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2019 | 28 | 3 |

Tytuł artykułu

Soil properties conducive to the formation of Tuber aestivum Vitt. fruiting bodies

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN
Summer truffle (Tuber aestivum), also known as Burgundy truffle, is getting interest in Poland in terms of cultivation as a promising incentive for rural areas. Yet the occurrence of the fungus in wider scale in our country has been confirmed in the last decade. Ecological factors that determine the occurrence of T. aestivum are rather well known in the Mediterranean region, whereas such knowledge is limited in northern Europe. The aim of this work was to find the correlations between essential nutrients in surface horizons of soils typical of truffle occurrence. The study area is situated in the Nida Basin in southern Poland. Principal component analysis (PCA) showed that active carbonate content is the variable that accounts for the greatest percentage of occupancy in the T. aestivum habitat. In this paper we propose that active carbonate is a major factor in the fruiting of summer truffle. The obtained results could have applications in natural harvesting and truffle culture.

Słowa kluczowe

Wydawca

-

Rocznik

Tom

28

Numer

3

Opis fizyczny

p.1713-1718,fig.,ref.

Twórcy

  • Department of Forest Ecology, Forest Research Institute, Raszyn, Poland
autor
  • Department of Forest Protection, Forest Research Institute, Raszyn, Poland
autor
  • Department of Forest Protection, Forest Research Institute, Raszyn, Poland
  • Department of Forest Ecology, Forest Research Institute, Raszyn, Poland

Bibliografia

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  • 2. CHEVALIER G. The truffle of Europe (Tuber aestivum): geographic limits, ecology and possibility of cultivation. In Proceedings of the First Conference on the “European” Truffle, Greilhuber A., Hausknecht I., Urban A., Eds., Wien, Austria: Österreichische Mykologische Gesellschaft, 249, 2010.
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  • 5. ROSA-GRUSZECKA A., HILSZCZAŃSKA D., GIL W., KOSEL B. Truffle renaissance in Poland – history, present and prospects. Journal of Ethnobiology and Ethnomedicine, 13 (1), 36, 2017.
  • 6. HILSZCZAŃSKA D., SIEROTA Z., PALENZONA M. New Tuber species found in Poland. Mycorrhiza, 18 (4), 223, 2008.
  • 7. HILSZCZAŃSKA D., ROSA-GRUSZECKA A., SIKORA K., SZMIDLA H. First report of Tuber macrosporum occurrence in Poland. Scientific Research and Essays, 8 (23), 1096, 2013.
  • 8. ROSA-GRUSZECKA A., HILSZCZAŃSKA D., SZMIDLA H. Environmental conditions that promote the occurrence of truffles (Tuber spp.) on historical sites in Poland. Forest Research Papers, 75 (1), 5, 2014.
  • 9. GRYNDLER M., BESKID O., HUJSLOVÁ M., KONVALINKOVÁ T., BUKOVSKÁ P., ZEMKOVÁ L., HRŠELOVÁ H., JANSA J. Soil receptivity for ectomycorrhizal fungi: Tuber aestivum is specifically stimulated by calcium carbonate and certain organic compounds, but not mycorrhizospheric bacteria. Applied Soil Ecology, 117-118 (May), 38, 2017.
  • 10. STOBBE U., EGLI S., TEGEL W., PETER M., SPROLL L., BÜNTGEN U. Potential and limitations of Burgundy truffle cultivation. Applied Microbiology and Biotechnology, 97 (12), 5215, 2013.
  • 11. GARCÍA-MONTERO L.G., DÍAZ P., MARTÍN-FERNÁNDEZ S., CASERMEIRO M. A. Soil factors that favour the production of Tuber melanosporum carpophores over other truffle species: a multivariate statistical approach. Acta Agriculturae Scandinavica, Section B – Soil & Plant Science, 58 (4), 322, 2008.
  • 12. MOSER B., BÜNTGEN U., MOLINIER V., PETER M., SPROLL L., STOBBE U., TEGEL W., EGLI, S. Ecological indicators of Tuber aestivum habitats in temperate European beech forests. Fungal Ecology, 29, 59, 2017.
  • 13. GRYNDLER M., ČERNÁ L., BUKOVSKÁ P., HRŠELOVÁ H., JANSA J. Tuber aestivum association with non-host roots. Mycorrhiza, 24 (8), 603, 2014.
  • 14. HILSZCZAŃSKA D., ROSA-GRUSZECKA A., SZMIDLA, H. Characteristic of Tuber spp. localities in natural stands with emphasis on plant species composition. Acta Mycologica, 49 (2), 267, 2014.
  • 15. TRACZYK T. Próba podsumowania badań nad ekologicznym zróżnicowaniem grądów w Polsce. Acta Societatis Botanicorum Poloniae, 31 (4), 621, 1962.
  • 16. MOLINIER V., PETER M., STOBBE U., EGLI S. The Burgundy Truffle (Tuber aestivum syn. uncinatum): A Truffle Species with a Wide Habitat Range over Europe BT. In True Truffle (Tuber spp.) in the World: Soil Ecology, Systematics and Biochemistry. Zambonelli A., Iotti M., Murat C., Eds., Springer International Publishing, 33, 2016.
  • 17. HILSZCZAŃSKA D., SIEBYŁA M., HORAK J., KRÓL M., PODSADNI P., STECKIEWICZ P., BAMBUROWICZ-KLIMKOWSKA M., SZUTOWSKI M.,TURŁO J. Comparison of Chemical Composition in Tuber aestivum Vittad. of Different Geographical Origin. Chemistry & Biodiversity, 13 (12), 1617, 2016.
  • 18. MONFORT-SALVADOR I., GARCÍA-MONTERO L., GRANDE M. Impact of calcium associated to calcareous amendments on ectomycorrhizae in forests: a review. Journal of soil science and plant nutrition, 15 (1), 217, 2015.
  • 19. GARCÍA-MONTERO, L. G., VALVERDE-ASENJO, I., MORENO, D., DÍAZ, P., HERNANDO, I., MENTA, C., TARASCONI, K. Influence of Edaphic Factors on Edible Ectomycorrhizal Mushrooms: New Hypotheses on Soil Nutrition and C Sinks Associated to Ectomycorrhizae and Soil Fauna Using the Tuber Brûlé Model. In Edible Ectomycorrhizal Mushrooms: Current Knowledge and Future Prospects. Zambonelli A., Bonito G.M., Eds., Springer Berlin Heidelberg, Germany, 83, 2012.
  • 20. CHEVALIER G., SOURZAT P. Soils and Techniques for Cultivating Tuber melanosporum and Tuber aestivum in Europe. In Edible Ectomycorrhizal Mushrooms: Current Knowledge and Future Prospects. Zambonelli A., Bonito G.M., Eds., Springer Berlin Heidelberg, Berlin, Heidelberg, Germany, 163, 2012.
  • 21. WEDÉN C., PETTERSSON L., DANELL E. Truffle cultivation in Sweden: Results from Quercus robur and Corylus avellana field trials on the island of Gotland. Scandinavian Journal of Forest Research, 24 (1), 37, 2009.
  • 22. GÓGÁN A.C., NAGY Z., DÉGI Z., BAGI I. Ecological characteristics of a Hungarian summer truffle (Tuber aestivum Vittad .) producing area. Acta Mycologica, 47 (2), 133, 2012.
  • 23. THOMAS P.W. The role of pH in Tuber aestivum syn. uncinatum mycorrhiza development within commercial orchards. Acta Mycologica, 47 (2), 161, 2012.
  • 24. PONCE A.R., ÁGREDA T., ÁGUEDA B., ALDEA J., MARTÍNEZ-PEÑA F., MODREGO M.P. Soil physical properties influence “black truffle” fructification in plantations. Mycorrhiza, 24 (S1), 55, 2014.
  • 25. JAILLARD B., BARRY-ETIENNE D., COLINAS C., DE MIGUEL A. M., GENOLA L., LIBRE A., NEVUE P., OLIACH D., SAENZ W., SÁEZ M., SALDUCCI X., SOUCHE G., SOURZATE P., VILLENEUVE M. Alkalinity and structure of soils determine the truffle production in the Pyrenean Regions. Forest Systems, 23 (2), 364, 2014.
  • 26. ROBIN C., GOUTAL-POUSSE N., LE TACON F. Soil Characteristics for Tuber aestivum (Syn. T. uncinatum). In True Truffle (Tuber spp.) in the World: Soil Ecology, Systematics and Biochemistry. Zambonelli A., Iotti M., Murat C., Eds., Springer International Publishing, 211, 2016.

Typ dokumentu

Bibliografia

Identyfikatory

Identyfikator YADDA

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