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Taxonomie, morfologie a biologie velkých kubánských anolisů se zaměřením na malakofágní formy
Název práce v češtině: Taxonomie, morfologie a biologie velkých kubánských anolisů se zaměřením na malakofágní formy
Název v anglickém jazyce: Taxonomy, morphology and biology of large Cuban anoles with a focus on malacophagous forms
Klíčová slova: Anolis, Chamaeleolis, taxonomie anolisů, pohlavní dimorfismus, zbarvení laloku, mtDNA, malakofágie, tvar těla, tvar hlavy, síla skusu, dentice, tvar zubu, výměna zubu, Kuba, neotropická oblast
Klíčová slova anglicky: Anolis, Chamaeleolis, taxonomy of anoles, sexual dimorphism, dewlap coloration, mtDNA, malacophagy, body shape, head shape, bite force, dentition, tooth shape, tooth replacement, Cuba, Neotropical Region
Akademický rok vypsání: 2008/2009
Typ práce: disertační práce
Jazyk práce: čeština
Ústav: Katedra zoologie (31-170)
Vedoucí / školitel: RNDr. Ivan Rehák, CSc.
Řešitel: skrytý - zadáno vedoucím/školitelem
Datum přihlášení: 15.04.2010
Datum zadání: 15.04.2010
Datum odevzdání elektronické podoby:05.10.2024
Datum proběhlé obhajoby: 26.11.2024
Oponenti: RNDr. Jiří Moravec, CSc.
  prof. RNDr. Marcela Buchtová, Ph.D.
 
 
Konzultanti: prof. RNDr. Daniel Frynta, Ph.D.
Seznam odborné literatury
Abdala, V., Manzano, A.S., Nieto, L., Diogo, R., 2009. Comparative myology of Leiosauridae (Squamata) and its bearing on their phylogenetic relationships. Belg. J. Zool. 139(2), 109–123.
Adolph, S.C., Roughgarden, J., 1983. Foraging by Passerine Birds and Anolis Lizards on St. Eustatius (Neth. Antilles): Implications for Interclass Competition, and Predation. Oecologia 56, 313–317. https://doi.org/10.1007/BF00379705Andersson, M. (1994). Sexual selection. Princeton: Princeton University Press.
Andrews, R. & Rand, A.S. (1974). Reproductive effort in anoline lizards. Ecology 55, 1317–1327.
Aguirre LF, Herrel A, Van Damme R, Mathyssen E. 2003. The implications of food hardness for diet in bats. Funct Ecol 17:201–212.
Badyaev, A.V. (2002). Growing apart: an ontogenetic perspective on the evolution of sexual size dimorphism. Trends Ecol. Evol. 17, 369–378.
Badyaev, A.V. & Martin, T.E. (2000). Individual variation in growth trajectories: phenotypic and genetic correlations in ontogeny of the house finch (Carpodacus mexicanus). J. Evol. Biol. 13, 290–301.
Badyaev A. V. & Hill G. E. 2003: Avian sexual dichromatism in relation to phylogeny and ecology. Annual Review of Ecology, Evolution, and Systematics 34: 27–49.
Badyaev, A.V., Hill, G.E. & Whittingham, L.A. (2001a). The evolution of sexual size dimorphism in the house finch. IV. Population divergence in ontogeny. Evolution 55, 2534–2549.
Badyaev, A.V., Whittingham, L.A. & Hill, G.E. (2001b). The evolution of sexual size dimorphism in the house finch. III. Developmental basis. Evolution 55, 176–189.
Bardet, N., Suberbiola, P., Iarochéne, M., Amalik, M., Bouya, B., 2005. Durophagous Mosasauridae (Squamata) from the Upper Cretaceous phosphates of Morocco, with description of a new species of Globidens. Neth. J. Geosci. 84–83, 167–175. https://doi.org/10.1017/S0016774600020953
Barros, T.R., Esqueda, L.F., Mijares, A., La Marca, E., Nicholson, K.E., 2007. The anoline “lost link” rediscovered: variation and distribution of Anolis annectens Williams 1974 (Squamata Polychrotidae). Trop. Zool. 20, 41–53.Bell R. C. & Zamudio K. R. 2012: Sexual dichromatism in frogs: natural selection, sexual selection and unexpected diversity. Proceedings of the Royal Society of London B, Biological Sciences 279: 4687–4693.
Bels VL, Baltus I. 1988. The influence of food items on the feeding cycle in Anolis equestris (Reptilia: Iguanidae). Copeia 2:479–481.
Beuttell, K., Losos, J.B., 1999. Ecological morphology of Caribbean anoles. Herpetol. Monogr. 13, 1–28.
Bonneaud, C., Marnocha, E., Herrel, A., Vanhooydonck, B., Irschick, D.J. & Smith, T. (in press). Field and laboratory evidence that developmental plasticity affects sexual size dimorphism in an anole lizard (Anolis sagrei). Funct. Ecol. (in press).
Bowersox, S.R., Calderon, S., Powell, R., Parmelee Jr., J.S., Smith, D.D., Lathrop, A., 1994. Nahrung eines Riesenanolis, Anolis barahonae, von Hispaniola, mit einer Zusammenfassung des Nahrungsspektrums westindischer Riesenanolis-Arten. Salamandra 30, 155–160.
Brach, V., 1976. Habits and food of Anolis equestris in Florida. Copeia 1976, 187–189.
Bramble DM, Wake DB. 1985. Feeding mechanisms of lower tetrapods. In: Hildebrand M., Liem KF., Bramble DM., Wake DB., editors. Functional vertebrate morphology. Harvard: Harvard University Press. p 230–261.
Bronikowski, A.M. (2000). Experimental evidence for the adaptive evolution of growth rate in the garter snake Thamnophis elegans. Evolution 54, 1760–1767.
Buchtová, M., Handrigan, G.H., Tucker, A.S., Lozanoff, S., Town L., Fu, K., Diewert, V.M., Wicking, C., Richman, J.M., 2008. Initiation and patterning of the snake dentition are dependent on Sonic Hedgehog signaling. Dev. Biol. 319, 132–145. https://doi.org/10.1016/j.ydbio.2008.03.004
Buchtová, M., Zahradnicek, O., Balková, S., Tucker, A.S., 2013. Odontogenesis in the Veiled Chameleon (Chamaeleo calyptratus). Arch. Oral. Biol. 58(2), 118–133. https://doi.org/10.1016/j.archoralbio.2012.10.019
Bullock, D.J., Jury, H.M., Evans, P.G.H., 1993. Foraging ecology in the lizard Anolis oculatus (Iguanidae) from Dominica, West Indies. J. Zool., Lond. 230, 19–30.https://doi.org/10.1111/j.1469-7998.1993.tb02669.x
Butler, M.A. (2007). Vive le difference! Sexual dimorphism and adaptive patterns in lizards of the genus Anolis. Integr. Comp. Biol. 47, 272–284.
Butler, M.A. and J.B. Losos. 2002. Multivariate sexual dimorphism, sexual selec­tion, and adaptation in Greater Antillean Anolis lizards. Ecological Monographs 72:541–559.
Butler, M.A., Schoener, T.W. & Losos, J.B. (2000). The relationship between sexual size dimorphism and habitat use in Greater Antillean Anolis lizards. Evolution 54, 259–272.
Butler, M.A., S.A. Sawyer, and J.B. Losos. 2007. Sexual dimorphism and adaptive radiation in Anolis lizards. Nature 447:202–205.
Calsbeek, R., Irschick, D.J., 2007. The quick and the dead: locomotor performance and natural selection in island lizards. Evolution 61, 2493–2503.
Calsbeek, R. and T.B. Smith. 2007. Probing the adaptive landscape using experi­mental islands: Density-dependent natural selection on lizard body size. Evolution 61:1052–1061.
Calsbeek, R., C. Bonneaud, and T.B. Smith. 2008. Differential fitness effects of immunocompetence and neighbourhood density in alternative female lizard morphs. Journal of Animal Ecology 77:103–109.
Capote, R.P. and R. Berazaín. 1984. Clasificación de las formaciones vegetales de Cuba. Revista del Jardín Botánico Nacional de la Universidad de la Habana 5(2):27–75.
Caro T. M. 1995: Pursuit-deterrence revisited. Trends in Ecology & Evolution 10: 500–503.
Castaneda, M.R. del, Sherratt, E., Losos, J.B., 2014. The Mexican amber anole, Anolis electrum, within a phylogenetic context: implications for the origins of Caribbean anoles. Zool. J. Linn. Soc. 172, 133–144.https://doi.org/10.1111/zoj.12159
Castro SA, Jimenez JE, Jaksic FM. 1991. Diet of the racerunner Callopistes palluma in North-Central Chile. J Herpetol 25:127–129.
Christensen, K., Melstrom, K., 2021. Quantitative analyses of squamate dentition demonstrate novel morphological patterns. PlosOne 16(9), e0257427.https://doi.org/10.1371/journal.pone.0257427
Cocteau, J. T., Bibron, G., 1838. Reptiles, In: De la Sagra, R. (Ed.), Historia fisica, politica y natural de la Isla de Cuba, Secunda parte, Historia natural, Tomo 4, Reptiles y Peces, Arthus Bertrand, Paris ‘1843’, pp. 1–143.
Cooper, J.S., Poole, D.F.G., Lawson, R., 1970. The dentition of agamid lizards with special reference to tooth replacement. J. Zool. Lond. 162, 85–98. https://doi.org/10.1111/j.1469-7998.1970.tb01259.x
Cope E. D. 1864: Contributions to the herpetology of tropical America. Proceedings of the Academy of Natural Sciences of Philadelphia 1864: 166–181.
Cox, R.M. & John-Alder, H.B. (2007). Growing apart together, the development of contrasting sexual size dimorphisms in sympatric Sceloporus lizards. Herpetologica 63, 245–257.
D´Amore D.C., 2015. Illustrating ontogenetic change in the dentition of the Nile monitor lizard, Varanus niloticus: a case study in the application of geometric morphometric methods for the quantification of shape-size heterodonty. J. Anat. 226(5), 403–419. https://doi.org/10.1111/joa.12293
Dalrymple, G.H., 1979. On the jaw mechanism of the snailcrushing lizards, Dracaena Daudin 1802 (Reptilia, Lacertilia, Teiidae). J. Herpetol. 13, 303–311.
Dalrymple, G.H., 1980. Comments on the density and diet of a giant anole Anolis equestris. J. Herpetol. 14, 412–415.
Darwin, C. (1871). The descent of man, and selection in relation to sex. London: John Murray.
De Queiroz, K., Chu, L.R., Losos, J.B., 1998. A second anolis lizard in Dominican amber and the systematics and ecological morphology of Dominican amber anoles. Am. Mus. Novit. 3249, 23 pp.
Delgado, S., Davit-Béal, T., Allizard, F., Sire, J.-Y., 2005. Tooth development in a scincid lizard, Chalcides viridanus (Squamata), with particular attention to enamel formation. Cell Tissue Res. 319(1), 71–89. doi: 10.1007/s00441-004-0950-2
Delgado, S., Davit-Beal, T., Sire, J.-Y., 2003. Dentition and Tooth Replacement Pattern in Chalcides (Squamata; Scincidae). J. Morphol. 256, 146–159. https://doi.org/10.1002/jmor.10080
Dessem D. 1985. Ontogenetic changes in the dentition and diet of Tupinambis (Lacertilia: Teiidae). Copeia 1985:245–247.
Díaz L. M., Navarro N. & Garrido O. H. 1998: Nueva especie de Chamaeleolis (Sauria: Iguanidae) de la Meseta de Cabo Cruz, Granma, Cuba. Avicennia 8–9: 27–34.
Dosedělová, H., Štěpánková, K., Zikumnd, T., Lesot, H., Kaiser, J., Novotný, K., Štembírek, J., Knotek, Z., Zahradníček, O., Buchtová, M., 2016. Age-related changes in the tooth-bone interface area of acrodont dentition in the chameleon. J. Anat. 229(3), 356–368. https://doi.org/10.1111/joa.12490
Duellman WE. 2005. Cusco Amazonico: the lives of amphibians and reptiles in an Amazonian rainforest. Ithaca: Cornell University Press. 433 pp.
Duméril, A.M.C., Bibron, G., 1837. Erpétologie Générale ou Histoire Naturelle Complete des Reptiles Vol. 4, Libr. Encyclopédique Roret, Paris.
Echelle, A.F., Echelle, A.A. & Fitch, H.S. (1978). Inter- and intraspecific allometry in a display organ: the dewlap of Anolis (Iguanidae) species. Copeia 1978, 245–250.
Edmund, A.G., 1969. Dentition, In: Gans, C., Bellairs, A. d`A, Parsons, T.S. (Eds.), Biology of Reptilia, vol1. Morphology A. Academic Press, New York, pp. 117–200.
Estes, R., 1961. Miocene lizards from Colombia, South America. Breviora 143, 1–11.
Estes, R.D., 1983. Encyclopedia of Paleoherpetology, 10A. Sauria terrestria, Amphisbaenia, Gustav Fisher, Stuttgart and New York.
Estes, R., Williams, E.E., 1984. Ontogenetic variation in the molariform teeth of lizards. J. Vert. Paleontol. 4, 96–107. https://doi.org/10.1080/02724634.1984.10011989
Etheridge, R., De Queiroz, K., 1988. A phylogeny of Iguanidae, In Estes, R. and Pregill, G. (eds.), Phylogenetic relationships of lizard families: essays commemorating Charles L. Camp. Stanford Univ. Press, Stanford, CA, pp. 283–386.
Fisher Huckins, C.J., 1997. Functional linkages among morphology, feeding performance, diet, and competitive ability in molluscivorous sunfish. Ecology 78, 2401–2414.
Fitch, H.S. & Hillis, D.M. (1984). The Anolis dewlap: interspecific variability and morphological associations with habitat. Copeia 1984, 315–325.
Fitch, H.S., Henderson, R.W., 1987. Ecological and ethological parameters in Anolis bahorucoensis, a species having rudimentary development of the dewlap. Amphib. Reptil 8, 69–80.
Fleishman L. J., Leal M. & Persons M. H. 2009: Habitat light and dewlap color diversity in four species of Puerto Rican anoline lizards. Journal of Comparative Physiology A 195: 1043–1060.
Fleishman L. J., Loew E. R. & Whiting M. J. 2011: High sensitivity to short wavelengths in a lizard and implications for understanding the evolution of visual systems in lizards. Proceedings of the Royal Society of London B, Biological Sciences 278: 2891–2899.
Font, E. & Rome, L.C. (1990). Functional morphology of dewlap extension in the lizard Anolis equestris. J. Morphol. 206, 245–258.
Font E., Pérez i de Lanuza G. & Sampedro C. 2009: Ultraviolet reflectance and cryptic sexual dichromatism in the ocellated lizard, Lacerta (Timon) lepida (Squamata: Lacertidae). Biological Journal of the Linnean Society 97: 766–780.
Frýdlová P., Velenský P., Šimková O., Cikánová V., Hnízdo J., Rehák I. & Frynta D. 2011: Is body shape of mangrovedwelling monitor lizards (Varanus indicus; Varanidae) sexually dimorphic? Amphibia-Reptilia 32: 27–37.
Gans C. 1969. Comments on inertial feeding. Copeia 4:855–857.
Garrido O. H. 1982: Descripción de una nueva especie cubana de Chamaeleolis (Lacertilia: Iguanidae), con notas sobre su comportamiento. Poeyana 236: 1–25.
Garrido O. H. & Schwartz A. 1968: Cuban lizards of the genus Chamaeleolis. Quarterly Journal of Florida Academy of Sciences 30: 197–220.
Garrido O. H., Pérez-Beato O. & Moreno L. V. 1991: Nueva especie de Chamaeleolis (Lacertilia: Iguanidae) para Cuba. Caribbean Journal of Science. 27: 162–168.
Giugliano LG, Collevatti RG, Colli GR. 2007. Molecular dating and phylogenetic relationships among Teiidae (Squamata) inferred by molecular and morphological data. Mol Phyl Evol 45:168–179.
Glor R. E., Gifford M. E., Larson A., Losos J. B., Schettino R. L., Ada R., Lara C. & Jackman T. R. 2004: Partial island submergence and speciation in an adaptive radiation: a multilocus analysis of the Cuban green anoles. Proceedings of the Royal Society of London B, Biological Sciences 271: 2257–2265.
Gomez D. 2006: AVICOL, A Program to Analyse Spectrometric Data. Free executable available at http://sites.google.com/site/avicolprogram/
Grant BR. 1985. Selection on bill characteristics in a population of Darwin’s finches: Geospiza conirostris on Isla Genovesa, Galapagos. Evolution 39:523–532.
Greene HW. 1982. Dietary and phenotypic diversity in lizards: why are some organisms specialized? In: Mossakowski D., Roth G. editors. Environmental adaptation and evolution. Stuttgart: Gustav Fischer. p 107–128.
Haenel, G.J. & John-Alder, H.B. (2002). Experimental and demographic analyses of growth rate and sexual size dimorphism in a lizard, Sceloporus undulatus. Oikos 96, 70–81.
Hagman M. & Ord T. J. 2016: Many paths to a common destination: morphological differentiation of a functionally convergent visual signal. American Naturalist 188: 306–318.
Harmon, L.J., Kolbe, J.J., Cheverud, J.M., Losos, J.B., 2005. Convergence and the multidimensional niche. Evolution 59, 409–421.
Harrison, A. & Poe, S. (2012). Evolution of an ornament, the dewlap, in females of lizard genus Anolis. Biol. J. Linn. Soc. 106, 191–201.
Hass C. A., Hedges S. B. & Maxson L. R. 1993: Molecular insights into the relationships and biogeography of West Indian anoline lizards. Biochemical Systematics and Ecology 21: 97–114.
Hasumi, M. (2010). Age, body size and sexual dimorphism in size and shape in Salamandrella keyserlingii (Caudata: Hynobiidae). Evol. Biol. 37, 38–47.
Henderson, R.W. and R. Powell. 2009. Natural History of West Indian Reptiles and Amphibians. University Press of Florida, Gainesville.
Herrel A, Cleuren J, De Vree F. 1996. Kinematics of feeding in the lizard Agama stellio. J Exp Biol 199:1727–1742.
Herrel A, De Vree F. 1999. Kinematics of intraoral transport and swallowing in the herbivorous lizard Uromastix acanthinurus. J Exp Biol 202:1127–1137.
Herrel, A., Spithoven, L., Van Damme, R., De Vree, F., 1999. Sexual dimorphism of head size in Gallotia galloti: testing the niche divergence hypothesis by functional analyses. Funct. Ecol. 13, 289–297.
Herrel A, Adriaens D, Aerts P, Verraes W. 2002. Bite performance in clariid fishes with hypertrophied jaw adductors as deduced by bite modelling. J Morphol 253:196–205.
Herrel, A., O’Reilly, J.C., Richmond, A.M., 2002. Evolution of bite performance in turtles. J. Evol. Biol. 15, 1083–1094.
Herrel, A., Vanhooydonck, B., Joachim, R., Irschick, D.J., 2004. Frugivory in polychrotid lizards: effects of body size. Oecologia 140, 160–168.
Herrel, A., Joachim, R., Vanhooydonck, B., Irschick, D.J., 2006. Ecological consequences of ontogenetic changes in head shape and bite performance in the Jamaican lizard Anolis lineatopus. Biol. J. Linn. Soc. 89, 443–454.
Herrel, A., Schaerlaeken, V., Meyers, J.J., Metzger, K.A., Ross, C.F., 2007. The evolution of cranial design and performance in squamates: consequences of skull-bone reduction on feeding behavior. Integr. Comp. Biol. 47, 107–117.
Herrel A, Andrade DV, de Carvalho JE, Brito A, Abe A, Navas C. 2009. Aggressive behavior and performance in the tegu lizard Tupinambis merianae. Physiol Biochem Zool 82:680–685.
Hosken D. J., Alonzo S. H. & Wedell N. 2016: Why aren’t signals of female quality more common? Animal Behaviour 114: 199–201.
Husak, J.F., Irschick, D.J., Meyers, J.J., Lailvaux, S.P. & Moore, I.T. (2007). Hormones, sexual signals, and performance of green anole lizards (Anolis carolinensis). Horm. Behav. 52, 360–367.
Huyghe, K., Herrel, A., Vanhooydonck, B., Meyers, J.J., Irschick, D.J., 2007. Microhabitat use, diet, and performance data on the Hispaniolan twig anole, Anolis sheplani. Zoology 110, 2–8.
Irschick D. J. & Losos J. B. 1996: Morphology, ecology, and behavior of the twig anole, Anolis angusticeps. Pp.: 291–301. In: Powell R. & Henderson R. W. (eds.): Contributions to West Indian Herpetology: A Tribute to Albert Schwartz. Ithaca, NY: Society for the Study of Amphibians and Reptiles, 457 pp.
Irschick, D.J., Losos, J.B., 1999. Do lizards avoid habitats in which performance is submaximal? The relationship between sprinting capabilities and structural habitat use in Caribbean anoles. Am. Nat. 154, 293–305.
Irschick, D.J., Ramos, M.M., Buckley, C., Elstrott, J., Carlisle, E., Lailvaux, S.P., Bloch, N., Herrel, A. & Vanhooydonck, B. (2006). Are morphology-performance relationships invariant across different seasons? A test with the green anole lizard (Anolis carolinensis). Oikos 114, 49–59.
Jančúchová-Lásková J., Landová E. & Frynta D. 2015a: Are genetically distinct lizard species able to hybridize? A review. Current Zoology 61: 155–180.
Jančúchová-Lásková J., Landová E. & Frynta D. 2015b: Experimental crossing of two distinct species of leopard geckos, Eublepharis angramainyu and E. macularius: viability, fertility and phenotypic variation of the hybrids. Publlic Library of Science One 10(12): 1–27.
Jenssen, T.A., Orrell, K.S. & Lovern, M.B. (2000). Sexual dimorphisms in aggressive signal structure and use by a polygynous lizard, Anolis carolinensis. Copeia 2000, 140–149.
Johnson M.A. & Wade J. 2010: Behavioural display systems across nine Anolis lizard species: sexual dimorphisms in structure and function. Proceedings of the Royal Society of London B, Biological Sciences 277: 1711–1719.
Johnson M. A., Cohen R. E., Vandeca r., j.r. & Wade J. 2011: Relationships among reproductive morphology, behavior, and testosterone in a natural population of green anole lizards. Physiology & Behavior 104: 437–445.
Kachigan SK. 1991. Multivariate statistical analysis: a conceptual introduction. Radius Press, New York.
Kaliontzopoulou, A., Carretero, M.A. & Llorente, G.A. (2008). Head shape allometry and proximate causes of head sexual dimorphism in Podarcis lizards: joining linear and geometric morphometrics. Biol. J. Linn. Soc. 93, 111–124.
Kemp, M.E., Hadly, A., 2016. Early Holocene turnover, followed by stability, in a Caribbean lizard assemblage. Quat. Res. 85(2), 255-261. https://doi.org/10.1016/j.yqres.2015.12.007
Kiefer MC, Sazima I. 2002. Diet of juvenile Tupinambis merianae (Teiidae) in southeastern Brazil. Amphibia-Reptilia 23:105–108.
Kratochvíl L. & Kubička L. 2007: Why reduce clutch size to one or two eggs? Reproductive allometries reveal different evolutionary causes of invariant clutch size in lizards. Functional Ecology 21: 171–177.
Lailvaux S. P. & Irschick D. J. 2007: The evolution of performance‐based male fighting ability in Caribbean Anolis lizards. American Naturalist 170: 573–586.
Lailvaux, S.P., Herrel, A., Vanhooydonck, B., Meyers, J.J. & Irschick, D.J. (2004). Performance capacity, fighting tactics and the evolution of life-stage male morphs in the green anole lizard (Anolis carolinensis). P. Roy. Soc. Lond. B. Bio. 271, 2501–2508.
Lailvaux, S.P., Gilbert, R.L. & Edwards, J.R. (2012). A performance-based cost to honest signaling in male green anole lizards (Anolis carolinensis). P. Roy. Soc. Lond. B. Bio. 279, 2841–2848.
Langerhans, R.B., Knouft, J.H., Losos, J.B., 2006. Shared and unique features of diversification in Greater Antillean Anolis ecomorphs. Evolution 60, 362–369.
Leal, M. (1999). Honest signalling during predator-prey interactions in the lizard Anolis cristatellus. Anim. Behav. 58,521–526.
Leal, M. & Rodriguez-Robles, J.A. (1997a). Antipredator responses of the Puerto Rican anole Anolis cuvieri (Squamata: Polychrotidae). Biotropica 29, 372–375.
Leal, M. & Rodriguez-Robles, J.A. (1997b). Signalling displays during predator-prey interactions in a Puerto Rican anole, Anolis cristatellus. Anim. Behav. 54, 1147– 1154.
Leal M. & Losos J. B. 2000: Behavior and ecology of the Cuban “Chipojos Bobos” Chamaeleolis barbatus and C. porcus. Journal of Herpetology 34: 318–322.
Leal, M., Knox, A.K., Losos, J.B., 2002. Lack of convergence in aquatic Anolis lizards. Evolution 56, 785–791.
Lee, A.S., 1997. Cuba Natural. Pangaea, Saint Paul.
Lee, A.S., 2003. Mi Libro de Lagartijas. Editorial Gente Nueva, Ciudad de La Habana.
LeGalliard, J.-F., Massot, M., Landys, M.M., Meylan, S. & Clobert, J. (2006). Ontogenetic sources of Loew E. R., Fleishman L. J., Foster R. G. & Provencio I. 2002: Visual pigments and oil droplets in diurnal lizards: a comparative study of Caribbean anoles. Journal of Experimental Biology 205: 927–938.
variation in sexual size dimorphism in a viviparous lizard. J. Evol. Biol. 19, 690–704.
Lonnberg, E., 1903. On the adaptations to a molluscivorous diet in Varanus niloticus. Arkiv Zool. 1, 65–83.
Losos, J.B., 1995. Community evolution in Greater Antillean Anolis lizards: phylogenetic patterns and experimental tests. Philos. Trans. R. Soc. Lond. B 349, 69–75.
Losos J. B. 2009: Lizards in an Evolutionary Tree. Ecology and Adaptive Radiation of Anoles. Berkeley: University of California Press, 507 pp.
Losos, J.B., Sinervo, B., 1989. The effects of morphology and perch diameter on sprint performance of Anolis lizards. J. Exp. Biol. 145, 23–30.
Losos, J.B. and K. de Queiroz. 1997. Evolutionary consequences of ecological release in Caribbean Anolis lizards. Biological Journal of the Linnaean Society 61:459–483.
Losos, J.B. & Chu, L. (1998). Examination of factors potentially affecting dewlap size in Caribbean anoles. Copeia 1998, 430–438.
Losos, J.B., Andrews, R.M., Sexton, O.J., Schuler, A.L., 1991. Behavior, ecology, and locomotor performance of the giant anole, Anolis frenatus. Caribb. J. Sci. 27, 173–179.
Losos, J.B., Jackman, T.R., Larson, A., de Queiroz, K., Rodriguez-Schettino, L., 1998. Contingency and determinism in replicated adaptive radiations of island lizards. Science 279, 2115–2118.
Losos J. B., Butler M. & Schoener T. W. 2003: Sexual dimorphism in body size and shape in relation to habitat use among species of Caribbean Anolis lizards. Pp.: 356–380. In: Fox S. F., McCoy J. K. & Baird T. A. (eds.): Lizard Social Behavior. Baltimore: The Johns Hopkins University Press, 544 pp.
Lovern, M.B. & Jenssen, T.A. (2001). The effects of context, sex, and body size on staged social interactions in juvenile male and female green anoles (Anolis carolinensis). Behaviour 138, 1117–1135.
Loyau A., Gomez D., Moureau B., Théry M., Hart N. S., Saint Jalme M., Bennett A. T. D. & Sorci G. 2007: Iridescent structurally based coloration of eyespots correlates with mating success in the peacock. Behavioral Ecology 18:1123–1131.
Macey J. R., Larson A., Ananjeva N. B., Fang Z. & Papenfuss T. J. 1997: Two novel gene orders and the role of light-strand replication in rearrangement of the vertebrate mitochondrial genome. Molecular Biology and Evolution 14: 91–104.
Mahler D. L., Lambert S. M., Geneva A. J., Ng J., Hedges S. B., Losos J .B. & Glor R. E. 2016: Discovery of a giant chameleon-like lizard (Anolis) on Hispaniola and its significance to understanding replicated adaptive radiations. American Naturalist 188: 357–364.
Marshall K. L. A. & Stevens M. 2014: Wall lizards display conspicuous signals to conspecifics and reduce detection by avian predators. Behavioral Ecology 25: 1325–1337.
Martins M. 2006. Life in the water: ecology of the jacarerana lizard, Crocodilurus amazonicus. Herpetol J 16:171–177.
Melstrom, K.M., 2017. The relationship between diet and tooth complexity in living dentigerous saurians. J. Morphol. 278(4), 500–522. https://doi.org/10.1002/jmor.20645
Mercolli C, Yanosky AA. 1994. The diet of adult Tupinambis teguixin (Sauria, Teiidae) in the eastern chaco of Argentina. Herpetol J 4:15– 19.
Mertens, R., 1942. Die Familie der Warane (Varanidae). Teil 2. Scha¨del. Abh. Senckenberg. Naturforsch. Ges. 462, 1–391.
Metzger KA. 2009. Quantitative analysis of prey properties on feeding kinematics in two species of lizards. J Exp Biol 212:3751–3761.
Metzger KA, Herrel A. 2005. Correlations between lizard cranial shape and diet: a quantitative, phylogenetically informed analysis. Biol J Linn Soc 86:433–466.
Meyers JJ, Herrel A. 2005. Prey capture kinematics of ant-eating lizards. J Exp Biol 208:113–127.
Montanucci, R.R., 1968. Comparative Dentition in Four Iguanid Lizards. Herpetologica 24(4), 305–315.
Montuelle SJ, Herrel A, Schaerlaeken V, Metzger KA, Mutuyeyezu A, Bels VL. 2009. Inertial feeding in the teiid lizard Tupinambis merianae: the effect of prey size on the movements of hyolingual apparatus and the cranio-cervical system. J Exp Biol 212:2501– 2510.
Ng J. & Glor R. E. 2011: Genetic differentiation among populations of a Hispaniolan trunk anole that exhibit geographical variation in dewlap colour. Molecular Ecology 20: 4302–4317.
Ng J., Landeen E. L., Logsdon R. M. & Glor R. E. 2013: Correlation between Anolis lizard dewlap phenotype and environmental variation indicates adaptive divergence of a signal important to sexual selection and species recognition. Evolution 67: 573–582.
Nicholson K. E., Glor R. E., Kolbe J. J, Larson A., Hedges S. B. & Losos J. B. 2005: Mainland colonization by island lizards. Journal of Biogeography 32: 929–938.
Nicholson, K.E., Harmon, L.J. & Losos, J.B. (2007). Evolution of Anolis lizard dewlap diversity. PLoS ONE 2, e274.
Nicholson K. E., Crother B. I., Guyer C. & Savage J. M. 2012: It is time for a new classification of anoles (Squamata: Dactyloidae). Zootaxa 3477: 1–108.
Nunez S. C., Jenssen T. A. & Ersland K. 1997: Female activity profile of a polygynous lizard (Anolis carolinensis): evidence of intersexual asymmetry. Behavior 134: 205–223.
Ord T. J. & Martins E. P. 2006: Tracing the origins of signal diversity in anole lizards: phylogenetic approaches to inferring the evolution of complex behaviour. Animal Behaviour 71: 1411–1429.
Orrell, K.A. & Jenssen, T.A. (2003). Heterosexual signalling by the lizard Anolis carolinensis, with intersexual comparisons across contexts. Behaviour 140, 603–634.
Perry, G. (1996). The evolution of sexual dimorphism in the lizard Anolis polylepis (Iguania): evidence from intraspecific variation in foraging behaviour. Can. J. Zool. 74, 1238–1245.
Peyer, B., 1968. Comparative odontology. University of Chicago Press, United States.
Piesco, N.P., Kallenbach, E. 1985. The fine structure of early tooth formation in an Iguanid lizard, Anolis carolinensis. Morphology 183(2), 165–176.
Poe S. 2004: Phylogeny of anoles. Herpetological Monographs 18: 37–89.
Polcyn, M.J., Rogers, J.V., Kobayashi, Y., Jacobs, L.L., 2002. Computed tomography of an anolis in dominican amber: systematic, taphonomic, biogeographic, and evolutionary implications. Paleontol. electronica 5(1), 13 pp.
Pregill, G., 1984. Durophagous feeding adaptations in an amphisbaenid. J. Herpetol. 18, 186–191.
Presch W. 1974. A survey of the dentition of the macroteiid lizards (Teiidae: Lacertilia). Herpetologica 30:344–349.
Pyron, R.A., Burbrink, F.T. & Wiens, J.J. A phylogeny and revised classification of Squamata, including 4161 species of lizards and snakes. BMC Evol Biol 13, 93 (2013). https://doi.org/10.1186/1471-2148-13-93
Regalado R. 2015: Does dichromatism variation affect sex recognition in dwarf geckos? Ethology Ecology & Evolution 27: 56–73.
Rieppel O. 1980. The trigeminal jaw adductor musculature of Tupinambis, with comments on the phylogenetic relationships of the Teiidae (Reptilia, Lacertilia). Zool J Linn Soc 69:1–29.
Rieppel, O., Labhardt, L., 1979. Mandibular mechanics in Varanus niloticus. Herpetologica 35, 158–163.
Rodríguez-Schettino, L. 1999. The Iguanid Lizards of Cuba. University of Florida Press, Gainesville, 428 pp.
Rodríguez-Schettino L. 2003:. Anfibios y Reptiles de Cuba. Instituto de Ecologia y Sistematica, Havana, Cuba.
Rodríguez-Schettino L.. 2003: Anfibios y Reptiles de Cuba. Vaasa, Finlandia: UPC Print, 169 pp.
Rodríguez-Schettino, L., C.A. Mancina, and V. Rivalta González. 2013. Reptiles of Cuba: Checklist and geographic distributions. Smithsonian Herpetological Information Service 144:1–96.
Ross CF, Eckhardt A, Herrel A, HylanderWL, Metzger KA, Schaerlaeken V, Washington RL, Williams SH. 2007. Modulation of intra-oral processing in mammals and lepidosaurs. Integr Comp Biol 47:118–136.
Schaerlaeken V, Meyers JJ, Herrel A. 2007. Modulation of prey capture kinematics and the role of lingual sensory feedback in the lizard Pogona vitticeps. Zoology 110:127–138.
Schaerlaeken V, Herrel A, Meyers JJ. 2008. Modulation, individual variation and the role of lingual sensory afferents in the control of prey transport in the lizard Pogona vitticeps. J Exp Biol 211:2071–2078.
Schoener, T.W. (1967). The ecological significance of sexual size dimorphism in the lizard Anolis conspersus. Science 155, 474–477.
Schoener, T.W., Gorman, G.C., 1968. Some Niche Differences in Three Lesser Antillean Lizards of the Genus Anolis. Ecology 49(5), 819–830. https://doi.org/10.2307/1936533
Schulte II, J.A., Valladares, J.P., Larson, A., 2003. Phylogenetic relationships within Iguanidae inferred using molecular and morphological data and a phylogenetic taxonomy of iguanian lizards. Herpetologica 59(3), 399–419. https://doi.org/10.1655/02-48
Schwartz A. & Henderson R. W. 1991: Amphibians and Reptiles of the West Indies: Descriptions, Distributions, and Natural History. Gainesville, FL: University of Florida Press, 714 pp.
Schwarzkopf, L. (2005). Sexual dimorphism in body shape without sexual dimorphism in body size in water skinks (Eulamprus quoyii). Herpetologica 61, 116–123.
Schwenk K. 2000. Feeding in lepidosaurs. In: Schwenk K., Editor. Feeding: form, function and evolution in tetrapod vertebrates. San Diego, CA: Academic Press. p 175–291.
Schluter, D., 2000. The Ecology of Adaptive Radiation. Oxford University Press, Oxford.
Schwartz, A., Henderson, R.W., 1991. Amphibians and Reptiles of the West Indies. University of Florida Press, Gainesville, FL.
Shine R. & Madsen T. 1994: Sexual dichromatism in snakes of the genus Vipera: a review and a new evolutionary hypothesis. Journal of Herpetology 28: 114–117.
Siddiqi A., Cronin T. W., Loew E. R., Vorobyev M. & Summers K. 2004: Interspecific and intraspecific views of color signals in the strawberry poison frog Dendrobates pumilio. Journal of Experimental Biology 207: 2471–2485.
Sire, J.-Y., Davit-Beal, T., Delgado, S., Van Der Heyden, Ch., Huzsseune, A., 2002. First- generation teeth in nonmammalian lineages: Evidence for a conserved ancestral character? Microsc. Res. Tech. 59, 408–434. doi: 10.1002/jemt.10220.
Smith KK. 1982. An electromyographic study of the function of the jaw adducting muscles in Varanus exanthematicus (Varanidae). J Morphol 173:137–158.
Sokal RR, Rohlf PJ. 1981. The principles and practice of statistics in biological research. J App Ecol 19:985–986.
Somers K. M. 1986: Multivariate allometry and removal of size with principal components analysis. Systematic Biology 35: 359–368.
Somers K. M. 1989: Allometry, isometry and shape in principal components analysis. Systematic Biology 38: 169–173.
Stamps, J.A., 1983. The relationship between ontogenetic habitat shifts, competition and predator avoidance in a juvenile lizard (Anolis aeneus). Behav. Ecol. Sociobiol. 12, 19–33. https://doi.org/10.1007/BF00296929
Stamps, J.A. (1999). Relationships between female density and sexual size dimorphism in samples of Anolis sagrei. Copeia 1999, 760–765.
Stamps, J. & Krishnan, V.V. (1997). Sexual bimaturation and sexual size dimorphism in animals with asymptotic growth after maturity. Evol. Ecol. 11, 21–39.
Stamps J. A., Losos J. B. & Andrews R. M. 1997: A comparative study of population density and sexual size dimorphism in lizards. American Naturalist 149: 64–90.
Starostová Z., Rehák I. & Frynta D. 2010: New haplotypes of Cyclura nubila nubila from Cuba changed the phylogenetic tree of rock-iguanas: a challenge for conservation strategies? Amphibia-Reptilia 31: 134–143.
Steffen J. E. & McGraw K. J. 2009: How dewlap color reflects its carotenoid and pterin content in male and female brown anoles (Norops sagrei). Comparative Biochemistry and Physiology Part B: Biochemistry and Molecular Biology 154: 334–340.
Steffen J. E., Hill G. E. & Guyer C. 2010: Carotenoid access, nutritional stress, and the dewlap color of male brown anoles. Copeia 2010: 239–246.
Steffen J. E. & Guyer C. C. 2014: Display behaviour and dewlap colour as predictors of contest success in brown anoles. Biological Journal of the Linnean Society 111: 646–655.
Stoddard M. C. & Prum R. O. 2011: How colorful are birds? Evolution of the avian plumage color gamut. Behavioral Ecology 22: 1042–1052.
Stuart-Fox D. M. & Ord T. J. 2004: Sexual selection, natural selection and the evolution of dimorphic coloration and ornamentation in agamid lizards. Proceedings of the Royal Society of London B, Biological Sciences 271: 2249–2255.
Stutchbury B. J. & Morton E. S. 2001: Behavioral Ecology of Tropical Birds. San Diego: Academic Press, 165 pp.
Thompson G. G. & Withers P. C. 2005a: Size-free shape differences between male and female Western Australian dragon lizards (Agamidae). Amphibia-Reptilia 26: 55–63.
Thompson G. G. & Withers P. C. 2005b: The relationship between size-free body shape and choice of retreat of Western Australian Ctenophorus (Agamidae) dragon lizards. Amphibia-Reptilia 26: 65–72.
Thompson G. G. & Withers P. C. 2005c: Shape of Western Australian dragon lizards (Agamidae). Amphibia-Reptilia 26: 73–85.
Tokarz, R.R., Paterson, A.V. & McMann, S. (2003). Laboratory and field test of the functional significance of the male’s dewlap in the lizard Anolis sagrei. Copeia 2003, 502–511.
Towsend, T.M., Mulcahy, D.G., Noonan, B.P., Sites, J.J.W., Kuczynski, C.A., Wiens, J.J., Reeder, T.W., 2011. Phylogeny of iguanian lizards inferred from 29 nuclear loci, and a comparison of concatenated and species-tree approaches for an ancient rapid radiation. Mol. Phyl. Evol. 61, 363–380. https://doi.org/10.1016/j.ympev.2011.07.008
Trivers, R.L. (1976). Sexual selection and resource-accruing abilities in Anolis garmani. Evolution 30, 253–269.
Ugueto G. N., Fuenmayor G. R., Barros T., Sánchez-Pacheco S. J. & García-Pérez J. E. 2007: A revision of the Venezuelan Anoles I: A new Anolis species from the Andes of Venezuela with the redescription of Anolis jacare Boulenger 1903 (Reptilia: Polychrotidae) and the clarification of the status of Anolis nigropunctatus Williams 1974. Zootaxa 150: 1–30.
Ugueto G.N., Rivas G., Barros T. & Smith E. N. 2009: A revision of the Venezuelan anoles II: redescription of Anolis squamulatus Peters 1863 and Anolis tigrinus Peters 1863 (Reptilia: Polychrotidae). Caribbean Journal of Science 45: 30–51.
Urbani J-M, Bels VL. 1999. Feeding behavior in two scleroglossan lizards: Lacerta viridis (Lacertidae) and Zonosaurus laticaudatus (Cordylidae). J Zool Lond 236:265–290.
Vanhooydonck, B., Herrel, A., Van Damme, R. & Irschick, D.J. (2005a). Does dewlap size predict male bite performance in Jamaican Anolis lizards? Funct. Ecol. 19, 38–42.
Vanhooydonck, B., Herrel, A., Van Damme, R., Meyers, J.J. & Irschick, D.J. (2005b). The relationship between dewlap size and performance changes with age and sex in a green anole (Anolis carolinensis) lizard population. Behav. Ecol. Soc. 59, 157–165.
Vanhooydonck, B., Herrel, A., Irschick, D.J., 2006. Out on a limb: the differential effect of substrate diameter on acceleration capacity in Anolis lizards. J. Exp. Biol. 209, 4515–4523.
Vanhooydonck B., Herrel A., Meyers J. J. & Irschick D. J. 2009: What determines dewlap diversity in Anolis lizards? An among-island comparison. Journal of Evolutionary Biology 22: 293–305.
Vanhooydonck, B., Cruz, F.B., Abdala, C.S., Moreno Azócar, D.L., Bonino, M.F. & Herrel, A. (2010). Sex-specific evolution of bite performance in Liolaemus lizards (Iguania: Liolaemidae): the battle of the sexes. Biol. J. Linn. Soc. 201, 461–475.
Vanzolini PE. 1961. Notas bionomicas sobre Dracaena guianensis no Para (Sauria, Teiidae). Pap Avuls Zool 14:237–241.
Vitt LJ, Zani PA, Caldwell JP, Carillo EO. 1995. Ecology of the lizard Kentropyx pelviceps (Sauria: Teiidae) in lowland rain forest of Ecuador. Can J Zool 73:691–703.
Vitt LJ, Zani PA, Caldwell JP, Araujo MC, Magnusson WE. 1997. Ecology of whiptail lizards (Cnemidophorus) in the Amazon region of Brazil. Copeia 1997:745–757.
Vitt LJ, Sartorius SS, Avila-Pires TCS, Esposito MC. 2000. Life at the river’s edge: ecology of Kentropyx Vorobyev M. & Osorio D. 1998: Receptor noise as a determinant of colour thresholds. Proceedings of the Royal Society of London B, Biological Sciences 265: 351–358.
altamazonica in Brazilian Amazonia. Can J Zool 79:1855–1865.
Williams, E.E., 1972. The origin of faunas. Evolution of lizard congeners in a complex island fauna: a trial analysis. Evol. Biol. 6, 47–89.
Williams, E.E. & Rand, A.S. (1977). Species recognition, dewlap function and faunal size. Am. Zool. 17, 261–270.
Wilson, E.O., 1957. Behavior of the Cuban lizard Chamaeleolis chamaeleontides (Dumeril and Bibron) in captivity. Copeia 1957, 145.
Zahradnicek, O., Buchtova, M., Dosedelova, H., Tucker, A.S., 2014. The development of complex tooth shape in reptiles. Front. Physiol 25; 5(74). https://doi.org/10.3389/fphys.2014.00074
Zahradnicek, O., Horacek, I., Tucker, A.S., 2012. Tooth development in a model reptile: functional and null generation teeth in the gecko Paroedura picta. J. Anat. 221, 195–208. https://doi.org/10.1111/j.1469-7580.2012.01531.x
Předběžná náplň práce
Základní náplní práce je (v kontextu současných znalostí o taxonomii, morfologii a biologii ještěrů čeledi Dactyloidae) přispět k poznání unikátních a současně málo prostudovaných velkých druhů kubánských anolisů se zaměřením na malakofágní formy (dříve řazených do vlastního rodu Chamaeleolis). Základní cíle práce jsou 1) Prostudovat a taxonomicky zhodnotit nashromážděný materiál anolisů (metodami komparativní morfolgie, spektrofotometrie, vizuálního modelování a analýzy mtDNA), 2) Prostudovat adaptace malakofágních anolisů z hlediska jejich dentice a jejího ontogenetického vývinu, morfologie lebky a síly skusu, včetně srovnání s jinými malakofágními, ale fylogeneticky vzdálenými ještěry (Dracaena guianensis, Teiidae), 3) Prostudovat sexuální dichromatismus a dimorfismus a popsat růstové změny během ontogeneze z pohledu utváření sexuálního dimorfismu.
Předběžná náplň práce v anglickém jazyce
The basic content of the work is (in the context of current knowledge about the taxonomy, morphology and biology of lizards of the Dactyloidae family) to contribute to the knowledge of unique and at the same time little-studied large species of Cuban anoles with a focus on malacophagous forms (previously classified in their own genus Chamaeleolis). The basic objectives of the work are 1) To study and taxonomically evaluate the collected material of anoles (using the methods of comparative morphology, spectrophotometry, visual modeling and mtDNA analysis), 2) To study the adaptations of malacophagous anoles from the point of view of their dentition and its ontogenetic development, skull morphology and bite force, including comparison with other malacophagous but phylogenetically distant lizards (Dracaena guianensis, Teiidae), 3) To study sexual dichromatism and dimorphism and to describe growth changes during ontogeny from the point of view of the formation of sexual dimorphism.
 
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