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nih.gov
ncbi.nlm.nih.gov
J.C. Santos, L.A. Coloma et D.C. Cannatella, « Multiple, recurring origins of aposematism and diet specialization in poison frogs », Proceedings of the National Academy of Sciences of the United States of America, vol. 100, no 22, , p. 12792–12797 (PMID14555763, PMCID240697, DOI10.1073/pnas.2133521100)
J. C. Santos et D. C. Cannatella, « Phenotypic integration emerges from aposematism and scale in poison frogs », Prodeedings of the National Academy of Sciences of the United States of America, vol. 108, no 15, , p. 6175–6180 (PMID21444790, PMCID3076872, DOI10.1073/pnas.1010952108)
(en) Summers, K; Symula, R; Clough, M; Cronin, T, « Visual mate choice in poison frogs », Proceedings of the Royal Society of London B: Biological Sciences, vol. 266, no 1434, , p. 2141–5 (PMID10649631, PMCID1690338, DOI10.1098/rspb.1999.0900)
I. J. Wang, « Inversely related aposematic traits: reduced conspicuousness evolves with increased toxicity in a polymorphic poison-dart frog », Evolution, vol. 65, no 6, , p. 1637–1649 (PMID21644954, DOI10.1111/j.1558-5646.2011.01257.x)
M. E. Maan et M. E. Cummings, « Female preferences for aposematic signal components in a polymorphic poison frog », Evolution, vol. 62, no 9, , p. 2234–2345 (PMID18616568, DOI10.1111/j.1558-5646.2008.00454.x)
R. G. Reynolds et B. M. Fitzpatrick, « Assortative mating in poison-dart frogs based on an ecologically important trait », Evolution, vol. 61, no 9, , p. 2253–2259 (PMID17767594, DOI10.1111/j.1558-5646.2007.00174.x)
I.J. Tazzyman et Y. Iwassa, « Sexual selection can increase the effect of random genetic drift – a quantitative genetic model of polymorphism in Oophaga pumilio, the strawberry poison-dart frog », Evolution, vol. 64, no 6, , p. 1719–1728 (PMID20015236, DOI10.1111/j.1558-5646.2009.00923.x)
Hurme, Kristiina; Gonzalez, Kittzie; Halvorsen, Mark; Foster, Bruce and Moore, Don, « Environmental Enrichment for Dendrobatid Frogs », Journal of Applied Animal Welfare Science, Lawrence Erlbaum Associates, Inc., vol. 6, no 4, , p. 285–299 (PMID14965783, DOI10.1207/s15327604jaws0604_3)
Darst, C., Menendez-Guerreor, P., Coloma, L. and Cannatella, D., « Evolution of Dietary Specialization and Chemical Defense in Poison Frogs (Dendrobatidae): A Comparative Analysis », The American Natural, vol. 165, no 1, , p. 56–69 (PMID15729640, DOI10.1086/426599)
Daly, J.W., Gusovsky, F., Myers, C.W., Yotsuyamashita, M., and Yasumoto, T., « First occurrence of tetrodotoxin in a dendrobatid frog (Colostethus inguinalis), with further reports for the bufonid genus Atelopus », Toxicon, vol. 32, no 3, , p. 279–285 (PMID8016850, DOI10.1016/0041-0101(94)90081-7)
Jennifer Stynoski, Yaritbel Torres-Mendoza, Mahmood Sasa-Marin et Ralph Saporito, « Evidence of maternal provisioning of alkaloid-based chemical defenses in the strawberry poison frog Oophaga Pumilio », Ecology, vol. 95, no 3, , p. 587–93 (PMID24804437, DOI10.1890/13-0927.1)
R. Saporito, M. Donnelly, R. Norton, H. Garraffo, T. Spande et J. Daly, « Oribatid mites as a major dietary source for alkaloids in poison frogs », Proceedings of the National Academy of Sciences of the United States of America, vol. 104, no 21, , p. 8885–8890 (PMID17502597, PMCID1885597, DOI10.1073/pnas.0702851104)
R.J. Prince et S.M. Sine, « Epibatidine activates muscle acetylcholine receptors with unique site selectivity », Biophysical Journal, Biophysical Journal, vol. 75, no 4, , p. 1817–27 (PMID9746523, PMCID1299853, DOI10.1016/S0006-3495(98)77623-4)
M. Decker, M. Meyer et J. Sullivan, « The therapeutic potential of nicotinic acetylcholine receptor agonists for pain control », Expert Opinion on Investigational Drugs, vol. 10, no 10, , p. 1819–1830 (PMID11772288, DOI10.1517/13543784.10.10.1819)
K. Summers et M. Clough, « The evolution of coloration and toxicity in the poison frog family (Dendrobatidae) », Proceedings of the National Academy of Sciences of the United States of America, vol. 98, no 11, , p. 6227–6232 (PMID11353830, PMCID33450, DOI10.1073/pnas.101134898)
I. Wang et H.B. Shaffer, « Rapid Color Evolution in an Aposematic Species: A Phylogenetic Analysis of Color Variation in the Strikingly Polymorphic Strawberry Poison-Dart Frog », Evolution, vol. 62, no 11, , p. 2742–2759 (PMID18764916, DOI10.1111/j.1558-5646.2008.00507.x)
I Speed, M.A. Brockhurst et G.D. Ruxton, « The dual benefits of aposematism: Predator avoidance and enhanced resource collection », Evolution, vol. 64, no 6, , p. 1622–1633 (PMID20050915, DOI10.1111/j.1558-5646.2009.00931.x)
I. Speed, G.D. Ruxton, J.D. Blount et P.A. Stephens, « Diversification of honest signals in a predator-prey system », Ecology Letters, vol. 13, no 6, , p. 744–753 (PMID21644954, DOI10.1111/j.1558-5646.2011.01257.x)
K. Summers, « Convergent evolution of bright coloration and toxicity in frogs », Proceedings of the National Academy of Sciences of the United States of America, vol. 100, no 22, , p. 12533–12534 (PMID14569014, PMCID240648, DOI10.1073/pnas.2335928100)
N.M. Marples, DJ Kelly et RJ Thomas, « Perspective: The evolution of warning coloration is not paradoxical », Evolution, vol. 59, no 5, , p. 933–940 (PMID16136793, DOI10.1111/j.0014-3820.2005.tb01032.x)
M.E. Mann et M.E. Cummings, « Sexual dimorphism and directional sexual selection on aposematic signals in a poison frog », Proceedings of the National Academy of Sciences of the United States of America, vol. 106, no 45, , p. 19072–19077 (PMID19858491, PMCID2776464, DOI10.1073/pnas.0903327106)
K Summers, L. Bermingham, S. Weigt, S. McCafferty et L. Dahlstrom, « Phenotypic and genetic divergence in three species of dart-poison frogs with contrasting parental behavior », The Journal of Heredity, vol. 88, no 1, , p. 8–13 (PMID9048443, DOI10.1093/oxfordjournals.jhered.a023065)
A. Rudh, B. Rogell et J. Hoglund, « Non-gradual variation in color morphs of the strawberry poison frog Dendrobates pumilio: genetic and geographical isolation suggest a role for selection in maintaining polymorphism », Molecular Ecology, vol. 16, no 20, , p. 4282–4294 (PMID17868297, DOI10.1111/j.1365-294X.2007.03479.x)
M. E. Maan et M. E. Cummings, « Sexual dimorphism and directional selection on aposematic signals in a poison frog », Proceedings of the National Academy of Sciences of the United States of America, vol. 106, no 45, , p. 19072–19077 (PMID19858491, PMCID2776464, DOI10.1073/pnas.0903327106)
S.J. Tazzyman et Y. Iwasa, « Sexual selection can increase the effect of random genetic drift-a quantitative genetic model of polymorphism in oophaga pumilio, the strawberry poison-dart frog », Evolution, vol. 64, no 6, , p. 1719–1728 (PMID20015236, DOI10.1111/j.1558-5646.2009.00923.x)
researchgate.net
(en) Catherine Darst, Pablo A Menéndez-Guerrero, Luis A. Coloma et David Cannatella, « Evolution of Dietary Specialization and Chemical Defense in Poison Frogs (Dendrobatidae): A Comparative Analysis », The American Naturalist 165(1), , p. 56-69 (DOI10.1086/426599, lire en ligne)
(en) Grant et al., « Phylogenetic Systematics of Dart-Poison Frogs and Their Relatives Revisited (Anura: Dendrobatoidea) », South American Journal of Herpetology 12(s1), (ISSN1982-355X, lire en ligne)
Kok, PJR; MacCulloch, RD; Gaucher, P; Poelman, EH; Bourne, GR; Lathrop, A; Lenglet, GL, « A new species of Colostethus (Anura, Dendrobatidae) from French Guiana with a redescription of Colostethus beebei (Noble, 1923) from its type locality », Phyllomedusa, vol. 5, no 1, , p. 43–66 (DOI10.11606/issn.2316-9079.v5i1p43-66, lire en ligne)
