Diatomées marines de France
Bacillariophyceae marines (sens large) de France (métropole et outre-mer) : inclut les espèces strictement marines (habitat 1) ou pouvant également être retrouvées en eau douce (habitat 4 = eau douce / marin), en eau saumâtre (habitat 6) ou a terre (habitat 5 = marin et terrestre).
127 références bibliographiques sont utilisées pour les noms de rangs spécifiques de ce groupe.
| Référence | Total | Valides | Espèces | Taxons terminaux | ||||
|---|---|---|---|---|---|---|---|---|
| nb | % | nb | % | nb | % | nb | % | |
| Ribeiro et al. (2022) | 487 | 10,6% | 328 | 14,82% | 193 | 11,12% | 324 | 16,36% |
| Ricard (1985) | 439 | 9,56% | 316 | 14,28% | 269 | 15,5% | 255 | 12,88% |
| Manguin (1960) | 250 | 5,44% | 174 | 7,86% | 126 | 7,26% | 162 | 8,18% |
| Paulmier (1997) | 182 | 3,96% | 145 | 6,55% | 123 | 7,09% | 133 | 6,72% |
| Vasselon et al. (2019) | 168 | 3,66% | 134 | 6,06% | 130 | 7,49% | 86 | 4,34% |
| Al-Handal et al. (2016) | 83 | 1,81% | 74 | 3,34% | 70 | 4,03% | 56 | 2,83% |
| Guilloux et al. (2013) | 83 | 1,81% | 74 | 3,34% | 72 | 4,15% | 60 | 3,03% |
| Moser (1999) | 69 | 1,5% | 53 | 2,39% | 50 | 2,88% | 32 | 1,62% |
| Natural History Museum of London (2020) | 57 | 1,24% | 32 | 1,45% | 31 | 1,79% | 31 | 1,57% |
| Tapolczai et al. (2017) | 54 | 1,18% | 49 | 2,21% | 49 | 2,82% | 24 | 1,21% |
| Monnier et al. (2009) | 39 | 0,85% | 26 | 1,17% | 24 | 1,38% | 23 | 1,16% |
| MGnify (2017) | 36 | 0,78% | 33 | 1,49% | 33 | 1,9% | 31 | 1,57% |
| Arney et al. (2003) | 35 | 0,76% | 33 | 1,49% | 32 | 1,84% | 33 | 1,67% |
| Coste et al. (2008) | 32 | 0,7% | 30 | 1,36% | 29 | 1,67% | 15 | 0,76% |
| Milan (2018) | 30 | 0,65% | 24 | 1,08% | 22 | 1,27% | 7 | 0,35% |
| Maillard (1978) | 29 | 0,63% | 24 | 1,08% | 24 | 1,38% | 7 | 0,35% |
| Riaux-gobin et al. (2022) | 29 | 0,63% | 29 | 1,31% | 27 | 1,56% | 27 | 1,36% |
| Tolomio (2011) | 29 | 0,63% | 28 | 1,27% | 28 | 1,61% | 28 | 1,41% |
| Ribeiro et al. (2019) | 28 | 0,61% | 27 | 1,22% | 26 | 1,5% | 27 | 1,36% |
| Cépède (1914) | 24 | 0,52% | 14 | 0,63% | 14 | 0,81% | 9 | 0,45% |
| Van de Vijver et al. (1999) | 23 | 0,5% | 18 | 0,81% | 15 | 0,86% | 11 | 0,56% |
| Loir (2016) | 22 | 0,48% | 22 | 0,99% | 19 | 1,09% | 22 | 1,11% |
| Coste & Ricard (1990) | 19 | 0,41% | 13 | 0,59% | 13 | 0,75% | 8 | 0,4% |
| Herubel (1913) | 17 | 0,37% | 9 | 0,41% | 8 | 0,46% | 6 | 0,3% |
| Bourelly & Manguin (1952) | 16 | 0,35% | 8 | 0,36% | 6 | 0,35% | 8 | 0,4% |
| Jacquet et al. (2008) | 16 | 0,35% | 13 | 0,59% | 13 | 0,75% | 3 | 0,15% |
| Riaux-Gobin & Compère (2008) | 15 | 0,33% | 15 | 0,68% | 15 | 0,86% | 11 | 0,56% |
| Witkowski et al. (2010) | 14 | 0,3% | 14 | 0,63% | 14 | 0,81% | 14 | 0,71% |
| CEVA (2011) | 13 | 0,28% | 11 | 0,5% | 11 | 0,63% | 6 | 0,3% |
| Buyck et al. (2021) | 12 | 0,26% | 5 | 0,23% | 5 | 0,29% | 4 | 0,2% |
| Meleder et al. (2007) | 12 | 0,26% | 9 | 0,41% | 9 | 0,52% | 9 | 0,45% |
| Witkowski et al. (2010) | 12 | 0,26% | 10 | 0,45% | 10 | 0,58% | 10 | 0,51% |
| Gassiole (2014) | 11 | 0,24% | 9 | 0,41% | 9 | 0,52% | 5 | 0,25% |
| Giard (1904) | 11 | 0,24% | 7 | 0,32% | 6 | 0,35% | 4 | 0,2% |
| Riaux-Gobin (1994) | 11 | 0,24% | 10 | 0,45% | 7 | 0,4% | 9 | 0,45% |
| Chattova et al. (2014) | 10 | 0,22% | 9 | 0,41% | 9 | 0,52% | 5 | 0,25% |
| Riaux-Gobin et al. (2010) | 10 | 0,22% | 2 | 0,09% | 2 | 0,12% | 2 | 0,1% |
| Travers & Kim (1988) | 9 | 0,2% | 5 | 0,23% | 5 | 0,29% | 5 | 0,25% |
| Desrosiers et al. (2014) | 8 | 0,17% | 5 | 0,23% | 5 | 0,29% | 5 | 0,25% |
| Pearman et al. (2020) | 8 | 0,17% | 7 | 0,32% | 7 | 0,4% | 7 | 0,35% |
| Fariñas et al. (2015) | 7 | 0,15% | 7 | 0,32% | 7 | 0,4% | 7 | 0,35% |
| Goulletquer (2016) | 7 | 0,15% | 5 | 0,23% | 5 | 0,29% | 5 | 0,25% |
| Ifremer (2019) | 7 | 0,15% | 5 | 0,23% | 4 | 0,23% | 5 | 0,25% |
| Riaux-Gobin et al. (2017) | 7 | 0,15% | 7 | 0,32% | 7 | 0,4% | 7 | 0,35% |
| Ifremer (2020) | 6 | 0,13% | 4 | 0,18% | 3 | 0,17% | 4 | 0,2% |
| Riaux-Gobin et al. (2015) | 6 | 0,13% | 6 | 0,27% | 6 | 0,35% | 6 | 0,3% |
| Riaux-Gobin et al. (2017) | 6 | 0,13% | 6 | 0,27% | 6 | 0,35% | 6 | 0,3% |
| Riaux-Gobin et al. (2021) | 6 | 0,13% | 6 | 0,27% | 6 | 0,35% | 6 | 0,3% |
| Riaux-Gobin (2015) | 6 | 0,13% | 6 | 0,27% | 4 | 0,23% | 5 | 0,25% |
| Feret et al. (2017) | 5 | 0,11% | 5 | 0,23% | 5 | 0,29% | 1 | 0,05% |
| Reichardt (1995) | 5 | 0,11% | 1 | 0,05% | 1 | 0,06% | 0 | 0% |
| Riaux-Gobin et al. (2011) | 5 | 0,11% | 5 | 0,23% | 3 | 0,17% | 4 | 0,2% |
| Riaux‐Gobin et al. (2014) | 5 | 0,11% | 4 | 0,18% | 4 | 0,23% | 4 | 0,2% |
| Heudre et al. (2020) | 4 | 0,09% | 4 | 0,18% | 4 | 0,23% | 4 | 0,2% |
| Müller (2004) | 4 | 0,09% | 3 | 0,14% | 3 | 0,17% | 2 | 0,1% |
| Riaux-Gobin & Witkowski (2015) | 4 | 0,09% | 4 | 0,18% | 4 | 0,23% | 4 | 0,2% |
| Riaux-Gobin et al. (2010) | 4 | 0,09% | 2 | 0,09% | 2 | 0,12% | 2 | 0,1% |
| Riaux-Gobin et al. (2011) | 4 | 0,09% | 4 | 0,18% | 4 | 0,23% | 4 | 0,2% |
| Ricard (1977) | 4 | 0,09% | 1 | 0,05% | 1 | 0,06% | 1 | 0,05% |
| Sir Alister Hardy Foundation for Ocean Science (2018) | 4 | 0,09% | 3 | 0,14% | 3 | 0,17% | 3 | 0,15% |
| Beauger et al. (2018) | 3 | 0,07% | 3 | 0,14% | 3 | 0,17% | 3 | 0,15% |
| Bey & Ector (2013) | 3 | 0,07% | 3 | 0,14% | 3 | 0,17% | 2 | 0,1% |
| Chattová et al. (2021) | 3 | 0,07% | 1 | 0,05% | 1 | 0,06% | 1 | 0,05% |
| Deschler et al. (2024) | 3 | 0,07% | 3 | 0,14% | 3 | 0,17% | 3 | 0,15% |
| Dewarumez et al. (2011) | 3 | 0,07% | 2 | 0,09% | 2 | 0,12% | 2 | 0,1% |
| Dolan (2014) | 3 | 0,07% | 3 | 0,14% | 3 | 0,17% | 3 | 0,15% |
| Facca & Casabianca (2006) | 3 | 0,07% | 3 | 0,14% | 3 | 0,17% | 2 | 0,1% |
| Gassiole & Monnier (2019) | 3 | 0,07% | 3 | 0,14% | 3 | 0,17% | 3 | 0,15% |
| Ifremer (2021) | 3 | 0,07% | 3 | 0,14% | 3 | 0,17% | 3 | 0,15% |
| Johns et al. (2022) | 3 | 0,07% | 3 | 0,14% | 3 | 0,17% | 3 | 0,15% |
| Le Cohu & Maillard (1983) | 3 | 0,07% | 3 | 0,14% | 3 | 0,17% | 1 | 0,05% |
| Nézan et al. (2018) | 3 | 0,07% | 3 | 0,14% | 3 | 0,17% | 3 | 0,15% |
| Riaux-Gobin et al. (2012) | 3 | 0,07% | 3 | 0,14% | 3 | 0,17% | 3 | 0,15% |
| Riaux-Gobin et al. (2013) | 3 | 0,07% | 3 | 0,14% | 3 | 0,17% | 3 | 0,15% |
| Riaux-Gobin et al. (2018) | 3 | 0,07% | 3 | 0,14% | 3 | 0,17% | 3 | 0,15% |
| Van de Vijver et al. (1998) | 3 | 0,07% | 1 | 0,05% | 1 | 0,06% | 0 | 0% |
| Blommaert et al. (2018) | 2 | 0,04% | 2 | 0,09% | 2 | 0,12% | 2 | 0,1% |
| Chattova et al. (2017) | 2 | 0,04% | 2 | 0,09% | 2 | 0,12% | 2 | 0,1% |
| Coste & Ector (2000) | 2 | 0,04% | 2 | 0,09% | 2 | 0,12% | 2 | 0,1% |
| Ector & Hlúbiková (2010) | 2 | 0,04% | 2 | 0,09% | 2 | 0,12% | 1 | 0,05% |
| Ector et al. (2015) | 2 | 0,04% | 2 | 0,09% | 2 | 0,12% | 2 | 0,1% |
| Eulin et al. (2018) | 2 | 0,04% | 2 | 0,09% | 2 | 0,12% | 2 | 0,1% |
| Gastineau et al. (2016) | 2 | 0,04% | 2 | 0,09% | 2 | 0,12% | 2 | 0,1% |
| Germain (1981) | 2 | 0,04% | 2 | 0,09% | 2 | 0,12% | 2 | 0,1% |
| Gomez et al. (2020) | 2 | 0,04% | 2 | 0,09% | 2 | 0,12% | 2 | 0,1% |
| Hernández et al. (2017) | 2 | 0,04% | 2 | 0,09% | 2 | 0,12% | 2 | 0,1% |
| Le Cohu (1999) | 2 | 0,04% | 2 | 0,09% | 2 | 0,12% | 1 | 0,05% |
| Mgnify (2017) | 2 | 0,04% | 1 | 0,05% | 1 | 0,06% | 1 | 0,05% |
| Mgnify (2018) | 2 | 0,04% | 2 | 0,09% | 2 | 0,12% | 2 | 0,1% |
| Monti et al. (2018) | 2 | 0,04% | 2 | 0,09% | 2 | 0,12% | 1 | 0,05% |
| Morales et al. (2019) | 2 | 0,04% | 2 | 0,09% | 2 | 0,12% | 2 | 0,1% |
| Muylaert & Sabbe (1996) | 2 | 0,04% | 2 | 0,09% | 2 | 0,12% | 2 | 0,1% |
| Orrell (2019) | 2 | 0,04% | 1 | 0,05% | 1 | 0,06% | 1 | 0,05% |
| Riaux‐Gobin & Compère (2009) | 2 | 0,04% | 2 | 0,09% | 2 | 0,12% | 2 | 0,1% |
| Riaux-Gobin & Witkowski (2017) | 2 | 0,04% | 2 | 0,09% | 2 | 0,12% | 2 | 0,1% |
| Riaux-Gobin et al. (2007) | 2 | 0,04% | 2 | 0,09% | 2 | 0,12% | 2 | 0,1% |
| Riaux-Gobin et al. (2009) | 2 | 0,04% | 2 | 0,09% | 0 | 0% | 2 | 0,1% |
| Riaux-Gobin et al. (2013) | 2 | 0,04% | 2 | 0,09% | 2 | 0,12% | 2 | 0,1% |
| Riaux-gobin et al. (2020) | 2 | 0,04% | 2 | 0,09% | 2 | 0,12% | 2 | 0,1% |
| Vaulot et al. (2004) | 2 | 0,04% | 2 | 0,09% | 2 | 0,12% | 2 | 0,1% |
| Wetzel et al. (2015) | 2 | 0,04% | 2 | 0,09% | 2 | 0,12% | 2 | 0,1% |
| Witkowski et al. (2022) | 2 | 0,04% | 2 | 0,09% | 2 | 0,12% | 2 | 0,1% |
| Bey & Ector (2013) | 1 | 0,02% | 1 | 0,05% | 1 | 0,06% | 1 | 0,05% |
| Blanco & Wetzel (2016) | 1 | 0,02% | 1 | 0,05% | 1 | 0,06% | 1 | 0,05% |
| Borchhardt et al. (2021) | 1 | 0,02% | 1 | 0,05% | 1 | 0,06% | 1 | 0,05% |
| Cohu & Azémar (2011) | 1 | 0,02% | 1 | 0,05% | 1 | 0,06% | 1 | 0,05% |
| Courtecuisse (2009) | 1 | 0,02% | 1 | 0,05% | 1 | 0,06% | 1 | 0,05% |
| Couté & Perrette (2009) | 1 | 0,02% | 0 | 0% | 0 | 0% | 0 | 0% |
| Couté & Perrette (2012) | 1 | 0,02% | 0 | 0% | 0 | 0% | 0 | 0% |
| Couté & Perrette (2013) | 1 | 0,02% | 1 | 0,05% | 0 | 0% | 1 | 0,05% |
| Fayolle et al. (2016) | 1 | 0,02% | 0 | 0% | 0 | 0% | 0 | 0% |
| Ferreira et al. (2019) | 1 | 0,02% | 1 | 0,05% | 1 | 0,06% | 1 | 0,05% |
| Ifremer (2022) | 1 | 0,02% | 1 | 0,05% | 1 | 0,06% | 1 | 0,05% |
| Mgnify (2019) | 1 | 0,02% | 1 | 0,05% | 1 | 0,06% | 1 | 0,05% |
| Milan (2019) | 1 | 0,02% | 0 | 0% | 0 | 0% | 0 | 0% |
| Pavillard (1916) | 1 | 0,02% | 1 | 0,05% | 1 | 0,06% | 1 | 0,05% |
| Peeters & Ector (2018) | 1 | 0,02% | 1 | 0,05% | 1 | 0,06% | 1 | 0,05% |
| Peeters & Ector (2019) | 1 | 0,02% | 1 | 0,05% | 1 | 0,06% | 1 | 0,05% |
| Pollet et al. (2004) | 1 | 0,02% | 1 | 0,05% | 0 | 0% | 1 | 0,05% |
| Riaux-Gobin & Compère (2004) | 1 | 0,02% | 1 | 0,05% | 1 | 0,06% | 1 | 0,05% |
| Riaux-gobin et al. (2014) | 1 | 0,02% | 1 | 0,05% | 1 | 0,06% | 1 | 0,05% |
| Diatom Research, 14(2): 343-356.">Round et al. (1999) | 1 | 0,02% | 1 | 0,05% | 1 | 0,06% | 1 | 0,05% |
| Shukla et al. (2013) | 1 | 0,02% | 1 | 0,05% | 1 | 0,06% | 1 | 0,05% |
| Takano (1983) | 1 | 0,02% | 1 | 0,05% | 1 | 0,06% | 1 | 0,05% |
| Triebel (2021) | 1 | 0,02% | 1 | 0,05% | 0 | 0% | 1 | 0,05% |
| Van de Vijver et al. (2011) | 1 | 0,02% | 1 | 0,05% | 1 | 0,06% | 1 | 0,05% |
| Vroman (1968) | 1 | 0,02% | 0 | 0% | 0 | 0% | 0 | 0% |
