Ascomycètes de Guadeloupe
Ascomycota de Guadeloupe
125 références bibliographiques sont utilisées pour les noms de rangs spécifiques de ce groupe.
| Référence | Total | Valides | Espèces | Taxons terminaux | ||||
|---|---|---|---|---|---|---|---|---|
| nb | % | nb | % | nb | % | nb | % | |
| Bricaud (2007) | 444 | 21,04% | 339 | 35,99% | 297 | 33,52% | 334 | 35,99% |
| Øvstedal (2010) | 339 | 16,07% | 280 | 29,72% | 274 | 30,93% | 276 | 29,74% |
| Roux (2012) | 308 | 14,6% | 56 | 5,94% | 55 | 6,21% | 52 | 5,6% |
| Elix & McCarthy (1998) | 191 | 9,05% | 151 | 16,03% | 149 | 16,82% | 143 | 15,41% |
| Duss (1903) | 150 | 7,11% | 93 | 9,87% | 93 | 10,5% | 93 | 10,02% |
| Borgato et al. (2020) | 122 | 5,78% | 112 | 11,89% | 112 | 12,64% | 111 | 11,96% |
| Bricaud (2009) | 122 | 5,78% | 115 | 12,21% | 113 | 12,75% | 112 | 12,07% |
| Hekking & Sipman (1988) | 120 | 5,69% | 85 | 9,02% | 83 | 9,37% | 80 | 8,62% |
| Boom et al. (2011) | 101 | 4,79% | 87 | 9,24% | 87 | 9,82% | 83 | 8,94% |
| Bricaud (2008) | 100 | 4,74% | 74 | 7,86% | 73 | 8,24% | 73 | 7,87% |
| Lücking (2006) | 98 | 4,64% | 92 | 9,77% | 92 | 10,38% | 89 | 9,59% |
| Imshaug (2019) | 37 | 1,75% | 29 | 3,08% | 29 | 3,27% | 28 | 3,02% |
| Roux & Coll (2020) | 37 | 1,75% | 14 | 1,49% | 14 | 1,58% | 14 | 1,51% |
| Fournier et al. (2016) | 34 | 1,61% | 32 | 3,4% | 32 | 3,61% | 32 | 3,45% |
| Fournier et al. (2017) | 32 | 1,52% | 32 | 3,4% | 32 | 3,61% | 32 | 3,45% |
| Courtecuisse et al. (1996) | 30 | 1,42% | 22 | 2,34% | 22 | 2,48% | 22 | 2,37% |
| Fournier et al. (2020) | 28 | 1,33% | 28 | 2,97% | 28 | 3,16% | 28 | 3,02% |
| Aptroot & Lücking (2016) | 27 | 1,28% | 27 | 2,87% | 27 | 3,05% | 27 | 2,91% |
| Jabiol & Labeille (2022) | 25 | 1,18% | 23 | 2,44% | 23 | 2,6% | 23 | 2,48% |
| Fournier et al. (2019) | 20 | 0,95% | 17 | 1,8% | 17 | 1,92% | 17 | 1,83% |
| Lebreton (2017) | 16 | 0,76% | 13 | 1,38% | 13 | 1,47% | 13 | 1,4% |
| Aptroot et al. (2011) | 14 | 0,66% | 12 | 1,27% | 12 | 1,35% | 11 | 1,19% |
| Buyck (2013) | 13 | 0,62% | 12 | 1,27% | 12 | 1,35% | 12 | 1,29% |
| Fournier et al. (2024) | 13 | 0,62% | 13 | 1,38% | 13 | 1,47% | 13 | 1,4% |
| Abraham (2010) | 10 | 0,47% | 9 | 0,96% | 9 | 1,02% | 9 | 0,97% |
| Chauvet (1991) | 10 | 0,47% | 10 | 1,06% | 10 | 1,13% | 10 | 1,08% |
| Fournier & Lechat (2015) | 10 | 0,47% | 10 | 1,06% | 10 | 1,13% | 10 | 1,08% |
| Lücking & Kalb (2018) | 10 | 0,47% | 9 | 0,96% | 9 | 1,02% | 9 | 0,97% |
| Jabiol et al. (2013) | 8 | 0,38% | 8 | 0,85% | 8 | 0,9% | 8 | 0,86% |
| Fournier et al. (2018) | 7 | 0,33% | 7 | 0,74% | 7 | 0,79% | 7 | 0,75% |
| Le Gallo (1952) | 7 | 0,33% | 4 | 0,42% | 4 | 0,45% | 4 | 0,43% |
| Xavier-leite et al. (2023) | 7 | 0,33% | 6 | 0,64% | 6 | 0,68% | 6 | 0,65% |
| Braun et al. (2014) | 6 | 0,28% | 6 | 0,64% | 6 | 0,68% | 6 | 0,65% |
| Fournier & Lechat (2016) | 6 | 0,28% | 6 | 0,64% | 6 | 0,68% | 6 | 0,65% |
| Fournier et al. (2017) | 6 | 0,28% | 6 | 0,64% | 6 | 0,68% | 6 | 0,65% |
| Louwhoff & Elix (2002) | 6 | 0,28% | 6 | 0,64% | 6 | 0,68% | 6 | 0,65% |
| Sherwood (1974) | 6 | 0,28% | 4 | 0,42% | 4 | 0,45% | 4 | 0,43% |
| Vainio (1915) | 6 | 0,28% | 4 | 0,42% | 0 | 0% | 4 | 0,43% |
| Fournier et al. (2014) | 5 | 0,24% | 4 | 0,42% | 4 | 0,45% | 4 | 0,43% |
| Fournier et al. (2017) | 5 | 0,24% | 5 | 0,53% | 5 | 0,56% | 5 | 0,54% |
| Rogers & Ju (1998) | 5 | 0,24% | 3 | 0,32% | 3 | 0,34% | 3 | 0,32% |
| Rogers et al. (2006) | 5 | 0,24% | 3 | 0,32% | 3 | 0,34% | 3 | 0,32% |
| Roux et al. (2022) | 5 | 0,24% | 3 | 0,32% | 3 | 0,34% | 3 | 0,32% |
| Comstock & Bailey (2000) | 4 | 0,19% | 4 | 0,42% | 4 | 0,45% | 4 | 0,43% |
| Elix (2009) | 4 | 0,19% | 3 | 0,32% | 3 | 0,34% | 3 | 0,32% |
| Hale (1973) | 4 | 0,19% | 2 | 0,21% | 2 | 0,23% | 2 | 0,22% |
| Lechat & Courtecuisse (2010) | 4 | 0,19% | 4 | 0,42% | 4 | 0,45% | 4 | 0,43% |
| Øvstedal & Elix (2007) | 4 | 0,19% | 4 | 0,42% | 4 | 0,45% | 4 | 0,43% |
| Patouillard (1900) | 4 | 0,19% | 0 | 0% | 0 | 0% | 0 | 0% |
| Samuels et al. (2006) | 4 | 0,19% | 2 | 0,21% | 2 | 0,23% | 2 | 0,22% |
| Sutton & Waterston (1964) | 4 | 0,19% | 4 | 0,42% | 4 | 0,45% | 4 | 0,43% |
| Vainio (1899) | 4 | 0,19% | 2 | 0,21% | 2 | 0,23% | 2 | 0,22% |
| Braun et al. (1999) | 3 | 0,14% | 3 | 0,32% | 3 | 0,34% | 3 | 0,32% |
| Feuerstein et al. (2022) | 3 | 0,14% | 1 | 0,11% | 1 | 0,11% | 1 | 0,11% |
| Fournier et al. (2016) | 3 | 0,14% | 3 | 0,32% | 3 | 0,34% | 3 | 0,32% |
| Herrera et al. (2015) | 3 | 0,14% | 3 | 0,32% | 3 | 0,34% | 3 | 0,32% |
| Lechat & Fournier (2013) | 3 | 0,14% | 3 | 0,32% | 3 | 0,34% | 3 | 0,32% |
| Lücking (2015) | 3 | 0,14% | 3 | 0,32% | 3 | 0,34% | 3 | 0,32% |
| Masson et al. (2024) | 3 | 0,14% | 3 | 0,32% | 3 | 0,34% | 3 | 0,32% |
| Mongkolsuk et al. (2015) | 3 | 0,14% | 3 | 0,32% | 3 | 0,34% | 3 | 0,32% |
| O’Donnell et al. (2022) | 3 | 0,14% | 3 | 0,32% | 3 | 0,34% | 3 | 0,32% |
| Roux (2013) | 3 | 0,14% | 1 | 0,11% | 0 | 0% | 1 | 0,11% |
| Aptroot et al. (2008) | 2 | 0,09% | 2 | 0,21% | 2 | 0,23% | 2 | 0,22% |
| Balazuc (1978) | 2 | 0,09% | 2 | 0,21% | 2 | 0,23% | 2 | 0,22% |
| Baral et al. (2014) | 2 | 0,09% | 1 | 0,11% | 1 | 0,11% | 1 | 0,11% |
| Chaverri et al. (2008) | 2 | 0,09% | 2 | 0,21% | 2 | 0,23% | 2 | 0,22% |
| Corriol & Roy (2021) | 2 | 0,09% | 2 | 0,21% | 2 | 0,23% | 2 | 0,22% |
| Ertz & Lebreton (2024) | 2 | 0,09% | 2 | 0,21% | 2 | 0,23% | 2 | 0,22% |
| European Nucleotide Archive (2019) | 2 | 0,09% | 2 | 0,21% | 2 | 0,23% | 2 | 0,22% |
| Gerasimova et al. (2021) | 2 | 0,09% | 1 | 0,11% | 1 | 0,11% | 1 | 0,11% |
| Hariot & Patouillard (1903) | 2 | 0,09% | 0 | 0% | 0 | 0% | 0 | 0% |
| Kistenich et al. (2018) | 2 | 0,09% | 1 | 0,11% | 1 | 0,11% | 1 | 0,11% |
| Kondratyuk et al. (2020) | 2 | 0,09% | 1 | 0,11% | 1 | 0,11% | 1 | 0,11% |
| Lebreton & Aptroot (2020) | 2 | 0,09% | 2 | 0,21% | 2 | 0,23% | 2 | 0,22% |
| Lechat & Fournier (2020) | 2 | 0,09% | 2 | 0,21% | 2 | 0,23% | 2 | 0,22% |
| Lücking et al. (2009) | 2 | 0,09% | 1 | 0,11% | 1 | 0,11% | 1 | 0,11% |
| Medeiros et al. (2017) | 2 | 0,09% | 2 | 0,21% | 2 | 0,23% | 2 | 0,22% |
| Otálora et al. (2013) | 2 | 0,09% | 2 | 0,21% | 2 | 0,23% | 2 | 0,22% |
| Øvstedal & Elix (2010) | 2 | 0,09% | 2 | 0,21% | 2 | 0,23% | 2 | 0,22% |
| Petrini & Petrini (2012) | 2 | 0,09% | 2 | 0,21% | 2 | 0,23% | 2 | 0,22% |
| Sérusiaux & Coppins (2009) | 2 | 0,09% | 2 | 0,21% | 2 | 0,23% | 2 | 0,22% |
| Sherwood (1977) | 2 | 0,09% | 2 | 0,21% | 2 | 0,23% | 2 | 0,22% |
| Sydow & Sydow (1920) | 2 | 0,09% | 2 | 0,21% | 2 | 0,23% | 2 | 0,22% |
| Turcati (2019) | 2 | 0,09% | 2 | 0,21% | 2 | 0,23% | 2 | 0,22% |
| Vezda & Vivant (1992) | 2 | 0,09% | 2 | 0,21% | 2 | 0,23% | 2 | 0,22% |
| Abraham (2021) | 1 | 0,05% | 0 | 0% | 0 | 0% | 0 | 0% |
| Aptroot et al. (2018) | 1 | 0,05% | 1 | 0,11% | 1 | 0,11% | 1 | 0,11% |
| Arup et al. (2013) | 1 | 0,05% | 1 | 0,11% | 1 | 0,11% | 1 | 0,11% |
| Bertrand & Roux (2018) | 1 | 0,05% | 1 | 0,11% | 1 | 0,11% | 1 | 0,11% |
| Hypoxylon pulicicidum sp nov., a pantropical insecticide-producing endophyte. Plos One, 7(10) : 1-19.">Bills et al. (2012) | 1 | 0,05% | 1 | 0,11% | 1 | 0,11% | 1 | 0,11% |
| Bungartz et al. (2020) | 1 | 0,05% | 1 | 0,11% | 1 | 0,11% | 1 | 0,11% |
| Carbone & Rubini (2024) | 1 | 0,05% | 1 | 0,11% | 1 | 0,11% | 1 | 0,11% |
| Chauvet (1990) | 1 | 0,05% | 1 | 0,11% | 1 | 0,11% | 1 | 0,11% |
| Clauzade & Roux (1985) | 1 | 0,05% | 0 | 0% | 0 | 0% | 0 | 0% |
| Dennis (1903) | 1 | 0,05% | 0 | 0% | 0 | 0% | 0 | 0% |
| Dennis (1954) | 1 | 0,05% | 0 | 0% | 0 | 0% | 0 | 0% |
| Fournier & Lechat (2015) | 1 | 0,05% | 1 | 0,11% | 1 | 0,11% | 1 | 0,11% |
| Frisch et al. (2014) | 1 | 0,05% | 1 | 0,11% | 1 | 0,11% | 1 | 0,11% |
| Frisch (2006) | 1 | 0,05% | 1 | 0,11% | 1 | 0,11% | 1 | 0,11% |
| Fritz-Sheridan & Portecop (1987) | 1 | 0,05% | 1 | 0,11% | 1 | 0,11% | 1 | 0,11% |
| Goffinet (1992) | 1 | 0,05% | 1 | 0,11% | 1 | 0,11% | 1 | 0,11% |
| Hongsanan et al. (2020) | 1 | 0,05% | 1 | 0,11% | 1 | 0,11% | 1 | 0,11% |
| Kuhnert et al. (2013) | 1 | 0,05% | 1 | 0,11% | 1 | 0,11% | 1 | 0,11% |
| Kuhnert et al. (2015) | 1 | 0,05% | 1 | 0,11% | 1 | 0,11% | 1 | 0,11% |
| Lechat & Fournier (2019) | 1 | 0,05% | 0 | 0% | 0 | 0% | 0 | 0% |
| Lendemer & Harris (2017) | 1 | 0,05% | 1 | 0,11% | 1 | 0,11% | 1 | 0,11% |
| Lücking et al. (2005) | 1 | 0,05% | 1 | 0,11% | 1 | 0,11% | 1 | 0,11% |
| Lücking et al. (2005) | 1 | 0,05% | 1 | 0,11% | 1 | 0,11% | 1 | 0,11% |
| Lücking et al. (2006) | 1 | 0,05% | 1 | 0,11% | 1 | 0,11% | 1 | 0,11% |
| Magain et al. (2012) | 1 | 0,05% | 1 | 0,11% | 1 | 0,11% | 1 | 0,11% |
| Masson & Bauvet (2021) | 1 | 0,05% | 1 | 0,11% | 1 | 0,11% | 1 | 0,11% |
| Masson et al. (2015) | 1 | 0,05% | 1 | 0,11% | 1 | 0,11% | 1 | 0,11% |
| Montagne (1840) | 1 | 0,05% | 0 | 0% | 0 | 0% | 0 | 0% |
| Parnmen et al. (2012) | 1 | 0,05% | 1 | 0,11% | 1 | 0,11% | 1 | 0,11% |
| Pfister (1974) | 1 | 0,05% | 0 | 0% | 0 | 0% | 0 | 0% |
| Réblová et al. (2020) | 1 | 0,05% | 0 | 0% | 0 | 0% | 0 | 0% |
| Rivas et al. (2012) | 1 | 0,05% | 1 | 0,11% | 1 | 0,11% | 1 | 0,11% |
| Rodrigues et al. (2021) | 1 | 0,05% | 1 | 0,11% | 1 | 0,11% | 1 | 0,11% |
| Roux & coll. (2017) | 1 | 0,05% | 1 | 0,11% | 0 | 0% | 1 | 0,11% |
| Roux et al. (2006) | 1 | 0,05% | 1 | 0,11% | 0 | 0% | 1 | 0,11% |
| Schmitt et al. (2012) | 1 | 0,05% | 1 | 0,11% | 1 | 0,11% | 1 | 0,11% |
| Simon et al. (2018) | 1 | 0,05% | 1 | 0,11% | 1 | 0,11% | 1 | 0,11% |
| Sipman et al. (2012) | 1 | 0,05% | 1 | 0,11% | 1 | 0,11% | 1 | 0,11% |
| Peršoh, D. & Fournier, J. 2013. The Xylariaceae as model example for a unified nomenclature following the "One fungus One name" (1F1N) concept. Mycology An International Journal on Fungal Biology, 4(1): 5-21. ">Stadler et al. (2013) | 1 | 0,05% | 1 | 0,11% | 1 | 0,11% | 1 | 0,11% |
| Yang et al. (2021) | 1 | 0,05% | 1 | 0,11% | 1 | 0,11% | 1 | 0,11% |
