Inoculation, isolation and identification of Tuber melanosporum from old and new oak hosts in Israel

Y. PINKAS; M. MAIMON; E. SHABI; S. ELISHA; Y. SHMULEWICH; S. FREEMAN

doi:10.1017/S0953756299001458

Abstract

Five local oak species, Quercus boissieri, Q. calliprinus, Q. cerris, Q. ithaburensis and Q. libani were identified as hosts of Tuber melanosporum, the black truffle of Perigord, following inoculation of roots. Q. cerris and Q. libani developed abundant mycorrhizal roots, similar to the amount found in roots of Q. pubescens, the traditional host of this mycorrhizal fungus. Roots of Q. ilex, Q. hartwissiana and Q. pedunculiflora, introduced species in Israel, were also heavily colonized by the mycorrhizal fungus. Mycorrhized hazel (Corylus avellana) roots, were also obtained by the same inoculation procedure. Recovery of T. melanosporum from roots of inoculated oak was improved when chloramphenicol was added to the isolation medium. Recovery varied between 14 and 54% for C. avellana and Q. calliprinus, respectively. Recovery was highest for the two local species, Q. calliprinus (54%) and Q. boissieri (50%), followed by Q. pubescens (44%) and Q. ilex (41%). Identification of the isolated fungi was conducted using arbitrarily-primed PCR. Identical band patterns were observed among AP-PCR-amplified DNA extracted from an authentic culture of the fungus, ascocarps (truffles) and cultures isolated from roots. In addition, AP-PCR was reliable for differentiating between representative isolates of T. melanosporum, T. magnatum, T. borchii, T. maculatum, T. dryophilum, T. macrosporum and T. uncinatum.

Crossref Citations

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Yun, Wang and Hall, Ian R 2004. Edible ectomycorrhizal mushrooms: challenges and achievements. Canadian Journal of Botany, Vol. 82, Issue. 8, p. 1063.

Ventura, Yvonne Mills, David Kagan-Zur, Varda Roth-Bejerano, Nurit and Bustan, Amnon 2006. Mycorrhized Ri-transformed roots facilitate in vitro inoculation of Cistus incanus with Tuber melanosporum. Plant Cell, Tissue and Organ Culture, Vol. 85, Issue. 1, p. 53.

Wedén, Christina Pettersson, Lina and Danell, Eric 2009. Truffle cultivation in Sweden: Results fromQuercus roburandCorylus avellanafield trials on the island of Gotland. Scandinavian Journal of Forest Research, Vol. 24, Issue. 1, p. 37.

Cavender-Bares, J. Izzo, A. Robinson, R. and Lovelock, C. E. 2009. Changes in ectomycorrhizal community structure on two containerized oak hosts across an experimental hydrologic gradient. Mycorrhiza, Vol. 19, Issue. 3, p. 133.

Huang, Jing-Yang Hu, Hung-Tao and Shen, Wei-Chiang 2009. Phylogenetic study of two truffles,Tuber formosanumandTuber furfuraceum, identified from Taiwan. FEMS Microbiology Letters, Vol. 294, Issue. 2, p. 157.

Aldrich, Preston R. and Cavender-Bares, Jeannine 2011. Wild Crop Relatives: Genomic and Breeding Resources. p. 89.

Turgeman, Tidhar Sitrit, Yaron Danai, Ofer Luzzati, Yoram Bustan, Amnon Roth-Bejerano, Nurit Kagan-Zur, Varda and Masaphy, Segula 2012. Introduced Tuber aestivum replacing introduced Tuber melanosporum: a case study. Agroforestry Systems, Vol. 84, Issue. 3, p. 337.

Pereira, Guillermo Palfner, Götz Chávez, Daniel Suz, Laura M. Machuca, Ángela and Honrubia, Mario 2013. Using common mycorrhizal networks for controlled inoculation of Quercus spp. with Tuber melanosporum: the nurse plant method. Mycorrhiza, Vol. 23, Issue. 5, p. 373.

Wang, Yun and Chen, Ying Long 2014. Mycorrhizal Fungi: Use in Sustainable Agriculture and Land Restoration. Vol. 41, Issue. , p. 375.

Mello, Antonietta Zampieri, Elisa and Zambonelli, Alessandra 2017. Mycorrhiza - Function, Diversity, State of the Art. p. 231.

Oliferchuk, V. P. and Fedorovych, D. V. 2019. Application of mycorrhizal fungus Tuber melanosporum to stimulate the growth and development of soybean and spring barley. Faktori eksperimental'noi evolucii organizmiv, Vol. 24, Issue. , p. 133.

Meadows, Inga Gaskill, Kelly Stefanile, Leonora Sharpe, Suzette and Davis, Jeanine 2020. Persistence of Tuber melanosporum in truffle orchards in North Carolina, USA. Mycorrhiza, Vol. 30, Issue. 6, p. 705.

Freiberg, Joice Aline Sulzbacher, Marcelo Aloisio Grebenc, Tine Santana, Natielo Almeida Schardong, Igor Sulzbacher Marozzi, Giorgio Fronza, Diniz Giachini, Admir José Donnini, Domizia Jacques, Rodrigo Josemar Seminoti and Antoniolli, Zaida Inês 2021. Mycorrhization of pecans with European truffles (Tuber spp., Tuberaceae) under southern subtropical conditions. Applied Soil Ecology, Vol. 168, Issue. , p. 104108.

Оліферчук, В. П. and Федорович, Д. В. 2021. Вплив мікоризного гриба Tuber Melanosporum на біорізноманіття мікроміцетів ризосфери та ріст і продуктивність фундука. Scientific Bulletin of UNFU, Vol. 31, Issue. 2, p. 28.

Delard, Claudia Loewe, Verónica Río, Rodrigo Del González, Marta Gregori, Gianluigi Acevedo, Manuel Cartes, Eduardo and Balzarini, Mónica 2023. Effect of Tuber borchii inoculation on Pinus pinea seedling quality and initial growth in the field. New Forests,

Giorgi, Veronica Amicucci, Antonella Landi, Lucia Castelli, Ivan Romanazzi, Gianfranco Peroni, Cristiano Ranocchi, Bianca Zambonelli, Alessandra and Neri, Davide 2024. Effect of Bacteria Inoculation on Colonization of Roots by Tuber melanosporum and Growth of Quercus ilex Seedlings. Plants, Vol. 13, Issue. 2, p. 224.

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Inoculation, isolation and identification of Tuber melanosporum from old and new oak hosts in Israel

Abstract

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This article has been cited by the following publications. This list is generated based on data provided by Crossref.

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Inoculation, isolation and identification of Tuber melanosporum from old and new oak hosts in Israel

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