Mammifères de Clipperton
Mammalia de Clipperton
105 références bibliographiques sont utilisées pour les noms de rangs spécifiques de ce groupe.
| Référence | Total | Valides | Espèces | Taxons terminaux | ||||
|---|---|---|---|---|---|---|---|---|
| nb | % | nb | % | nb | % | nb | % | |
| Rinaldi (2016) | 48 | 13,37% | 48 | 252,63% | 48 | 320% | 32 | 213,33% |
| Carzon et al. (2016) | 36 | 10,03% | 36 | 189,47% | 36 | 240% | 24 | 160% |
| Estrade et al. (2016) | 36 | 10,03% | 36 | 189,47% | 36 | 240% | 24 | 160% |
| Uicn et al. (2015) | 14 | 3,9% | 14 | 73,68% | 14 | 93,33% | 11 | 73,33% |
| Bordin et al. (2021) | 12 | 3,34% | 12 | 63,16% | 12 | 80% | 8 | 53,33% |
| Charrassin (2016) | 12 | 3,34% | 12 | 63,16% | 12 | 80% | 8 | 53,33% |
| Charrassin (2016) | 12 | 3,34% | 12 | 63,16% | 12 | 80% | 8 | 53,33% |
| Garrigue (2007) | 12 | 3,34% | 12 | 63,16% | 12 | 80% | 8 | 53,33% |
| G.E.M.M. (2012) | 12 | 3,34% | 12 | 63,16% | 12 | 80% | 8 | 53,33% |
| Jarrett & Shirihai (2014) | 12 | 3,34% | 12 | 63,16% | 12 | 80% | 8 | 53,33% |
| Moutou (2016) | 12 | 3,34% | 12 | 63,16% | 12 | 80% | 8 | 53,33% |
| Spitz et al. (2016) | 12 | 3,34% | 12 | 63,16% | 12 | 80% | 8 | 53,33% |
| Thoisy & Bordin (2016) | 12 | 3,34% | 12 | 63,16% | 12 | 80% | 8 | 53,33% |
| Urtizberea (2016) | 12 | 3,34% | 12 | 63,16% | 12 | 80% | 8 | 53,33% |
| Gannier (2001) | 11 | 3,06% | 11 | 57,89% | 11 | 73,33% | 7 | 46,67% |
| Gannier (2002) | 11 | 3,06% | 11 | 57,89% | 11 | 73,33% | 8 | 53,33% |
| Aulagnier (2009) | 10 | 2,79% | 10 | 52,63% | 10 | 66,67% | 8 | 53,33% |
| Dewynter et al. (2021) | 10 | 2,79% | 10 | 52,63% | 10 | 66,67% | 8 | 53,33% |
| Gannier (2009) | 10 | 2,79% | 10 | 52,63% | 10 | 66,67% | 7 | 46,67% |
| Catzeflis (2012) | 9 | 2,51% | 9 | 47,37% | 9 | 60% | 6 | 40% |
| Uicn et al. (2017) | 9 | 2,51% | 9 | 47,37% | 9 | 60% | 5 | 33,33% |
| Gannier (2000) | 8 | 2,23% | 8 | 42,11% | 8 | 53,33% | 5 | 33,33% |
| Kiszka et al.(2007) | 8 | 2,23% | 8 | 42,11% | 8 | 53,33% | 5 | 33,33% |
| Laran et al. (2011) | 8 | 2,23% | 8 | 42,11% | 8 | 53,33% | 5 | 33,33% |
| Questel (2020) | 7 | 1,95% | 7 | 36,84% | 7 | 46,67% | 4 | 26,67% |
| Kiszka et al. (2010) | 6 | 1,67% | 6 | 31,58% | 6 | 40% | 3 | 20% |
| Questel & Le Quellec (2012) | 6 | 1,67% | 6 | 31,58% | 6 | 40% | 3 | 20% |
| Dulau-Drouot et al. (2008) | 5 | 1,39% | 5 | 26,32% | 5 | 33,33% | 2 | 13,33% |
| Barré (2021) | 4 | 1,11% | 4 | 21,05% | 4 | 26,67% | 4 | 26,67% |
| Linnaeus (1758) | 4 | 1,11% | 2 | 10,53% | 2 | 13,33% | 1 | 6,67% |
| Lorvelec et al. (2007) | 4 | 1,11% | 4 | 21,05% | 4 | 26,67% | 4 | 26,67% |
| Samaran & Guinet (2009) | 4 | 1,11% | 4 | 21,05% | 4 | 26,67% | 4 | 26,67% |
| Perrin et al. (2002) | 3 | 0,84% | 3 | 15,79% | 3 | 20% | 3 | 20% |
| Robineau (2005) | 3 | 0,84% | 3 | 15,79% | 3 | 20% | 1 | 6,67% |
| Shirihai (2003) | 3 | 0,84% | 3 | 15,79% | 3 | 20% | 3 | 20% |
| Boer et al. (1999) | 2 | 0,56% | 2 | 10,53% | 2 | 13,33% | 2 | 13,33% |
| Fourt et al. (2017) | 2 | 0,56% | 2 | 10,53% | 2 | 13,33% | 2 | 13,33% |
| Gannier & Petiau (2006) | 2 | 0,56% | 2 | 10,53% | 2 | 13,33% | 0 | 0% |
| Gentry et al. (2004) | 2 | 0,56% | 1 | 5,26% | 1 | 6,67% | 1 | 6,67% |
| Reilly et al. (2014) | 2 | 0,56% | 2 | 10,53% | 2 | 13,33% | 2 | 13,33% |
| Robineau & Duhamel (2006) | 2 | 0,56% | 2 | 10,53% | 2 | 13,33% | 2 | 13,33% |
| Yokoyama (2013) | 2 | 0,56% | 1 | 5,26% | 1 | 6,67% | 1 | 6,67% |
| AAMP (2012) | 1 | 0,28% | 1 | 5,26% | 1 | 6,67% | 0 | 0% |
| Abril et al. (1986) | 1 | 0,28% | 1 | 5,26% | 1 | 6,67% | 1 | 6,67% |
| Ainley et al. (2007) | 1 | 0,28% | 1 | 5,26% | 1 | 6,67% | 1 | 6,67% |
| Andrew et al. (2008) | 1 | 0,28% | 1 | 5,26% | 1 | 6,67% | 1 | 6,67% |
| Anonyme. (2004) | 1 | 0,28% | 1 | 5,26% | 1 | 6,67% | 0 | 0% |
| Aulagnier et al. (2017) | 1 | 0,28% | 1 | 5,26% | 1 | 6,67% | 1 | 6,67% |
| Bochaton et al. (2021) | 1 | 0,28% | 1 | 5,26% | 1 | 6,67% | 1 | 6,67% |
| Boer & Simmonds (2000) | 1 | 0,28% | 1 | 5,26% | 1 | 6,67% | 1 | 6,67% |
| Borsa (1997) | 1 | 0,28% | 1 | 5,26% | 1 | 6,67% | 1 | 6,67% |
| Butaud (2021) | 1 | 0,28% | 1 | 5,26% | 1 | 6,67% | 1 | 6,67% |
| Caceres & Salamolard (2021) | 1 | 0,28% | 1 | 5,26% | 1 | 6,67% | 1 | 6,67% |
| Catzeflis (2018) | 1 | 0,28% | 1 | 5,26% | 1 | 6,67% | 1 | 6,67% |
| Chaezl & Chazel (2011) | 1 | 0,28% | 1 | 5,26% | 1 | 6,67% | 1 | 6,67% |
| Collet & Duguy (1981) | 1 | 0,28% | 0 | 0% | 0 | 0% | 0 | 0% |
| Cottarel et al. (2013) | 1 | 0,28% | 1 | 5,26% | 1 | 6,67% | 1 | 6,67% |
| Cunha et al. (2015) | 1 | 0,28% | 1 | 5,26% | 1 | 6,67% | 0 | 0% |
| Dalebout et al. (2005) | 1 | 0,28% | 1 | 5,26% | 1 | 6,67% | 1 | 6,67% |
| Desbrosses & Etcheberry (1987) | 1 | 0,28% | 1 | 5,26% | 1 | 6,67% | 1 | 6,67% |
| Dieme et al. (2015) | 1 | 0,28% | 1 | 5,26% | 1 | 6,67% | 1 | 6,67% |
| Fort & Barrière (2021) | 1 | 0,28% | 1 | 5,26% | 1 | 6,67% | 1 | 6,67% |
| Frenot et al. (2005) | 1 | 0,28% | 1 | 5,26% | 1 | 6,67% | 1 | 6,67% |
| Gargominy et al. (1996) | 1 | 0,28% | 1 | 5,26% | 1 | 6,67% | 1 | 6,67% |
| Garrigue & Poupon (2013) | 1 | 0,28% | 1 | 5,26% | 1 | 6,67% | 1 | 6,67% |
| Gill & Thiele (1997) | 1 | 0,28% | 1 | 5,26% | 1 | 6,67% | 1 | 6,67% |
| Goodall et al. (1997) | 1 | 0,28% | 1 | 5,26% | 1 | 6,67% | 1 | 6,67% |
| Gray (1864) | 1 | 0,28% | 0 | 0% | 0 | 0% | 0 | 0% |
| Gray (1865) | 1 | 0,28% | 0 | 0% | 0 | 0% | 0 | 0% |
| Guinet (1991) | 1 | 0,28% | 1 | 5,26% | 1 | 6,67% | 1 | 6,67% |
| Guinet (2004) | 1 | 0,28% | 1 | 5,26% | 1 | 6,67% | 1 | 6,67% |
| Heimlich-boran (1993) | 1 | 0,28% | 1 | 5,26% | 1 | 6,67% | 1 | 6,67% |
| IUCN (2012) | 1 | 0,28% | 1 | 5,26% | 1 | 6,67% | 0 | 0% |
| Jaquemet et al. (2004) | 1 | 0,28% | 1 | 5,26% | 1 | 6,67% | 0 | 0% |
| Jefferson & & Van Waerebeek (2002) | 1 | 0,28% | 0 | 0% | 0 | 0% | 0 | 0% |
| Jehl et al. (1980) | 1 | 0,28% | 1 | 5,26% | 1 | 6,67% | 1 | 6,67% |
| Kasamatsu & Joyce (1995) | 1 | 0,28% | 1 | 5,26% | 1 | 6,67% | 1 | 6,67% |
| Heron, 36(1): 31-34.">Kiszka (2003) | 1 | 0,28% | 1 | 5,26% | 1 | 6,67% | 0 | 0% |
| Kock et al. (2006) | 1 | 0,28% | 1 | 5,26% | 1 | 6,67% | 1 | 6,67% |
| Labach et al. (2021) | 1 | 0,28% | 1 | 5,26% | 1 | 6,67% | 0 | 0% |
| Lacoste (2021) | 1 | 0,28% | 1 | 5,26% | 1 | 6,67% | 1 | 6,67% |
| Lacoste (2021) | 1 | 0,28% | 1 | 5,26% | 1 | 6,67% | 1 | 6,67% |
| Laran et al. (2012) | 1 | 0,28% | 1 | 5,26% | 1 | 6,67% | 0 | 0% |
| Leaper et al. (2008) | 1 | 0,28% | 1 | 5,26% | 1 | 6,67% | 1 | 6,67% |
| Leatherwood et al. (1979) | 1 | 0,28% | 1 | 5,26% | 1 | 6,67% | 1 | 6,67% |
| Letacq (1924) | 1 | 0,28% | 0 | 0% | 0 | 0% | 0 | 0% |
| Lowe et al. (2007) | 1 | 0,28% | 1 | 5,26% | 1 | 6,67% | 1 | 6,67% |
| Macleod et al. (2006) | 1 | 0,28% | 1 | 5,26% | 1 | 6,67% | 1 | 6,67% |
| Mas-Coma et al. (1989) | 1 | 0,28% | 1 | 5,26% | 1 | 6,67% | 1 | 6,67% |
| Noël (2017) | 1 | 0,28% | 1 | 5,26% | 1 | 6,67% | 1 | 6,67% |
| Oremus (2009) | 1 | 0,28% | 1 | 5,26% | 1 | 6,67% | 1 | 6,67% |
| Pascal & Vigne (2003) | 1 | 0,28% | 1 | 5,26% | 1 | 6,67% | 1 | 6,67% |
| Pitman & Ensor (2003) | 1 | 0,28% | 1 | 5,26% | 1 | 6,67% | 1 | 6,67% |
| Prévost & Mougin (1970) | 1 | 0,28% | 1 | 5,26% | 1 | 6,67% | 1 | 6,67% |
| Revilliod (1914) | 1 | 0,28% | 0 | 0% | 0 | 0% | 0 | 0% |
| Riccialdelli et al. (2010) | 1 | 0,28% | 1 | 5,26% | 1 | 6,67% | 1 | 6,67% |
| . SFEPM, Bourges. 56 pp. ">Rigaux & Dupasquier (2012) | 1 | 0,28% | 1 | 5,26% | 1 | 6,67% | 1 | 6,67% |
| Robineau (1989) | 1 | 0,28% | 1 | 5,26% | 1 | 6,67% | 1 | 6,67% |
| Rossi-santos et al. (2007) | 1 | 0,28% | 1 | 5,26% | 1 | 6,67% | 1 | 6,67% |
| Theuerkauf et al. (2010) | 1 | 0,28% | 1 | 5,26% | 1 | 6,67% | 1 | 6,67% |
| Thiele et al. (1999) | 1 | 0,28% | 1 | 5,26% | 1 | 6,67% | 1 | 6,67% |
| Uicn et al. (2020) | 1 | 0,28% | 1 | 5,26% | 1 | 6,67% | 0 | 0% |
| Viale & Frontier (1989) | 1 | 0,28% | 1 | 5,26% | 1 | 6,67% | 1 | 6,67% |
| Viel (2021) | 1 | 0,28% | 1 | 5,26% | 1 | 6,67% | 1 | 6,67% |
| Wursig & Wursig (1980) | 1 | 0,28% | 1 | 5,26% | 1 | 6,67% | 1 | 6,67% |
