrhizal fungal diversity determines plant biodiversity, ecosystem variability and productivity. Nature 396: 69–72.
  • van Elsas J.D., Boersma F.G.H. 2011. Review of molecular methods to study the microbiota of soil and the mycosphere. European Journal of Soil Biology 47 (2): 77–87.
  • Warcup J.H. 1950. The soil-plate method for isolation of fungi from soil. Nature 166: 117–118.
  • Warcup J.H. 1955. Isolation of fungi from hyphae present in soil. Nature 175: 953–954.
  • Watanabe T. 1980. A new variety of Verticillium sphaerosporum, an endoparasite of nematodes and its antagonism to soilborne plant pathogens. Japanese Journal of Phythopthology 46 (5): 598–605.
  • Werner A., Werner M., Kwaśna H. 2001. Grzyby wybranych środowisk gleb użytkowanych rolniczo i ugorów. [Fungi in some agricultural soils or banen soils]. p. 287–295. In: „Drobnoustroje środowiska glebowego – aspekty fizjologiczne, biochemiczne, genetyczne”. [“Microorganisms in soil habitat – physiological, biochemical and genetical aspects“] (H. Dahm, A. Pokojska-Burdziej, eds.). Adam Marszałek, Toruń, Poland, 331 pp.
  • Werner A., Zadworny M. 2002. Interaction between microfungi from arable and fallow land soils and Heterobasidion annosum in vitro. Dendrobiology 4: 51–58.
  • Worrall J.J., Harrington T.C., Blodgett J.T., Conklin D.A., Fairweather M.L. 2010. Heterobasidion annosum and H. parviporum in the southern Rocky Mountains and adjoining states. Plant Disease 94 (1): 115–118.
  • Zając S., Kwiecień R. 2001. Niektóre aspekty modyfikacji krajowego programu zwiększania lesistości. [Some aspects of modification of the National Program for the Augmentation of Forest Cover]. Sylwan 10: 23–34.
  • Żółciak A. 2007. Armillaria species in coniferous stands. Acta Mycologica 42 (2): 211–217.

Typ dokumentu

Bibliografia

Identyfikatory

Identyfikator YADDA

bwmeta1.element.agro-f1c5d06f-fe00-43f4-8bf8-9fe3a679a9aa
JavaScript jest wyłączony w Twojej przeglądarce internetowej. Włącz go, a następnie odśwież stronę, aby móc w pełni z niej korzystać.