Access the full text.
Sign up today, get DeepDyve free for 14 days.
D. Glossip, J. B. Losos (1997)
Ecological correlates of number of subdigital lamellae in anolesJ. Herpetol, 53
L. J. Vitt, J. P. Caldwell, P. A. Zani, T. A. Titus (1997)
The role of habitat shift in the evolution of lizard morphology: evidence from tropical Tropidurus, 94
D. Schluter, J. D. McPhail (1993)
Character displacement and replicate adaptive radiationGenetica, 8
T. B. Smith, C. J. Schneider, K. Holder (2001)
Refugial isolation versus ecological gradientsTrends Ecol. Evol, 112
G. C. Mayer (1989)
Deterministic patterns of community structure in West Indian reptiles and amphibiansTrends Ecol. Evol
J. B. Losos, T. R. Jackman, A. Larson, K. Queiroz, L. Rodriguez‐Schettino (1998)
Contingency and determinism in replicated adaptive radiations of island lizardsSyst. Biol, 279
D. J. Irschick, J. B. Losos (1999)
Do lizards avoid habitats in which performance is submaximal? The relationship between sprinting capabilities and structural habitat use in Caribbean anolesSyst. Biol, 154
K. L. Burnell, S. B. Hedges (1990)
Relationships of West Indian Anolis (Sauria: Iguanidae): an approach using slow‐evolving protein lociCaribbean J. Sci, 26
A. Malhotra, R. S. Thorpe (2000)
The dynamics of natural selection and vicariance in the Dominican anole: patterns of within‐island molecular and morphological divergenceMol. Biol. Evol, 54
P. D. Danley, T. D. Kocher (2001)
Speciation in rapidly diverging systems: lessons from Lake MalawiSyst. Biol, 10
T. R. Jackman, A. Larson, K. Queiroz, J. B. Losos (1999)
Phylogenetic relationships and tempo of early diversification in Anolis lizardsJ. Mol. Evol, 48
D. Posada, K. A. Crandall (1998)
Modeltest: testing the model of DNA substitutionProc. Natl. Acad. Sci. USA, 14
A. Schwartz, R. W. Henderson (1991)
Amphibians and reptiles of the West Indies: descriptions, distributions, and natural history. UnivBreviora
A. S. Rand (1967)
The ecological distribution of anoline lizards around Kingston, JamaicaJ. Herpetol, 272
D. Swofford (2002)
PAUP*: phylogenetic analysis using parsimony (* and other methods)
E. E. Williams (1963)
Anolis whitemani, new species from Hispan‐iola (Sauria, Iguanidae), 197
A. Schwartz (1979)
A new species of cybotoid anole (Sauria, Iguanidae) from HispaniolaMol. Phylogenet. Evol, 451
E. E. Williams (1983)
Lizard ecology, studies of a model organism
L. Lenart, R. Powell, J. S. Parmerlee, D. D. Smith, A. Lathrop (1994)
The diet and a gastric parasite of Anolis armouri, a cybotoid anole from montane pine forests in southern HispaniolaPhil. Trans. Roy. Soc. London B, 2
B. I. Crother (1999)
Caribbean amphibians and reptilesAmer. Mus. Novit
J. K. Burns, C. A. Cunningham, R. A. Dupuis, M. N. Trask, J. S. Tulloch, R. Powell, J. S. Parmerlee, K. L. Kopecky, M. L. Jolley (1992)
Lizards of the Cayos Siete Hermanos, Dominican Republic, HispaniolaBull. Chicago Herp. Soc, 27
D.‐X. Zhang, G. M. Hewitt (1996)
Nuclear integrations: challenges for mitochondrial DNA markers, 11
T. Garland, A. W. Dickerman, C. M. Janis, J. A. Jones (1993)
Phylogenetic analysis of covariance by computer simulationMol. Ecol, 42
J. S. Levinton (2001)
Genetics, paleontology, and macroevolution. 2d edAnim. Behav
C. Schneider, C. Moritz (1999)
Rainforest refugia and evolution in Australia's Wet TropicsMol. Biol. Evol, 266
M. J. Sanderson (1997)
A nonparametric approach to estimating divergence times in the absence of rate constancyMilwaukee Public Mus. Contrib. Biol. and Geol, 14
J. Melville, J. A. Schulte, A. Larson (2001)
A molecular phylogenetic study of ecological diversification in the Australian lizard genus CtenophorusProc. Royal Soc. London B, 291
K. Tamura, M. Nei (1993)
Estimation of the number of nu‐cleotide substitutions in the control region of mitochondrial‐DNA in humans and chimpanzees, 10
J. Cracraft (1989)
Speciation and its consequencesMol. Ecol
P. E. Hertz, R. B. Huey, R. D. Stevenson (1993)
Evaluating temperature regulation by field‐active ectotherms: the fallacy of the inappropriate questionAm. Nat, 142
D. E. Irwin (2002)
Phylogeographic breaks without geographic barriers to gene flowBioinformatics, 56
J. B. Losos (1990)
Ecomorphology, performance capability, and scaling of West‐Indian Anolis lizards: an evolutionary analysisScience, 60
A. Malhotra, R. S. Thorpe (1994)
Parallels between island lizards suggests selection on mitochondrial‐DNA and morphologyBreviora, 257
P. E. Hertz (1980)
Comparative physiological ecology of the sibling species Anolis cybotes and A. marcanoiEvolution, 14
K. Queiroz, L.‐R. Chu, J. B. Losos (1998)
A second Anolis lizard in Dominican amber and the systematics and ecological morphology of Dominican amber anolesAm. Nat, 3249
J. B. Losos (1985)
An experimental demonstration of the species‐recognition role of Anolis dewlap colorCopeia, 1985
D. Schluter (2000)
The ecology of adaptive radiationMilwaukee Public Mus. Contrib. Biol. and Geol
A. Schwartz (1989)
A review of the cybotoid anoles (Reptilia: Sauria: Iguanidae) from HispaniolaBreviora, 78
P. H. Harvey, M. D. Pagel (1991)
The comparative method in evolutionary biologyBioinformatics
J. B. Losos, P. L. N. Mouton, R. Bickel, I. Cornelius, L. Ruddock (2002)
The effect of body armature on escape behaviour in cordylid lizardsProc. Roy. Soc. London B, 64
A. G. Stenson, A. Malhotra, R. S. Thorpe (2002)
Population differentiation and nuclear gene flow in the Dominican anole (Anolis oculatus), 11
J. B. Losos (1996)
Ecological and evolutionary determinants of the species‐area relation in Caribbean anoline lizardsAnim. Behav, 351
R. Powell, D. K. Carr (1990)
Anolis whitemani WilliamsBreviora, 462
C. J. Schneider, T. B. Smith, B. Larison, C. Moritz (1999)
A test of alternative models of diversification in tropical rainforests: ecological gradients vs. rainforest refugiaEvolution, 96
A. R. Templeton (1983)
Phylogenetic inference from restriction endonuclease cleavage site maps with particular reference to the evolution of humans and apes, 37
C. J. Schneider (1996)
Distinguishing between primary and secondary intergradation among morphologically differentiated populations of Anolis marmoratusMol. Ecol, 5
J. R. Macey, J. A. Schulte, N. B. Ananjeva, A. Larson, N. Rastegar‐Pouyani, S. M. Shammakov, T. J. Papenfuss (1998)
Phy‐logenetic relationships among agamid lizards of the Laudakia caucasia species group: testing hypotheses of biogeographic fragmentation and an area cladogram for the Iranian PlateauJ. Exp. Zool, 10
D. R. Maddison, W. P. Maddison (2000)
MacClade 4: analysis of phylogeny and character evolution. Ver. 4.0Catalogue of American Amphibians and Reptiles
E. Abouheif (1999)
A method for testing the assumption of phylogenetic independence in comparative dataEvol. Ecol. Res, 1
R. Díaz‐Uriarte, T. Garland (1996)
Testing hypotheses of correlated evolution using phylogenetically independent contrasts: sensitivity to deviations from Brownian motionSyst. Biol, 45
J. P. Huelsenbeck, F. Ronquist (2001)
MRBAYES: Bayesian inference of phylogenetic treesBiol. J. Linnean Soc, 17
P. C. Wainwright, S. M. Reilly (1994)
Ecological morphology
A. Schwartz, R. W. Henderson (1982)
Anolis cybotes (Reptilia, Iguanidae): the eastern Hispaniolan populationsBreviora, 49
A. Schwartz (1980)
Variation in Hispaniolan Anolis whitemani WilliamsProc. Natl. Acad. Sci. USA, 14
T. P. Webster (1975)
An electrophoretic comparison of the His‐paniolan lizards Anolis cybotes and A. marcanoi, 431
Y. Kumazawa, M. Nishida (1993)
Sequence evolution of mitochondrial transfer‐RNA genes and deep‐branch animal phylogeneticsCopeia, 37
E. E. Williams (1975)
Anolis marcanoi new species: sibling to Anolis cybotes: description and field evidence, 430
K. Bremer (1994)
Branch support and tree stabilityCladistics, 10
J. R. Macey, A. Larson, N. B. Ananjeva, T. J. Papenfuss (1997)
Evolutionary shifts in three major structural features of the mi‐tochondrial genome among iguanian lizardsEvolution, 44
J. R. Macey, J. A. Schulte, A. Larson, N. B. Ananjeva, Y. Z. Wang, R. Pethiyagoda, N. Rastegar‐Pouyani, T. J. Papenfuss (2000)
Evaluating trans‐tethys migration: an example using acrodont lizard phylogeneticsBioinformatics, 49
J. B. Losos (1999)
Uncertainty in the reconstruction of ancestral character states and limitations on the use of phylogenetic comparative methodsJ. Mol. Evol, 58
M. E. Gifford, Y. M. Ramos, R. Powell, J. S. Parmerlee (2002)
Natural history of a saxicolous anole, Anolis longitibialis from HispaniolaHerpetologica, 9
T. R. Jackman, D.J. Irschick, K. Queiroz, J. B. Losos, A. Larson (2002)
Molecular phylogenetic perspective on evolution of lizards of the Anolis grahami seriesSyst. Biol, 294
D. J. Irschick, J. B. Losos (1998)
A comparative analysis of the ecological significance of maximal locomotor performance in Caribbean Anolis lizardsEvolution, 52
D. J. Irschick, C. C. Austin, K. Petren, R. N. Fisher, J. B. Losos, O. Ellers (1996)
A comparative analysis of clinging ability among pad‐bearing lizardsJ. Exp. Zool, 59
T. Townsend, A. Larson (2002)
Molecular phylogenetics and mitochondrial genomic evolution in the Chamaeleonidae (Rep‐tilia, Squamata), 23
N. Goldman, J. P. Anderson, A. G. Rodrigo (2000)
Likelihood‐based tests of topologies in phylogeneticsAm. Nat, 49
J. B. Losos, L. R. Chu (1998)
Examination of factors potentially affecting dewlap size in Caribbean anolesMol. Phylogenet. Evol, 1998
A. R. Templeton (1998)
Molecular approaches to ecology and evolution
R. E. Glor, L. J. Vitt, A. Larson (2001)
A molecular phylogenetic analysis of diversification in Amazonian Anolis lizardsSyst. Biol, 10
K. Beuttell, J. B. Losos (1999)
Ecological morphology of Caribbean anolesHerp. Monogr, 13
J. Felsenstein (1985)
Phylogenies and the comparative methodHerpetol. Nat. Hist, 125
C. A. Meacham, T. Duncan (1990)
Morphosys. Ver. 1.26Mol. Ecol
T. R. Buckley (2002)
Model misspecification and probabilistic tests of topology: evidence from empirical data setsSyst. Biol, 51
M. S. Y. Lee (2000)
Tree robustness and clade significanceEcol. Monogr, 49
S. Kumar, K. Tamura, I. B. Jakobsen, M. Nei (2001)
MEGA2: molecular evolutionary genetics analysis softwareHerpetol. Nat. Hist, 17
Abstract Anolis lizards in the Greater Antilles partition the structural microhabitats available at a given site into four to six distinct categories. Most microhabitat specialists, or ecomorphs, have evolved only once on each island, yet closely related species of the same ecomorph occur in different geographic macrohabitats across the island. The extent to which closely related species of the same ecomorph have diverged to adapt to different geographic macro‐habitats is largely undocumented. On the island of Hispaniola, members of the Anolis cybotes species group belong to the trunk‐ground ecomorph category. Despite evolutionary stability of their trunk‐ground microhabitat, populations of the A. cybotes group have undergone an evolutionary radiation associated with geographically distinct macrohabitats. A combined phylogeographic and morphometric study of this group reveals a strong association between macrohabitat type and morphology independent of phylogeny. This association results from long‐term morphological evolutionary stasis in populations associated with mesic‐forest environments (A. c. cybotes and A. marcanoi) and predictable morphometric changes associated with entry into new macrohabitat types (i.e., xeric forests, high‐altitude pine forest, rock outcrops). Phylogeographic analysis of 73 new mitochondrial DNA sequences (1921 aligned sites) sampled from 68 geographic populations representing 12 recognized species and subspecies diagnoses 16 allopatric or parapatric groupings of populations differing from each other by 5–18% sequence divergence. At least some of these groupings appear to have attained species‐level divergence from others. Evolutionary specialization to different macrohabitat types may be a major factor in the evolutionary diversification of Greater Antillean anoles.
Evolution – Wiley
Published: Oct 1, 2003
Keywords: ; ; ; ;
Read and print from thousands of top scholarly journals.
Already have an account? Log in
Bookmark this article. You can see your Bookmarks on your DeepDyve Library.
To save an article, log in first, or sign up for a DeepDyve account if you don’t already have one.
Copy and paste the desired citation format or use the link below to download a file formatted for EndNote
Access the full text.
Sign up today, get DeepDyve free for 14 days.
All DeepDyve websites use cookies to improve your online experience. They were placed on your computer when you launched this website. You can change your cookie settings through your browser.