Algues vertes marines
100 références bibliographiques sont utilisées pour les noms de rangs spécifiques de ce groupe.
Référence | Total | Valides | Espèces | Taxons terminaux | ||||
---|---|---|---|---|---|---|---|---|
nb | % | nb | % | nb | % | nb | % | |
Cabioc'h & Floc'h (2014) | 318 | 12,92% | 226 | 37,11% | 226 | 39,86% | 212 | 36,49% |
Payri (2007) | 140 | 5,69% | 123 | 20,2% | 118 | 20,81% | 110 | 18,93% |
Burel et al. (2019) | 117 | 4,75% | 113 | 18,56% | 113 | 19,93% | 108 | 18,59% |
Delnatte & Wynne (2016) | 96 | 3,9% | 94 | 15,44% | 79 | 13,93% | 82 | 14,11% |
N'Yeurt & Payri (2007) | 77 | 3,13% | 66 | 10,84% | 61 | 10,76% | 57 | 9,81% |
Vroman (1968) | 62 | 2,52% | 44 | 7,22% | 44 | 7,76% | 36 | 6,2% |
Mattio et al. (2015) | 56 | 2,28% | 55 | 9,03% | 51 | 8,99% | 46 | 7,92% |
Rodríguez-Prieto et al. (1999) | 53 | 2,15% | 47 | 7,72% | 42 | 7,41% | 37 | 6,37% |
Silva et al. (1996) | 45 | 1,83% | 35 | 5,75% | 31 | 5,47% | 33 | 5,68% |
N'Yeurt & Payri (2004) | 39 | 1,58% | 35 | 5,75% | 33 | 5,82% | 29 | 4,99% |
Payri & N'yeurt (1997) | 38 | 1,54% | 18 | 2,96% | 18 | 3,17% | 17 | 2,93% |
Bourmaud (2003) | 35 | 1,42% | 28 | 4,6% | 28 | 4,94% | 23 | 3,96% |
Lagourgue et al. (2022) | 30 | 1,22% | 29 | 4,76% | 29 | 5,11% | 28 | 4,82% |
Rapport GIS "Lag-May" & Centre d'Océanologie de Marseille, pour le compte de DAF Mayotte, SPEM & FFEM. 126 pp.">Thomassin et al. (1999) | 20 | 0,81% | 12 | 1,97% | 11 | 1,94% | 12 | 2,07% |
Diaz & Cuzange (2009) | 19 | 0,77% | 19 | 3,12% | 19 | 3,35% | 12 | 2,07% |
Payri et al. (2009) | 19 | 0,77% | 19 | 3,12% | 19 | 3,35% | 15 | 2,58% |
Brugneaux (2012) | 16 | 0,65% | 16 | 2,63% | 16 | 2,82% | 7 | 1,2% |
Nelson-Smith et al. (2014) | 16 | 0,65% | 11 | 1,81% | 11 | 1,94% | 10 | 1,72% |
Knoepffler et al. (1990) | 15 | 0,61% | 9 | 1,48% | 9 | 1,59% | 8 | 1,38% |
MGnify (2017) | 13 | 0,53% | 13 | 2,13% | 13 | 2,29% | 13 | 2,24% |
Littler & Littler (1992) | 12 | 0,49% | 12 | 1,97% | 10 | 1,76% | 11 | 1,89% |
Le Gallo (1949) | 11 | 0,45% | 5 | 0,82% | 5 | 0,88% | 4 | 0,69% |
CEVA (2011) | 10 | 0,41% | 7 | 1,15% | 7 | 1,23% | 4 | 0,69% |
Pearman et al. (2020) | 10 | 0,41% | 9 | 1,48% | 9 | 1,59% | 8 | 1,38% |
Thomassin et al. (1992) | 10 | 0,41% | 9 | 1,48% | 9 | 1,59% | 9 | 1,55% |
Vaulot et al. (2004) | 9 | 0,37% | 9 | 1,48% | 9 | 1,59% | 9 | 1,55% |
Verlaque (2001) | 8 | 0,33% | 7 | 1,15% | 7 | 1,23% | 6 | 1,03% |
Zubia et al. (2018) | 8 | 0,33% | 7 | 1,15% | 7 | 1,23% | 5 | 0,86% |
Bijmoer et al. (2021) | 7 | 0,28% | 6 | 0,99% | 5 | 0,88% | 6 | 1,03% |
Goulletquer (2016) | 7 | 0,28% | 6 | 0,99% | 6 | 1,06% | 3 | 0,52% |
Levring (1944) | 7 | 0,28% | 3 | 0,49% | 3 | 0,53% | 3 | 0,52% |
Lagourgue & Payri (2021) | 6 | 0,24% | 6 | 0,99% | 6 | 1,06% | 6 | 1,03% |
Lopes et al. (2017) | 6 | 0,24% | 6 | 0,99% | 6 | 1,06% | 6 | 1,03% |
Toussaint et al. (2019) | 6 | 0,24% | 0 | 0% | 0 | 0% | 0 | 0% |
Alongi et al. (2014) | 5 | 0,2% | 4 | 0,66% | 3 | 0,53% | 4 | 0,69% |
Rignault & Chevallier (2017) | 5 | 0,2% | 4 | 0,66% | 4 | 0,71% | 4 | 0,69% |
Rimet (2011) | 5 | 0,2% | 3 | 0,49% | 3 | 0,53% | 3 | 0,52% |
Wynne & Furnari (2014) | 5 | 0,2% | 3 | 0,49% | 3 | 0,53% | 3 | 0,52% |
Belton et al. (2013) | 4 | 0,16% | 4 | 0,66% | 4 | 0,71% | 4 | 0,69% |
Darienko & Pröschold (2017) | 4 | 0,16% | 4 | 0,66% | 4 | 0,71% | 4 | 0,69% |
Dijoux et al. (2012) | 4 | 0,16% | 4 | 0,66% | 4 | 0,71% | 4 | 0,69% |
Etcheberry & Abraham (2009) | 4 | 0,16% | 3 | 0,49% | 3 | 0,53% | 2 | 0,34% |
Feldmann (1954) | 4 | 0,16% | 3 | 0,49% | 3 | 0,53% | 3 | 0,52% |
Fourt et al. (2017) | 4 | 0,16% | 4 | 0,66% | 4 | 0,71% | 4 | 0,69% |
Natural History Museum of London (2020) | 4 | 0,16% | 4 | 0,66% | 4 | 0,71% | 4 | 0,69% |
Nicet & Denis (2011) | 4 | 0,16% | 4 | 0,66% | 3 | 0,53% | 4 | 0,69% |
Buyck et al. (2021) | 3 | 0,12% | 3 | 0,49% | 3 | 0,53% | 3 | 0,52% |
Cachon & Caram (1979) | 3 | 0,12% | 3 | 0,49% | 3 | 0,53% | 3 | 0,52% |
Féral et al. (2021) | 3 | 0,12% | 3 | 0,49% | 3 | 0,53% | 3 | 0,52% |
Guilloux et al. (2013) | 3 | 0,12% | 3 | 0,49% | 3 | 0,53% | 3 | 0,52% |
Jacquet et al. (2008) | 3 | 0,12% | 1 | 0,16% | 1 | 0,18% | 1 | 0,17% |
Johns et al. (2022) | 3 | 0,12% | 3 | 0,49% | 3 | 0,53% | 3 | 0,52% |
Maréchal & Trégarot (2012) | 3 | 0,12% | 3 | 0,49% | 3 | 0,53% | 3 | 0,52% |
Marin et al. (1996) | 3 | 0,12% | 3 | 0,49% | 3 | 0,53% | 3 | 0,52% |
Mgnify (2018) | 3 | 0,12% | 3 | 0,49% | 3 | 0,53% | 3 | 0,52% |
Uicn et al. (2019) | 3 | 0,12% | 2 | 0,33% | 2 | 0,35% | 2 | 0,34% |
Breton (2014) | 2 | 0,08% | 2 | 0,33% | 2 | 0,35% | 1 | 0,17% |
Cépède (1914) | 2 | 0,08% | 2 | 0,33% | 2 | 0,35% | 2 | 0,34% |
Chrétiennot-Dinet et al. (1995) | 2 | 0,08% | 2 | 0,33% | 2 | 0,35% | 2 | 0,34% |
Dangeard (1965) | 2 | 0,08% | 0 | 0% | 0 | 0% | 0 | 0% |
Dizerbo & Herpe (2007) | 2 | 0,08% | 1 | 0,16% | 1 | 0,18% | 1 | 0,17% |
European Nucleotide Archive (2019) | 2 | 0,08% | 2 | 0,33% | 2 | 0,35% | 2 | 0,34% |
Fort et al. (2020) | 2 | 0,08% | 1 | 0,16% | 1 | 0,18% | 1 | 0,17% |
Mouronval et al. (2015) | 2 | 0,08% | 1 | 0,16% | 1 | 0,18% | 0 | 0% |
Müller (2004) | 2 | 0,08% | 1 | 0,16% | 1 | 0,18% | 1 | 0,17% |
Orrell (2019) | 2 | 0,08% | 1 | 0,16% | 1 | 0,18% | 1 | 0,17% |
Payri (comm. pers., 2012) | 2 | 0,08% | 1 | 0,16% | 1 | 0,18% | 1 | 0,17% |
Schramm & Mazé (1865) | 2 | 0,08% | 2 | 0,33% | 2 | 0,35% | 2 | 0,34% |
Taylor (1973) | 2 | 0,08% | 1 | 0,16% | 0 | 0% | 1 | 0,17% |
Wittrock (1866) | 2 | 0,08% | 2 | 0,33% | 2 | 0,35% | 2 | 0,34% |
Zubia et al. (2012) | 2 | 0,08% | 2 | 0,33% | 2 | 0,35% | 2 | 0,34% |
Androuin et al. (2020) | 1 | 0,04% | 1 | 0,16% | 1 | 0,18% | 1 | 0,17% |
Bárbara et al. (2012) | 1 | 0,04% | 0 | 0% | 0 | 0% | 0 | 0% |
Cellamare et al. (2018) | 1 | 0,04% | 1 | 0,16% | 1 | 0,18% | 1 | 0,17% |
Chacana & Silva (2014) | 1 | 0,04% | 1 | 0,16% | 1 | 0,18% | 1 | 0,17% |
Comère (1912) | 1 | 0,04% | 1 | 0,16% | 1 | 0,18% | 1 | 0,17% |
Cormaci et al. (2014) | 1 | 0,04% | 1 | 0,16% | 1 | 0,18% | 1 | 0,17% |
Dewarumez et al. (2011) | 1 | 0,04% | 1 | 0,16% | 0 | 0% | 1 | 0,17% |
Guerlesquin (1985) | 1 | 0,04% | 1 | 0,16% | 1 | 0,18% | 1 | 0,17% |
Guiry (2017) | 1 | 0,04% | 1 | 0,16% | 1 | 0,18% | 1 | 0,17% |
Horellou Arnaud | 1 | 0,04% | 1 | 0,16% | 1 | 0,18% | 1 | 0,17% |
Ifremer (2020) | 1 | 0,04% | 1 | 0,16% | 1 | 0,18% | 1 | 0,17% |
Ifremer (2024) | 1 | 0,04% | 1 | 0,16% | 1 | 0,18% | 1 | 0,17% |
Kitayama & Garrigue (1998) | 1 | 0,04% | 1 | 0,16% | 1 | 0,18% | 1 | 0,17% |
Klein & Verlaque (2008) | 1 | 0,04% | 0 | 0% | 0 | 0% | 0 | 0% |
Lambert et al. (2013) | 1 | 0,04% | 1 | 0,16% | 1 | 0,18% | 1 | 0,17% |
Lizé (2018) | 1 | 0,04% | 1 | 0,16% | 1 | 0,18% | 0 | 0% |
Lowe et al. (2007) | 1 | 0,04% | 1 | 0,16% | 1 | 0,18% | 0 | 0% |
Magne (1954) | 1 | 0,04% | 1 | 0,16% | 1 | 0,18% | 1 | 0,17% |
Mgnify (2019) | 1 | 0,04% | 1 | 0,16% | 1 | 0,18% | 1 | 0,17% |
Möbius (1887) | 1 | 0,04% | 0 | 0% | 0 | 0% | 0 | 0% |
N'Yeurt & Payri (2010) | 1 | 0,04% | 1 | 0,16% | 1 | 0,18% | 1 | 0,17% |
Payri et al. (2002) | 1 | 0,04% | 1 | 0,16% | 1 | 0,18% | 1 | 0,17% |
Provan et al. (2008) | 1 | 0,04% | 1 | 0,16% | 1 | 0,18% | 0 | 0% |
Pyle et al. (2016) | 1 | 0,04% | 1 | 0,16% | 1 | 0,18% | 1 | 0,17% |
Rossat (1955) | 1 | 0,04% | 0 | 0% | 0 | 0% | 0 | 0% |
Sellier et al. (2016) | 1 | 0,04% | 1 | 0,16% | 1 | 0,18% | 0 | 0% |
Sir Alister Hardy Foundation for Ocean Science (2018) | 1 | 0,04% | 0 | 0% | 0 | 0% | 0 | 0% |
Verlaque et al. (2015) | 1 | 0,04% | 1 | 0,16% | 1 | 0,18% | 1 | 0,17% |
Vidal et al. (1984) | 1 | 0,04% | 1 | 0,16% | 1 | 0,18% | 1 | 0,17% |