Basidiomycètes de Guyane
94 références bibliographiques sont utilisées pour les noms de rangs spécifiques de ce groupe.
| Référence | Total | Valides | Espèces | Taxons terminaux | ||||
|---|---|---|---|---|---|---|---|---|
| nb | % | nb | % | nb | % | nb | % | |
| Courtecuisse (2009) | 548 | 29,27% | 89 | 14,66% | 89 | 14,83% | 87 | 14,48% |
| Courtecuisse et al. (1996) | 262 | 14% | 218 | 35,91% | 214 | 35,67% | 215 | 35,77% |
| Jaouen et al. (2019) | 235 | 12,55% | 194 | 31,96% | 194 | 32,33% | 193 | 32,11% |
| Courtecuisse (2006) | 152 | 8,12% | 118 | 19,44% | 118 | 19,67% | 118 | 19,63% |
| Courtecuisse & Welti (2013) | 125 | 6,68% | 84 | 13,84% | 82 | 13,67% | 79 | 13,14% |
| Corriol & Roy (2021) | 61 | 3,26% | 53 | 8,73% | 51 | 8,5% | 53 | 8,82% |
| Berndt (2013) | 58 | 3,1% | 58 | 9,56% | 58 | 9,67% | 58 | 9,65% |
| Horak & Mouchacca (1998) | 49 | 2,62% | 18 | 2,97% | 18 | 3% | 18 | 3% |
| Buyck (2013) | 44 | 2,35% | 38 | 6,26% | 37 | 6,17% | 37 | 6,16% |
| Zaremski et al. (2014) | 43 | 2,3% | 33 | 5,44% | 33 | 5,5% | 33 | 5,49% |
| Abraham (2021) | 18 | 0,96% | 18 | 2,97% | 18 | 3% | 17 | 2,83% |
| European Nucleotide Archive (2019) | 18 | 0,96% | 14 | 2,31% | 14 | 2,33% | 14 | 2,33% |
| Rivoire (2018) | 14 | 0,75% | 13 | 2,14% | 13 | 2,17% | 12 | 2% |
| Gruhn & Rödel (2020) | 11 | 0,59% | 11 | 1,81% | 11 | 1,83% | 11 | 1,83% |
| Gruhn et al. (2018) | 9 | 0,48% | 9 | 1,48% | 9 | 1,5% | 9 | 1,5% |
| Questel (2022) | 9 | 0,48% | 8 | 1,32% | 8 | 1,33% | 8 | 1,33% |
| Gruhn et al. (2017) | 8 | 0,43% | 8 | 1,32% | 8 | 1,33% | 8 | 1,33% |
| Accioly et al. (2019) | 7 | 0,37% | 7 | 1,15% | 7 | 1,17% | 7 | 1,16% |
| Lécuru & Courtecuisse (2013) | 7 | 0,37% | 5 | 0,82% | 5 | 0,83% | 5 | 0,83% |
| Rivoire (2013) | 7 | 0,37% | 7 | 1,15% | 7 | 1,17% | 7 | 1,16% |
| Cheype (2010) | 6 | 0,32% | 6 | 0,99% | 6 | 1% | 6 | 1% |
| Elix & McCarthy (1998) | 6 | 0,32% | 2 | 0,33% | 2 | 0,33% | 0 | 0% |
| Roux (2012) | 6 | 0,32% | 1 | 0,16% | 1 | 0,17% | 1 | 0,17% |
| Anonyme (2018) | 5 | 0,27% | 3 | 0,49% | 3 | 0,5% | 3 | 0,5% |
| Cheype (2015) | 5 | 0,27% | 4 | 0,66% | 4 | 0,67% | 4 | 0,67% |
| Ephytia (2020) | 5 | 0,27% | 5 | 0,82% | 5 | 0,83% | 5 | 0,83% |
| Mouchacca & Horak (1998) | 5 | 0,27% | 4 | 0,66% | 4 | 0,67% | 4 | 0,67% |
| Armada (2018) | 4 | 0,21% | 4 | 0,66% | 4 | 0,67% | 4 | 0,67% |
| Berrin et al. (2012) | 4 | 0,21% | 3 | 0,49% | 3 | 0,5% | 3 | 0,5% |
| Boidin & Gilles (1989) | 4 | 0,21% | 4 | 0,66% | 4 | 0,67% | 4 | 0,67% |
| Bricaud (2007) | 4 | 0,21% | 1 | 0,16% | 1 | 0,17% | 1 | 0,17% |
| Decock (2016) | 4 | 0,21% | 4 | 0,66% | 4 | 0,67% | 4 | 0,67% |
| Delgat et al. (2020) | 4 | 0,21% | 4 | 0,66% | 4 | 0,67% | 4 | 0,67% |
| Gruhn et al. (2015) | 4 | 0,21% | 4 | 0,66% | 4 | 0,67% | 4 | 0,67% |
| Horak, E. & Cheype, J.L. 2008. Entoloma acutopallidum and Entoloma pileofibrosum: Two new speciesfrom French Guiana. Bulletin de la Société Mycologique de France, 124(3-4): 287-298.">Horak & Cheype (2008) | 4 | 0,21% | 4 | 0,66% | 4 | 0,67% | 4 | 0,67% |
| Reschke et al. (2022) | 4 | 0,21% | 0 | 0% | 0 | 0% | 0 | 0% |
| Borgato et al. (2020) | 3 | 0,16% | 2 | 0,33% | 2 | 0,33% | 2 | 0,33% |
| Cheype & Campo (2013) | 3 | 0,16% | 3 | 0,49% | 3 | 0,5% | 3 | 0,5% |
| Courtecuisse (1989) | 3 | 0,16% | 3 | 0,49% | 3 | 0,5% | 3 | 0,5% |
| Crous et al. (2021) | 3 | 0,16% | 3 | 0,49% | 3 | 0,5% | 3 | 0,5% |
| Decock et al. (2013) | 3 | 0,16% | 3 | 0,49% | 3 | 0,5% | 3 | 0,5% |
| Gruhn & Alvarado (2021) | 3 | 0,16% | 3 | 0,49% | 3 | 0,5% | 3 | 0,5% |
| Gruhn & Ghobad-Nejhad (2020) | 3 | 0,16% | 3 | 0,49% | 3 | 0,5% | 3 | 0,5% |
| Gruhn et al. (2017) | 3 | 0,16% | 3 | 0,49% | 3 | 0,5% | 3 | 0,5% |
| Hekking & Sipman (1988) | 3 | 0,16% | 2 | 0,33% | 1 | 0,17% | 2 | 0,33% |
| Horak & Cheype (2007) | 3 | 0,16% | 3 | 0,49% | 3 | 0,5% | 3 | 0,5% |
| Jayawardena et al. (2023) | 3 | 0,16% | 3 | 0,49% | 3 | 0,5% | 3 | 0,5% |
| Riebesehl et al. (2019) | 3 | 0,16% | 3 | 0,49% | 3 | 0,5% | 3 | 0,5% |
| Roy et al. (2016) | 3 | 0,16% | 3 | 0,49% | 3 | 0,5% | 3 | 0,5% |
| Runnel & Ryvarden (2016) | 3 | 0,16% | 3 | 0,49% | 3 | 0,5% | 3 | 0,5% |
| Van et al. (2016) | 3 | 0,16% | 3 | 0,49% | 3 | 0,5% | 3 | 0,5% |
| Amalfi & Decock (2013) | 2 | 0,11% | 2 | 0,33% | 2 | 0,33% | 2 | 0,33% |
| Amalfi & Decock (2014) | 2 | 0,11% | 2 | 0,33% | 2 | 0,33% | 2 | 0,33% |
| Berndt (2013) | 2 | 0,11% | 2 | 0,33% | 2 | 0,33% | 2 | 0,33% |
| Boom et al. (2011) | 2 | 0,11% | 0 | 0% | 0 | 0% | 0 | 0% |
| Campos-santana et al. (2016) | 2 | 0,11% | 2 | 0,33% | 2 | 0,33% | 2 | 0,33% |
| Cooper (2011) | 2 | 0,11% | 0 | 0% | 0 | 0% | 0 | 0% |
| Corriol & Hannoire (2018) | 2 | 0,11% | 2 | 0,33% | 2 | 0,33% | 2 | 0,33% |
| Crous et al. (2017) | 2 | 0,11% | 2 | 0,33% | 2 | 0,33% | 2 | 0,33% |
| Decock & Ryvarden (1999) | 2 | 0,11% | 2 | 0,33% | 2 | 0,33% | 2 | 0,33% |
| Decock, C. & Ryvarden, L. 2011. Additions to the Neotropical Perenniporia: Perenniporia albo-incarnata comb. nov and Perenniporia guyanensis sp. nov. Cryptogamie Mycologie, 32(1): 13-23.">Decock & Ryvarden (2011) | 2 | 0,11% | 2 | 0,33% | 2 | 0,33% | 2 | 0,33% |
| Duss (1903) | 2 | 0,11% | 0 | 0% | 0 | 0% | 0 | 0% |
| Gruhn & Ferry (2020) | 2 | 0,11% | 2 | 0,33% | 2 | 0,33% | 2 | 0,33% |
| Heim (1967) | 2 | 0,11% | 2 | 0,33% | 2 | 0,33% | 2 | 0,33% |
| Looney et al. (2013) | 2 | 0,11% | 1 | 0,16% | 1 | 0,17% | 1 | 0,17% |
| Øvstedal (2010) | 2 | 0,11% | 1 | 0,16% | 1 | 0,17% | 1 | 0,17% |
| Ryvarden (2002) | 2 | 0,11% | 2 | 0,33% | 2 | 0,33% | 2 | 0,33% |
| Ryvarden (2004) | 2 | 0,11% | 0 | 0% | 0 | 0% | 0 | 0% |
| Spirin et al. (2021) | 2 | 0,11% | 2 | 0,33% | 2 | 0,33% | 2 | 0,33% |
| Zhou et al. (2021) | 2 | 0,11% | 2 | 0,33% | 2 | 0,33% | 2 | 0,33% |
| Boidin & Gilles (1988) | 1 | 0,05% | 1 | 0,16% | 1 | 0,17% | 1 | 0,17% |
| Boidin & Gilles (1991) | 1 | 0,05% | 1 | 0,16% | 1 | 0,17% | 1 | 0,17% |
| Boidin et al. (1987) | 1 | 0,05% | 1 | 0,16% | 1 | 0,17% | 1 | 0,17% |
| Bricaud (2008) | 1 | 0,05% | 0 | 0% | 0 | 0% | 0 | 0% |
| Bricaud (2009) | 1 | 0,05% | 1 | 0,16% | 1 | 0,17% | 1 | 0,17% |
| Buyck et al. (2021) | 1 | 0,05% | 1 | 0,16% | 1 | 0,17% | 1 | 0,17% |
| Campos Santanaet al. (2013) | 1 | 0,05% | 1 | 0,16% | 1 | 0,17% | 1 | 0,17% |
| Coimbra et al. (2015) | 1 | 0,05% | 1 | 0,16% | 1 | 0,17% | 1 | 0,17% |
| Courtecuisse et al. (2009) | 1 | 0,05% | 1 | 0,16% | 1 | 0,17% | 1 | 0,17% |
| Courtecuisse et al. (2018) | 1 | 0,05% | 1 | 0,16% | 1 | 0,17% | 1 | 0,17% |
| Ertz et al. (2015) | 1 | 0,05% | 1 | 0,16% | 1 | 0,17% | 1 | 0,17% |
| Fritz-Sheridan & Portecop (1987) | 1 | 0,05% | 0 | 0% | 0 | 0% | 0 | 0% |
| Henke, T.W., Wilson A.W., Aime, M.C., Dierks, J., Uehling J.K., Roy, M., Schimann, H., Wartchow, F. & Mueller, G.M. 2014. Cantharellaceae of Guyana II: New species of Craterellus, new South American distribution records for Cantharellus guyanensis and Craterellus excelsus, and a key to the Neotropical taxa. Mycologia, 106(2): 307-322.">Henke et al. (2014) | 1 | 0,05% | 1 | 0,16% | 1 | 0,17% | 1 | 0,17% |
| Jargeat et al. (2016) | 1 | 0,05% | 1 | 0,16% | 1 | 0,17% | 1 | 0,17% |
| Lücking et al. (2013) | 1 | 0,05% | 0 | 0% | 0 | 0% | 0 | 0% |
| Lücking (2006) | 1 | 0,05% | 0 | 0% | 0 | 0% | 0 | 0% |
| Martin-sans (1924) | 1 | 0,05% | 0 | 0% | 0 | 0% | 0 | 0% |
| Moreau et al. (2023) | 1 | 0,05% | 1 | 0,16% | 1 | 0,17% | 1 | 0,17% |
| Nakasone (2015) | 1 | 0,05% | 0 | 0% | 0 | 0% | 0 | 0% |
| Padamsee & Mckenzie (2012) | 1 | 0,05% | 1 | 0,16% | 1 | 0,17% | 1 | 0,17% |
| Société et al. (1989) | 1 | 0,05% | 0 | 0% | 0 | 0% | 0 | 0% |
| Suberbielle et al. (2020) | 1 | 0,05% | 0 | 0% | 0 | 0% | 0 | 0% |
| The International Barcode of Life Consortium (2016) | 1 | 0,05% | 0 | 0% | 0 | 0% | 0 | 0% |
| Ueda (2020) | 1 | 0,05% | 1 | 0,16% | 1 | 0,17% | 1 | 0,17% |
