Espèces animales introduites dans les Antilles françaises
Animaux introduits au sens large dans les Antilles françaises, c'est-à-dire introduits établis (I), invasifs (J), introduits non établis (M) ou introduits éteints (Y). Par "Antilles françaises" on entend: la Martinique, la Guadeloupe et ses dépendances, Saint-Martin et Saint-Barthélemy.
70 outil(s) de détermination permet(tent) d'identifier des taxons de ce groupe.
Référence | Total | Valides | Espèces | Taxons terminaux | ||||
---|---|---|---|---|---|---|---|---|
nb | % | nb | % | nb | % | nb | % | |
Delannoye et al. (2015) | 23 | 0,92% | 18 | 3,14% | 18 | 3,25% | 18 | 3,25% |
Questel et al. (2023) | 16 | 0,64% | 16 | 2,79% | 16 | 2,89% | 15 | 2,71% |
Questel et al. (2023) | 16 | 0,64% | 16 | 2,79% | 16 | 2,89% | 15 | 2,71% |
Dewynter et al. (2022) | 14 | 0,56% | 14 | 2,44% | 14 | 2,53% | 13 | 2,35% |
Dewynter et al. (2023) | 14 | 0,56% | 14 | 2,44% | 14 | 2,53% | 13 | 2,35% |
Dewynter et al. (2023) | 14 | 0,56% | 14 | 2,44% | 14 | 2,53% | 13 | 2,35% |
Lebas et al. (2016) | 14 | 0,56% | 13 | 2,27% | 13 | 2,35% | 13 | 2,35% |
Albouy & Richard (2017) | 13 | 0,52% | 12 | 2,09% | 12 | 2,17% | 12 | 2,17% |
Aulagnier et al. (2017) | 11 | 0,44% | 10 | 1,75% | 10 | 1,81% | 10 | 1,81% |
Albouy et al. (2017) | 7 | 0,28% | 7 | 1,22% | 7 | 1,27% | 6 | 1,08% |
Gargominy (2016-2021) | 7 | 0,28% | 7 | 1,22% | 7 | 1,27% | 7 | 1,26% |
Welter-schultes (2012) | 7 | 0,28% | 4 | 0,7% | 4 | 0,72% | 4 | 0,72% |
Arnold & Ovenden (2014) | 6 | 0,24% | 3 | 0,52% | 3 | 0,54% | 2 | 0,36% |
Bellmann (2019) | 4 | 0,16% | 4 | 0,7% | 4 | 0,72% | 2 | 0,36% |
Dewynter & Claessens (2020) | 4 | 0,16% | 4 | 0,7% | 4 | 0,72% | 4 | 0,72% |
Dewynter (2021) | 4 | 0,16% | 4 | 0,7% | 4 | 0,72% | 4 | 0,72% |
Hullé et al. (2018) | 4 | 0,16% | 4 | 0,7% | 4 | 0,72% | 4 | 0,72% |
Martiré & Rochat (2008) | 4 | 0,16% | 3 | 0,52% | 3 | 0,54% | 3 | 0,54% |
Mériguet & Zagatti (2016) | 4 | 0,16% | 4 | 0,7% | 4 | 0,72% | 4 | 0,72% |
Aubouin et al. (2016) | 3 | 0,12% | 3 | 0,52% | 3 | 0,54% | 3 | 0,54% |
Dewynter et al. (2019) | 3 | 0,12% | 3 | 0,52% | 3 | 0,54% | 2 | 0,36% |
Iorio et al. (2022) | 3 | 0,12% | 3 | 0,52% | 3 | 0,54% | 2 | 0,36% |
Lupoli & Dusoulier (2015) | 3 | 0,12% | 3 | 0,52% | 3 | 0,54% | 3 | 0,54% |
Muratet (2015) | 3 | 0,12% | 3 | 0,52% | 2 | 0,36% | 2 | 0,36% |
Bance (2022) | 2 | 0,08% | 2 | 0,35% | 2 | 0,36% | 2 | 0,36% |
Bonadona (1981) | 2 | 0,08% | 1 | 0,17% | 1 | 0,18% | 1 | 0,18% |
Breuil (2013) | 2 | 0,08% | 1 | 0,17% | 1 | 0,18% | 1 | 0,18% |
Cochard et al. (2021) | 2 | 0,08% | 2 | 0,35% | 2 | 0,36% | 2 | 0,36% |
de Massary et al. (2015) | 2 | 0,08% | 1 | 0,17% | 1 | 0,18% | 0 | 0% |
Dewynter et al. (2017) | 2 | 0,08% | 2 | 0,35% | 2 | 0,36% | 2 | 0,36% |
Dewynter et al. (2020) | 2 | 0,08% | 2 | 0,35% | 2 | 0,36% | 2 | 0,36% |
Dewynter (2018) | 2 | 0,08% | 2 | 0,35% | 2 | 0,36% | 2 | 0,36% |
Dewynter (2020) | 2 | 0,08% | 2 | 0,35% | 2 | 0,36% | 2 | 0,36% |
Duguet & Melki (2003) | 2 | 0,08% | 1 | 0,17% | 1 | 0,18% | 1 | 0,18% |
Gerber (2018) | 2 | 0,08% | 2 | 0,35% | 2 | 0,36% | 2 | 0,36% |
Kerney & Cameron (1999) | 2 | 0,08% | 2 | 0,35% | 2 | 0,36% | 2 | 0,36% |
Kwet (2009) | 2 | 0,08% | 2 | 0,35% | 2 | 0,36% | 2 | 0,36% |
Maran & Frétey (2023) | 2 | 0,08% | 2 | 0,35% | 2 | 0,36% | 2 | 0,36% |
Miaud & Muratet (2018) | 2 | 0,08% | 2 | 0,35% | 2 | 0,36% | 2 | 0,36% |
Nelson-Smith et al. (2014) | 2 | 0,08% | 2 | 0,35% | 2 | 0,36% | 2 | 0,36% |
Rome (2016) | 2 | 0,08% | 2 | 0,35% | 2 | 0,36% | 1 | 0,18% |
Serre-collet (2013) | 2 | 0,08% | 2 | 0,35% | 2 | 0,36% | 2 | 0,36% |
Thirion & Evrard (2012) | 2 | 0,08% | 2 | 0,35% | 2 | 0,36% | 2 | 0,36% |
Baker & Allain (2020) | 1 | 0,04% | 1 | 0,17% | 1 | 0,18% | 1 | 0,18% |
Bochaton et al. (2016) | 1 | 0,04% | 1 | 0,17% | 1 | 0,18% | 1 | 0,18% |
Cheon et al. (2023) | 1 | 0,04% | 1 | 0,17% | 0 | 0% | 1 | 0,18% |
Dedukh & Krasikova (2017) | 1 | 0,04% | 1 | 0,17% | 1 | 0,18% | 1 | 0,18% |
Ducarme (2023) | 1 | 0,04% | 1 | 0,17% | 1 | 0,18% | 1 | 0,18% |
Fabre & Orsini (2016) | 1 | 0,04% | 1 | 0,17% | 1 | 0,18% | 1 | 0,18% |
Furminieux (2019) | 1 | 0,04% | 1 | 0,17% | 1 | 0,18% | 1 | 0,18% |
Gargominy (2011-2023) | 1 | 0,04% | 1 | 0,17% | 1 | 0,18% | 1 | 0,18% |
Halstead & Green (1979) | 1 | 0,04% | 1 | 0,17% | 1 | 0,18% | 1 | 0,18% |
Halstead (1973) | 1 | 0,04% | 1 | 0,17% | 1 | 0,18% | 1 | 0,18% |
Johnson et al. (2021) | 1 | 0,04% | 1 | 0,17% | 1 | 0,18% | 1 | 0,18% |
Jouveau et al. (2018) | 1 | 0,04% | 1 | 0,17% | 1 | 0,18% | 1 | 0,18% |
Lehrter et al. (2016) | 1 | 0,04% | 1 | 0,17% | 1 | 0,18% | 1 | 0,18% |
Leraut (2014) | 1 | 0,04% | 1 | 0,17% | 1 | 0,18% | 1 | 0,18% |
Lichtenfels et al. (1994) | 1 | 0,04% | 1 | 0,17% | 1 | 0,18% | 1 | 0,18% |
Light (1932) | 1 | 0,04% | 0 | 0% | 0 | 0% | 0 | 0% |
Lü & Zhou (2012) | 1 | 0,04% | 1 | 0,17% | 1 | 0,18% | 1 | 0,18% |
Martin (2011) | 1 | 0,04% | 1 | 0,17% | 1 | 0,18% | 1 | 0,18% |
Prié (2017) | 1 | 0,04% | 1 | 0,17% | 1 | 0,18% | 1 | 0,18% |
Sanchez (2020) | 1 | 0,04% | 1 | 0,17% | 1 | 0,18% | 1 | 0,18% |
Sardet et al. (2015) | 1 | 0,04% | 1 | 0,17% | 1 | 0,18% | 1 | 0,18% |
Schulte et al. (2024) | 1 | 0,04% | 1 | 0,17% | 1 | 0,18% | 1 | 0,18% |
Sculfort & Dewynter (2024) | 1 | 0,04% | 1 | 0,17% | 1 | 0,18% | 1 | 0,18% |
Souza et al. (2019) | 1 | 0,04% | 1 | 0,17% | 1 | 0,18% | 1 | 0,18% |
Wallach (2020) | 1 | 0,04% | 1 | 0,17% | 1 | 0,18% | 1 | 0,18% |
Wetterer & Sharaf (2021) | 1 | 0,04% | 1 | 0,17% | 1 | 0,18% | 1 | 0,18% |
Zagatti & Guy (2005) | 1 | 0,04% | 1 | 0,17% | 1 | 0,18% | 1 | 0,18% |