Scott J Steppan
Scott J Steppan
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Zitiert von
Zitiert von
Phylogeny and divergence-date estimates of rapid radiations in muroid rodents based on multiple nuclear genes
SJ Steppan, RM Adkins, J Anderson
Systematic biology 53 (4), 533-553, 2004
Comparative quantitative genetics: evolution of the G matrix
SJ Steppan, PC Phillips, D Houle
Trends in ecology & evolution 17 (7), 320-327, 2002
Revision of the tribe Phyllotini (Rodentia: Sigmodontinae), with a phylogenetic hypothesis for the Sigmodontinae
SJ Steppan
(No Title), 1995
Muroid rodent phylogenetics: 900-species tree reveals increasing diversification rates
SJ Steppan, JJ Schenk
PloS one 12 (8), e0183070, 2017
Phylogenomic evidence for multiple losses of flight in ratite birds
J Harshman, EL Braun, MJ Braun, CJ Huddleston, RCK Bowie, ...
Proceedings of the National Academy of Sciences 105 (36), 13462-13467, 2008
Pliocene colonization and adaptive radiations in Australia and New Guinea (Sahul): multilocus systematics of the old endemic rodents (Muroidea: Murinae)
KC Rowe, ML Reno, DM Richmond, RM Adkins, SJ Steppan
Molecular phylogenetics and evolution 47 (1), 84-101, 2008
Nuclear DNA phylogeny of the squirrels (Mammalia: Rodentia) and the evolution of arboreality from c-myc and RAG1
SJ Steppan, BL Storz, RS Hoffmann
Molecular phylogenetics and evolution 30 (3), 703-719, 2004
Ecological opportunity and incumbency in the diversification of repeated continental colonizations by muroid rodents
JJ Schenk, KC Rowe, SJ Steppan
Systematic biology 62 (6), 837-864, 2013
Ancient hybridization and mitochondrial capture between two species of chipmunks
JM Good, S Hird, N Reid, JR Demboski, SJ Steppan, TR MARTIN‐NIMS, ...
Molecular ecology 17 (5), 1313-1327, 2008
Insights into the ecology and evolutionary success of crocodilians revealed through bite-force and tooth-pressure experimentation
GM Erickson, PM Gignac, SJ Steppan, AK Lappin, KA Vliet, JD Brueggen, ...
PLoS One 7 (3), e31781, 2012
Multigene phylogeny of the Old World mice, Murinae, reveals distinct geographic lineages and the declining utility of mitochondrial genes compared to nuclear genes
SJ Steppan, RM Adkins, PQ Spinks, C Hale
Molecular phylogenetics and evolution 37 (2), 370-388, 2005
Molecular phylogeny of the marmots (Rodentia: Sciuridae): tests of evolutionary and biogeographic hypotheses
SJ Steppan, MR Akhverdyan, EA Lyapunova, DG Fraser, NN Vorontsov, ...
Systematic biology 48 (4), 715-734, 1999
Evolution of hypercarnivory: the effect of specialization on morphological and taxonomic diversity
JA Holliday, SJ Steppan
Paleobiology 30 (1), 108-128, 2004
A supermatrix-based molecular phylogeny of the family Drosophilidae
KIM Van Der Linde, D Houle, GS Spicer, SJ Steppan
Genetics research 92 (1), 25-38, 2010
Phylogenetic analysis of phenotypic covariance structure. I. Contrasting results from matrix correlation and common principal component analyses
SJ Steppan
Evolution 51 (2), 571-586, 1997
Molecular phylogeny of the endemic Philippine rodent Apomys (Muridae) and the dynamics of diversification in an oceanic archipelago
SJ Steppan, C Zawadzki, LR Heaney
Biological Journal of the Linnean Society 80 (4), 699-715, 2003
Phylogenetic Relationships and Species Limits within Phyllotis (Rodentia: Sigmodontinae): Concordance between mtDNA Sequence and Morphology
SJ Steppan
Journal of Mammalogy 79 (2), 573-593, 1998
Molecular analysis of a 11 700‐year‐old rodent midden from the Atacama Desert, Chile
M Kuch, N Rohland, JL Betancourt, C Latorre, S Steppan, HN Poinar
Molecular ecology 11 (5), 913-924, 2002
Phylogenetic analysis of phenotypic covariance structure. II. Reconstructing matrix evolution
SJ Steppan
Evolution 51 (2), 587-594, 1997
Molecular systematics of gerbils and deomyines (R odentia: G erbillinae, D eomyinae) and a test of desert adaptation in the tympanic bulla
BH Alhajeri, OJ Hunt, SJ Steppan
Journal of Zoological Systematics and Evolutionary Research 53 (4), 312-330, 2015
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