Although the Summer Truffle (Tuber aestivum) and Burgundy Truffle (T. uncinatum) have often been treated as distinct species, based on morphological and genetic analyses Wedén et al. (2005) concluded that these names both refer to the same species, with the name T. aestivum having priority. Previously, with more limited geographic sampling, Mello et al. (2002) and Paolocci et al. (2004) came to divergent conclusions based on their genetic analyses, Mello et al. concluding that these are distinct taxa and Paolocci et al. concluding that they are not. Earlier allozyme studies (Urbanelli et al. 1998) also found no evidence for two distinct taxa. Paolocci et al. speculated that specific (not yet identified) soil and climatic conditions may induce T. aestivum to fruit under different conditions, which, in turn, could affect the flavour and aroma of the truffle and the sporal morphology of ascocarps, thereby giving rise to the T. aestivum and T. uncinatum morphotypes, although single truffle grounds (even single host plants) can reortedly produce both morphotypes.
The Summer Truffle is considered to be the commonest European truffle, occurring throughout Europe (between 37° and 57° N) and in North Africaa (Jeandroz et al. 2008), although in some countries it is considered to be crtically endangered based on current limited knowledge of its occurrence. With its broad habitat and climate requirements, the Summer Truffle is probably the easiest truffle to cultivate commercially and its commercial importance is growing. (Benucci et al. 2011; Gryndler et al. 2011)
- Ectomycorrhizal communities in a productive Tuber aestivum Vittad. orchard: composition, host influence and species replacement
- Author(s): Benucci, Gian Maria Niccolo; Raggi, Lorenzo; Albertini, Emidio; et al.
- Gryndler, M., H. Hršelová, L. Soukupová, E. Streiblová, S. Valda, J. Borovička, H. Gryndlerová, J. Gažo, and M. Miko. 2011. Detection of summer truffle (Tuber aestivum Vittad.) in ectomycorrhizae and in soil using specific primers. FEMS Microbiollogy Letters 318: 84-91.
- Jeandroz, S., C. Murat, Y. Wang, P. Bonfante, and F. Le Tacon. 2008. Molecular phylogeny and historical biogeography of the genus Tuber, the ‘true truffles’. Journal of Biogeography 35: 815-829.
- Mello, A., A. Cantisani, A. Vizzini, and P. Bonfante. 2002. Genetic variability of Tuber uncinatum and its relatedness to other black truffles. Environmental Microbiology 4(10): 584-594.
- Paolocci, F., A. Rubini, C. Riccioni, F. Topini, and S. Arcioni. 2004. Tuber aestivum and Tuber uncinatum: two morphotypes or two species? FEMS Microbiology Letters 235: 109-115.
- Source: FEMS MICROBIOLOGY ECOLOGY Volume: 76 Issue: 1 Pages: 170-184 DOI: 10.1111/j.1574-6941.2010.01039.x Published: APR 2011
- Urbanelli, S., P. Sallicandro, E. De Vito, L. Bullini, and E. Biocca. 1998. Biochemical Systematics of Some Species in the Genus Tuber. Mycologia 90(3): 537-546.
- Wedén, C., E. Danell, and L. Tibell. 2005. Species recognition in the truffle genus Tuber– the synonyms Tuber aestivum and Tuber uncinatum. Environmental Microbiology 7(10): 1535-1546.