sameAs
A new red-eyed of stream treefrog of Hyloscirtus (Anura: Hylidae) from Peru, with comments on the taxonomy of the genusThe complex evolutionary history of the tympanic middle ear in frogs and toads (Anura).The Amphibian Tree of LifePhylogenetic relationships and morphology of the <i>Pristimantis leptolophus</i> species group (Amphibia: Anura: Brachycephaloidea), with the recognition of a new species group in <i>Pristimantis</i> Jiménez de la Espada, 1870.Two new endangered species of Anomaloglossus (Anura: Aromobatidae) from Roraima State, northern BrazilCorrections to “Padial et al. (2014) Molecular systematics of terraranas (Anura: Brachycephaloidea) with an assessment of the effects of alignment and optimality criteria”Molecular systematics of terraranas (Anura: Brachycephaloidea) with an assessment of the effects of alignment and optimality criteriaBiological invasions and the acoustic niche: the effect of bullfrog calls on the acoustic signals of white-banded tree frogs.Phylogenetics of the lizard genus Tropidurus (Squamata: Tropiduridae: Tropidurinae): direct optimization, descriptive efficiency, and sensitivity analysis of congruence between molecular data and morphology.Ratio of explanatory power (REP): a new measure of group support.Discovery of a novel accessory structure of the pitviper infrared receptor organ (serpentes: viperidae).Mitogenome assembly from genomic multiplex libraries: comparison of strategies and novel mitogenomes for five species of frogs.The relationship between poison frog chemical defenses and age, body size, and sex.Concentrated evolutionary novelties in the foot musculature of Odontophrynidae (Anura: Neobatrachia), with comments on adaptations for burrowing.Sequestered and Synthesized Chemical Defenses in the Poison Frog Melanophryniscus moreirae.Dietary alkaloid sequestration in a poison frog: an experimental test of alkaloid uptake in Melanophryniscus stelzneri (Bufonidae).Brazil's government attacks biodiversityPHYLOGENETIC SYSTEMATICS OF DART-POISON FROGS AND THEIR RELATIVES (AMPHIBIA: ATHESPHATANURA: DENDROBATIDAE)An Extraordinary New Species ofMelanophryniscus(Anura, Bufonidae) from Southeastern BrazilA New Species of Semiarboreal Toad with a Salamander-Like Ear (Anura: Bufonidae:Rhinella)Review of the Frog GenusSilverstoneia, with Descriptions of Five New Species from the Colombian Chocó (Dendrobatidae: Colostethinae)Anomaloglossus confusus, a New Ecuadorian Frog Formerly Masquerading as “Colostethus” chocoensis (Dendrobatoidea: Aromobatidae)Does counting species count as taxonomy? On misrepresenting systematics, yet againA Remarkable New White-Eyed Glassfrog Species of Sachatamia from Colombia (Anura: Centrolenidae), with Comments on the Systematics of the GenusPhylogeny of Riama (Squamata: Gymnophthalmidae), impact of phenotypic evidence on molecular datasets, and the origin of the Sierra Nevada de Santa Marta endemic faunaPhylogenetic Systematics of Dart-Poison Frogs and Their Relatives Revisited (Anura: Dendrobatoidea)A new strategy to infer circularity applied to four new complete frog mitogenomes.Systematics of the Neotropical GenusLeptodactylusFitzinger, 1826 (Anura: Leptodactylidae): Phylogeny, the Relevance of Non-molecular Evidence, and Species AccountsInvasion of the acoustic niche: variable responses by native species to invasive American bullfrog callsAmphibian richness patterns in Atlantic Forest areas invaded by American bullfrogsIs The Amphibian Tree of Life really fatally flawed?New Morphological Synapomorphies for the New World Direct-Developing Frogs (Amphibia: Anura: Terrarana)Discovery of the Frog GenusAnomaloglossusin Panama, with Descriptions of Two New Species from the Chagres Highlands (Dendrobatoidea: Aromobatidae)REP provides meaningful measurement of support across datasetsCredit where credit is due: The Goodman–Bremer support metricThe poverty of adult morphology: Bioacoustics, genetics, and internal tadpole morphology reveal a new species of glassfrog (Anura: Centrolenidae: Ikakogi) from the Sierra Nevada de Santa Marta, ColombiaLens transmittance shapes ultraviolet sensitivity in the eyes of frogs from diverse ecological and phylogenetic backgroundsDifferences in ocular media transmittance in classical frog and toad model species and its impact on visual sensitivity
P50
Q1827988-ED29F999-9F31-4B19-8CFF-F36F8ACD8CC1Q19508620-064f638c-468f-8754-1cc5-10686aed7b1bQ19508647-8e1b38e2-4c0d-5a1f-1ef4-05b8e8eea7b9Q38340596-73FB5931-DD49-4215-96BC-8429B6507CF0Q44585770-9f5b7cc3-4b23-9f72-bfc2-4355178a4abaQ45333379-FAD979D1-FC86-4F04-82AB-6D62311A61B9Q45333380-DD6504EF-C783-4629-A22F-39864A6CDFAAQ45333382-8CCD3B95-1207-4CA0-96BE-87B4372C92C5Q45333385-CAD49AA1-D213-4F78-B99A-A7CA2AAAA16CQ4672856-682DCC20-AD40-4B25-87CA-BE6C47586FD9Q979849-A077A607-A1AA-417E-9BB0-B9E2EEF4C2D0q1343542-437984BC-20B9-40F2-9E71-C79A3FC6B4D6
P405
Q21998303-55176C92-C76E-4F4F-825B-6193E5831A29Q27342654-B70DD801-A27C-422E-ACB5-C6D564245B9BQ29035814-989DBE16-751C-4A69-9A1E-4469FCD36F5DQ29391085-CBAA5B4F-9501-4D0E-8834-054899526CE2Q29461934-059C0ACC-08E2-43F3-B311-8609889FBC75Q29463480-39DC2B8B-2BFB-4EA6-9ACB-B94DC66C7EE6Q29463580-01202A9B-4FF8-4B3F-83D4-691D8EF227B1Q30448059-CEE1B7A3-9941-4FBB-B8DE-C3832F9FC00EQ30666879-5D7167A3-5D3C-4C0B-888A-8AB9EB3B524EQ30829929-FA6D53A9-429E-4C6C-AF41-B1448885CDF8Q35111038-48866BB4-E194-4643-BED2-66828EBA5D3BQ35852843-D50BDBBD-E79E-44CF-A672-960ADCEF1457Q36115461-A9B3D1B8-412E-46F8-9F38-91B10A184162Q38727580-0CB1380C-6C4E-4B64-B5E0-6C5FD5667805Q46738950-AC190062-1927-43C1-9E12-966BF7C52FCEQ46975480-665CFF1D-4AF2-46BF-823D-B81F131AE840Q54270541-523E9D11-0876-48AB-80F2-5216460B98A4Q54281646-9B6C2393-5352-4E7F-B680-702914387C54Q54516996-62310625-CAB3-46CA-A893-D6849E9B4077Q54563515-B598ADF7-219C-49C5-9E6B-A703BB2A06B4Q54567410-1F11698E-37A9-4D47-9692-79A9E1B4C157Q54636303-55498AB4-495A-43B4-BE4F-BE5A7A3E4414Q54688076-3E42EC60-1FCE-4A65-80BE-1B9520FC0E2BQ54800170-BB0469C2-A7D5-4052-AC84-3A80591C6DFCQ54800751-379A5B63-65E3-48C1-A410-D58D71DF16BAQ54801200-697B9326-D0F5-4DE4-B6C4-36C80D4060A8Q55423434-AEA1A64E-E042-44E0-B0A0-608FF98A3366Q55921311-1756B15A-D07F-4FE4-983A-1CB09091528CQ56342338-420A93DA-9E5B-4623-91FC-4BDE2050186BQ56446852-A5E69A2F-5182-4AE4-AEAE-F2EF0E402285Q60141377-B27813FD-9218-4F0C-8F62-21DDD344BC00Q60327868-58774BC0-9241-4D94-992B-773E2C953F70Q60327872-E805170F-A5A6-42E5-B13B-995ED190FADBQ60327881-6A603175-B19A-4AB2-BF63-2409C9A46734Q60327887-249EF033-24B2-48B5-9D48-8F9C522E5849Q64062637-BFAD6694-3D13-44B9-B110-EB77BC806F79Q92475459-A7B60F5C-1562-4D26-A5E7-D170BE41A854Q92571133-C0937EF8-B4B9-4E80-89C0-DA99767BC79C
P50
description
American herpetologist
@en
Amerikaans herpetologist
@nl
US-amerikanischer Herpetologe
@de
amerikai herpetológus
@hu
erpetolojiste american
@lfn
herpetólogo estadounidense
@es
herpétologiste américain
@fr
американский герпетолог
@ru
عالم زواحف من الولايات المتحدة الأمريكية
@ar
name
Taran Grant
@ast
Taran Grant
@ca
Taran Grant
@de
Taran Grant
@en
Taran Grant
@es
Taran Grant
@fr
Taran Grant
@hu
Taran Grant
@it
Taran Grant
@lfn
Taran Grant
@nl
type
label
Taran Grant
@ast
Taran Grant
@ca
Taran Grant
@de
Taran Grant
@en
Taran Grant
@es
Taran Grant
@fr
Taran Grant
@hu
Taran Grant
@it
Taran Grant
@lfn
Taran Grant
@nl
altLabel
Grant
@en
غرانت
@ar
prefLabel
Taran Grant
@ast
Taran Grant
@ca
Taran Grant
@de
Taran Grant
@en
Taran Grant
@es
Taran Grant
@fr
Taran Grant
@hu
Taran Grant
@it
Taran Grant
@lfn
Taran Grant
@nl
P1006
P214
P1006
P1153
7103120541
P2006
36BAD411-ACBF-47AA-AE01-9EE4E770DEB2
788ABD66-4186-4216-BB3E-9148F3D2745E
P21
P213
0000 0003 7362 6656
P214
P31
P496
0000-0003-1726-999X
P569
1953-01-01T00:00:00Z
P734
P735
P7859
viaf-164805942