Abstract
Tongue-flicking is a synapomorphy of squamate reptiles functioning to sample chemicals for vomerolfactory analysis, which became possible in primitive squamates when ducts opened from the vomeronasal organs to the roof of the mouth. Extant iguanian lizards in families that do not use the tongue to sample chemical prey cues prior to attack partially protrude it in two feeding contexts: during capture by lingual prehension and after oral contact with prey. These lizards do not exhibit strike-induced chemosensory searching. Lingual prey prehension is present in iguanian lizards and inSphenodon, the sister taxon of Squamata. During attempts to capture prey, the tongues of primitive squamates inevitably made incidental contact with environmental substrates bearing chemicals deposited by prey, conspecifics, and predators. Such contact presumably induced selection for tongue-flicking and ability to identify biologically important chemicals. Most iguanian lizards are ambush foragers that use immobility as a major antipredatory defense. Because tongue-flicking at an ambush post would not allow chemical search beyond the vicinity of the head and would render them easier for predators and prey to detect, typical iguanians tongue-flick neither while foraging nor to identify predators. They do detect pheromones by tongue-flicking. Scleroglossan lizards are typically active foragers that rely on speed to escape. Being freer to move the tongue, they have evolved lingual sampling allowing detection of chemical cues of conspecifics, predators, and prey, as well as strike-induced chemosensory searching, some can follow pheromone trails by tongue-flicking. Some families have lingual morphology and behavior specialized for chemosensory sampling. In varanids and snakes, the taxa showing the greatest lingual specialization, additional prey-related chemosensory behaviors have evolved. In iguanian and scleroglossan families that have secondarily adopted the foraging mode typical of the other taxon, prey chemical discrimination involving tongue-flicking and strike-induced chemosensory searching are typical for the foraging mode rather than the taxon. Because foraging mode and state of prey chemical discrimination are stable within squamate families and to a large extent in higher taxa, both features have been retained from the ancestral condition in most families. However, in three cases in which foraging mode has changed from its ancestral state, the state of prey chemical discrimination has also changed, indicating that prey chemical discrimination is adaptively adjusted to foraging mode. Indeed, acquisition of lingually mediated prey chemical discrimination may have made feasible the evolution of active foraging, which in turn appears to have profoundly influenced the further evolution of squamate chemosensory structures and behavior, placing a selective premium on features enhancing the tongue's efficiency as a chemical sampling device. The advent of tongue-flicking to sample prey chemicals and thus detect hidden prey may have allowed generalist (cruise) or ambush foragers, if early squamates were such, to become specialists in active foraging. Alternatively, if the common ancestors of squamates were active foragers, the adoption of ambush foraging would have selected against participation of the tongue in locating prey. Acting jointly, tongue-flicking and active foraging have had momentous consequences for squamate diversification. Specialization for active foraging would appear to have had ramifying effects on antipredatory defenses, body form, territoriality, mating systems, and reproductive physiology.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Alberts, A.C. 1989. Ultraviolet visual sensitivity in desert iguanas: Implications for pheromone detection.Anim. Behav. 38:129–137.
Alberts, A.C. 1992. Pheromonal self-recognition in desert iguanas.Copeia 1992:229–232.
Anderson, R.A. 1993. Analysis of foraging in a lizard,Cnemidophorus tigris: Salient features and environmental effects, pp. 83–116,in J.W. Wright and L.J. Vitt (eds.). Biology of Whiptail Lizards (GenusCnemidophorus). Oklahoma Museum of Natural History, Norman, Oklahoma.
Anderson, R.A., andKarasov, W.H. 1981. Contrasts in energy intake and expenditure in sit-and-wait and widely foraging lizards.Oecologia 49:67–72.
Anderson, R.A., andKarasov, W.H. 1988. Energetics of the lizardCnemidophorus tigris and life history consequences of food-acquisition mode.Ecol. Monogr. 58:79–110.
Andrews, R.M. 1979. The lizardCorytophanes cristatus: An extreme “sit-and-wait” predator.Biotropica 11:136–139.
Arnold, E.N. 1984. Ecology of lowland lizards in the eastern United Arab Emirates.J. Zool. 204:329–354.
Arnold, E.N. 1990. Why do morphological phylogenies vary in quality? An investigation based on the comparative history of lizard clades.Proc. R. Soc. London B 240:135–172.
Arnold, E.N., andBurton, J.A. 1978. A Field Guide to the Reptiles and Amphibians of Britain and Europe. Collins, London.
Arnold, S.J. 1981. Behavioral variation in natural populations. I. Phenotypic, genetic, and environmental correlations between chemoreceptive responses to prey in the garter snake,Thamnophis elegans.Evolution 35:489–509.
Auffenberg, W. 1981. The Behavioral Ecology of the Komodo Monitor. University Presses of Florida, Gainesville.
Auffenberg, W. 1984. Notes on the feeding behaviour ofVaranus bengalensis (Sauria: Varanidae).J. Bombay Nat. Hist. Soc. 80:286–302.
Baird, I.L. 1970. The anatomy of the reptilian ear, pp. 193–275,in C. Gans and T.S. Parsons (eds.). Biology of the Reptilia, Vol. 2, Morphology B. Academic Press, London.
Beck, D.D. 1990. Ecology and behavior of the gila monster in southwestern Utah.J. Herpetol. 24:54–68.
Beck, D.D., andLowe, C.H. 1991. Ecology of the beaded iizard,Heloderma horridum, in a tropical dry rain forest in Jalisco, Mexico.J. Herpetol. 25:395–406.
Bennett, A.F. 1973. Ventilation in two species of lizards during rest and activity.Comp. Biochem. Physiol. 46A:653–671.
Bertmar, G. 1981. Evolution of vomeronasal organs in vertebrates.Evolution 35:359–366.
Bickler, P.E., andAnderson, R.A. 1986. Ventilation, gas exchange, and aerobic scope in a small monitor lizard,Varanus gilleni.Physiol. Zool. 59:76–83.
Bissinger, B.E., andSimon, C.E. 1979. Comparison of tongue extrusion in representatives of six families of lizards.J. Herpetol. 13:133–139.
Bogert, G.M. 1941. Sensory cues used by rattlesnakes in their recognition of ophidian enemies.Ann. N.Y. Acad. Sci. 41:329–344.
Bogert, G.M., andDel Campo, R.M. 1956. The gila monster and its allies: The relationships, habits, and behavior of the lizards of the family Helodermatidae.Bull. Am. Mus. Nat. Hist. 109:1–238.
Branch, B. 1988. Field Guide to the Snakes and other Reptiles of Southern Africa. Ralph Curtis, Sanibel Island, Florida.
Brillet, C. 1990. Role des informations olfactives et visuelles dans la discrimination du sexe chez deux espèces de geckos nocturnesEublepharis macularius etParoedura pictus.Biol. Behav. 15:1–22.
Brillet, C. 1991. Comparative analysis of the structure of the sexual behavior of two species of nocturnal geckos:Eublepharis macularius andParoedura pictus (Sauria, Gekkonidae).Behaviour 117:117–143.
Broadley, D.G. 1978. A revision of the genusPlatysaurus A. Smith (Sauria: Cordylidae).Occ. Pap. Natl. Mus. Rhod., B., Nat. Sci. 6:129–185.
Brown, W.S., andMacLean, F.M. 1983. Conspecific scent-trailing by newborn timber rattlesnakes,Crotalus horridus.Herpetologica 39:430–436.
Burghardt, G.M. 1967. Chemical-cue preferences of inexperienced snakes: Comparative aspects.Science 157:718–721.
Burghardt, G.M. 1970a. Chemical perception in reptiles, pp. 241–308,in J.W. Johnston, D.G. Moulton, and A. Turk (eds.). Advances in Chemoreception, Vol. I. Communication by Chemical Signals. Appleton-Century-Crofts, New York.
Burghardt, G.M. 1970b. Intraspecific geographical variation in chemical food cue preferences of newborn garter snakes (Thamnophis sirtalis).Behaviour 36:246–257.
Burghardt, G.M. 1973. Chemical release of prey attack: Extension to naive newly hatched lizards,Eumeces laticeps.Copeia 1973:178–181.
Burghardt, G.M., Goss, S.E., andSchell, F.M. 1988. Comparison of earthworm- and fish-derived chemicals eliciting prey attack by garter snakes (Thamnophis).J. Chem. Ecol. 14:855–881.
Camp, C. 1923. Classification of the Lizards.Bull. Am. Mus. Nat. Hist. 48:289–481.
Chiszar, D., andScudder, K.M. 1980. Chemosensory searching by rattlesnakes during predatory episodes, pp. 125–139,in D. Müller-Schwarze and R.M. Silverstein (eds.). Chemical Signals in Vertebrates and Aquatic Invertebrates. Plenum Press, New York.
Chiszar, D., Radcliffe, C.W., Scudder, K.M., andDuvall, D. 1983. Strike-induced chemosensory by rattlesnakes: The role of envenomation-related cues in the post-strike environment, pp. 1–24,in D. Müller-Schwarze and R.M. Silverstein (eds.). Chemical Signals in Vertebrates III. Plenum Press, New York.
Chiszar, D., Radcliffe, C.W., Overstreet, R., Poole, T., andByers, T. 1985. Duration of strike-induced chemosensory searching in cottonmouths (Agkistrodon piscovorus) and a test of the hypothesis that striking prey creates a specific search image.Can. J. Zool. 63:1057–1061.
Chiszar, D., Radcliffe, C.W., Boyd, R., Radcliffe, A., Yun, H., Smith, H.M., Boyer, T., Atkins, B., andFeiler, F. 1986a. Trailing behavior in cottonmouths (Agkistrodon piscivorus).J. Herpetol. 20:269–272.
Chiszar, D., Radcliffe, C.W., andFeiler, F. 1986b. Trailing behavior in banded rock rattlesnakes (Crotalus lepidus klauberi) and prairie rattlesnakes (C. viridis viridis).J. Comp. Psychol. 100:368–371.
Cooper, W.E., Jr. 1989a. Absence of prey odor discrimination by iguanid and agamid lizards in applicator tests.Copeia 1989:472–478.
Cooper, W.E., Jr. 1989b. Prey odor discrimination in the varanoid lizardsHeloderma suspectum andVaranus exanthematicus.Ethology 81:250–258.
Cooper, W.E., Jr. 1989c. Strike-induced chemosensory searching occurs in lizards.J. Chem. Ecol. 15:1311–1320.
Cooper, W.E., Jr. 1990a. Prey odour discrimination by lizards and snakes, pp. 533–538,in D.W. MacDonald, D. Müller-Schwarze, and S.E. Natynczuk (eds.). Chemical Signals in Vertebrates 5. Oxford University Press, Oxford.
Cooper, W.E., Jr. 1990b. Prey odor detection by teiid and lacertid lizards and the relationship of prey odor detection to foraging mode in lizard families.Copeia 1990:237–242.
Cooper, W.E., Jr. 1990c. Chemical detection of predators by a lizard, the broad-headed skink (Eumeces laticeps).J. Exp. Zool. 256:162–167.
Cooper, W.E., Jr. 1990d. Prey odor discrimination by anguid lizards.Herpetologica 46:183–190.
Cooper, W.E., Jr. 1991a. Responses to prey chemicals by a lacertid lizard,Podarcis muralis: Prey chemical discrimination and poststrike elevation in tongue-flick rate.J. Chem. Ecol. 17:849–863.
Cooper, W.E., Jr. 1991b. Discrimination of integumentary prey chemicals and strike-induced chemosensory searching in the ball python,Python regius.J. Ethol. 9:9–23.
Cooper, W.E., Jr. 1992a. Prey odor discrimination and post-strike elevation in tongue flicking by a cordylid lizard,Gerrhosaurus nigrolineatus.Copeia 1992:146–154.
Cooper, W.E., Jr. 1992b. Elevation in tongue-flick rate after biting prey in the broad-headed skink,Eumeces laticeps.J. Chem. Ecol. 18:455–467.
Cooper, W.E., Jr. 1993. Duration of poststrike elevation in tongue-flicking rate in the savannah monitor lizard.Ethol. Ecol. Evol. 5:1–18.
Cooper, W.E., Jr. 1994a. Lingual and searching responses to prey chemicals by three iguanian lizard species.Anim. Behav. In press.
Cooper, W.E., Jr. 1994b. Prey chemical discrimination and foraging mode in gekkonoid lizards.Herpetol. Monogr. In press.
Cooper, W.E., Jr. 1994c. Prey chemical discrimination, foraging mode, and phylogeny, pp. xxx-xxx.in E.R. Pianka and L.J. Vitt (eds.). Lizard Ecology: The Third Generation. Princeton University Press, Princeton, New Jersey. In press.
Cooper, W.E., Jr., andAlberts, A.C. 1990. Responses to chemical food stimuli by an herbivorous actively foraging lizard,Dipsosaurus dorsalis.Herpetologica 46:259–266.
Cooper, W.E., Jr., andAlberts, A.C. 1991. Tongue-flicking and biting in response to chemical food stimuli by an iguanid lizard (Dipsosaurus dorsalis) having sealed vomeronasal ducts: Vomerolfaction may mediate these behavioral responses.J. Chem. Ecol. 17:135–146.
Cooper, W.E., Jr. andAlberts, A.C. 1993. Post-bite elevation in tongue-flicking rate by an iguanian lizard,Dipsosaurus dorsalis. J. Chem. Ecol. In press.
Cooper, W.E., Jr., andBurghardt, G.M. 1990a. Vomerolfaction and vomodor.J. Chem. Ecol. 16:103–105.
Cooper, W.E., Jr., andBurghardt, G.M. 1990b. A comparative analysis of scoring methods for chemical discrimination of prey by squamate reptiles.J. Chem. Ecol. 16:45–65.
Cooper, W.E., Jr., andGarstka, W.R. 1987a. Discrimination of male conspecific from male heterospecific odors by male scincid lizards (Eumeces laticeps).J. Exp. Zool. 241:253–256.
Cooper, W.E., Jr., andGarstka, W.R. 1987b. Lingual responses to chemical fractions of urodaeal glandular pheromone of the skinkEumeces laticeps.J. Exp. Zool. 242:249–253.
Cooper, W.E., Jr., andTrauth, S.E. 1992. Discrimination of conspecific male and female cloacal chemical stimuli by males and possession of a probable pheromone gland by females in a cordylid lizard,Gerrhosaurus nigrolineatus.Herpetologica 48:229–236.
Cooper, W.E., Jr., andVitt, L.J. 1984a. Conspecific odor detection by the male broad-headed skink,Eumeces laticeps: Effects of sex and site of odor source and of male reproductive condition.J. Exp. Zool. 230:199–209.
Cooper, W.E., Jr., andVitt, L.J. 1984b. Detection of conspecific odors by the female broad-headed skink,Eumeces laticeps.J. Exp. Zool. 229:49–54.
Cooper, W.E., Jr., andVitt, L.J. 1986a. Tracking o female conspecific odor trails by male broad-headed skinks (Eumeces laticeps).Ethology 71:242–248.
Cooper, W.E., Jr., andVitt, L.J. 1986b. Lizard pheromones: Behavioral responses and adaptive significance in skinks of the genusEumeces, pp. 323–340,in D. Duvall, D. Müller-Schwarze, and R.M. Silverstein (eds.). Chemical Signals in Vertebrates 4: Ecology, Evolution, and Comparative Biology. Plenum Press, New York.
Cooper, W.E., Jr., andVitt, L.J. 1986c. Interspecific odour discrimination by a lizard (Eumeces laticeps).Anim. Behav. 34:367–376.
Cooper, W.E., Jr., andVitt, L.J. 1987a. Ethological isolation, sexual behavior and pheromones in the fasciatus species group of the lizard genusEumeces.Ethology 75:328–326.
Cooper, W.E., Jr., andVitt, L.J. 1987b. Intraspecific and interspecific aggression in lizards of the scincid genusEumeces: Chemical detection of conspecific sexual competitors.Herpetologica 43:7–14.
Cooper, W.E., Jr., andVitt, L.J. 1989. Prey odor discrimination by the broad-headed skink (Eumeces laticeps).J. Exp. Zool. 249:11–16.
Cooper, W.E., Jr., Garstka, W.R., andVitt, L.J. 1986. Female sex pheromone in the lizardEumeces laticeps.Herpetologica 42:361–366.
Cooper, W.E., Jr., McDowell, S.G., andRuffer, J. 1989. Strike-induced chemosensory searching in the colubrid snakesElaphe g. guttata andThamnophis sirtalis.Ethology 81:19–28.
Cooper, W.E., Jr., Vitt, L.J., andCaldwell, J.P. 1994a. Movement and substrate tongue-flicks in phrynosomatic lizards.Copeia In press.
Cooper, W.E., Jr., Lopez, P., andSalvador, A. 1994b. Pheromone detection by an amphisbaenian. In press.
Cowles, R.B., andPhelan, R.L. 1958. Olfaction in rattlesnakes.Copeia 1958:77–83.
Curio, V.E., andMöbius, H. 1978. Versuche zum Nachweis eines Riechvermögens vonAnolis l. lineatopus (Rept., Iguanidae).Z. Tierpsychol. 47:281–292.
Dial, B.E. 1978. Aspects of the behavioral ecology of two Chihuahuan desert geckos (Reptilia, Lacertilia, Gekkonidae).J. Herpetol. 12:209–216.
Dial, B.E. 1990. Predator-prey signals: Chemosensory identification of snake predators by eublepharid lizards and its ecological consequences, pp. 555–565,in D.W. MacDonald, D. Müller-Schwarze, and S.E. Natynczuk (eds.). Chemical Signals in Vertebrates 5. Oxford University Press, Oxford.
Dial, B.E., Weldon, P.J., andCurtis, B. 1989. Chemosensory identification of snake predators (Phyllorhynchus decurtatus) by banded geckos (Coleonyx variegatus).Herpetol. 23:224–229.
Díaz, J.A., andCarrascal, L.M. 1990. Prey size and food selection ofPsammodromus algirus (Lacertidae) in central Spain.J. Herpetol. 24:342–347.
Dunham, A.E., Miles, D.B., andReznick, D.N. 1988. Life history patterns in squamate reptiles, pp. 441–522,in C. Gans and R.B. Huey (eds.). Biology of the Reptilia, Vol. 16, Ecology B: Defense and Life History. Alan R. Liss, New York.
Dussault, M.H., andKrekorian, C.O. 1991. Conspecific discrimination by chemoreception in the desert iguana,Dipsosaurus dorsalis.Herpetologica 47:82–88.
Duvall, D. 1979. Western fence lizard (Sceloporus occidentalis) chemical signals. I. Conspecific discriminations and release of a species-typical visual display.J. Exp. Zool. 210:321–326.
Duvall, D. 1981. Western fence lizard (Sceloporus occidentalis) chemical signals. II. A replication with naturally breeding adults and a test of the Cowles and Phelan hypothesis of rattlesnake olfaction.J. Exp. Zool. 218:351–362.
Duvall, D. 1982. Western fence lizard (Sceloporus occidentalis) chemical signals. III. An experimental ethogram of conspecific body licking.J. Exp. Zool. 221:23–26.
Duvall, D., Müller-Schwarze, D., andSilverstein, R.M. 1986. Chemical Signals in Vertebrates 4: Ecology, Evolution, and Comparative Biology. Plenum Press, New York.
Duvall, D., Chiszar, D., Hayes, W.K., Leonhardt, J.K., andGoode, M.J. 1990. Chemical and behavioral ecology of foraging in prairie rattlesnakes (Crotalus viridis viridis).J. Chem. Ecol. 16:87–101.
Edroma, E.L., andSsali, W. 1983. Observations on the Nile monitor lizard (Varanus niloticus, L.) in Queen Elizabeth National Park, Uganda.Afr. J. Ecol. 21:197–201.
Estes, R., De Queiroz, K., andGauthier, J. 1988. Phylogenetic relationships within Squamata, pp. 119–281,in R. Estes and G. Pregill (eds.). Phylogenetic Relationships of the Lizard Families. Stanford University Press, Stanford, California.
Evans, L.T. 1961. Structure as related to behavior in the organization of populations of reptiles, pp. 148–178,in W.F. Blair (ed.). Vertebrate Speciation. University of Texas Press, Houston, Texas.
Fellers, G.M., andDrost, C.A. 1991. Ecology of the island night lizard,Xantusia riversiana, on Santa Barbara Island.Herpetol. Monogr. 5:28–78.
Ford, N.B. 1986. The role of pheromone trails in the sociobiology of snakes, pp. 261–278,in D. Duvall, D. Müller-Schwarze, and R.M. Silverstein (eds.). Chemical Signals in Vertebrates 4: Ecology, Evolution, and Comparative Biology. Plenum Press, New York.
Fitch, H.S. 1935. Natural history of the alligator lizards.Trans. Acad. Sci. St. Louis 29:1–38.
Fitch, H.S. 1954. Life history and ecology of the five-lined skink,Eumeces fasciatus.Univ. Kans. Publ. Mus. Nat. Hist. 8:1–156.
Fitch, H.S. 1989. A field study of the slender glass lizard,Ophisaurus attenuatus, in northeastern Kansas.Occas. Pap. Mus. Nat. Hist. Univ. Kans. 125:1–50.
Frost, D.R., andEtheridge, R. 1989. A phylogenetic analysis and taxonomy of iguanian lizards (Reptilia: Squamata).Misc. Publ. Univ. Kans. Mus. Nat. Hist. 81:1–65.
Gabe, M., andSaint Girons, H. 1976. Contribution a la morphologie comparée des fosses nasales et de leurs annexes chez les lepidosauriens.Mem. Mus. Natl. Hist. Nat., Nouv. Ser. A 98:1–87 + 49 figs, 10 pl.
Gauthier, J., Estes, R., andDe Queiroz, K. 1988. A phylogenetic analysis of Lepidosauromorpha, pp. 15–98,in R. Estes and G. Pregill (eds.). Phylogenetic Relationships of the Lizard Families. Stanford University Press, Stanford, California.
Gillingham, J.C., andClark, D.L. 1981. Snake tongue-flicking: Transfer mechanics to Jacobson's organ.Can. J. Zool. 59:1651–1657.
Gleeson, T.T. 1979. Foraging and transport costs in the Galapagos marine iguanas,Amblyrhynchus cristatus.Physiol. Zool. 52:549–557.
Gleeson, T.T. 1981. Preferred body temperature, aerobic scope, and activity capacity in the monitor lizard,Varanus salvator.Physiol. Zool. 54:423–429.
Goin, O.B. 1957. An observation of mating in the broad-headed skink,Eumeces laticeps.Herpetologica 13:155–156.
Gomez, A., Font, E., andDesfilis, E. 1993. Chemoreception in the Lacertidae: exploration and conspecific discrimination in the Spanish wall lizard,Podarcis hispanica. Proceedings of First International Congress on Mediterranean Lacertids. In press.
Gorniak, G.C., Rosenberg, H.I., andGans, C. 1982. Mastication in the tuatara,Sphenodon punctatus (Reptilia: Rhynchocephalia): Structure and activity of the motor system.J. Morphol. 171:321–353.
Goosse, V., andBels, V.L. 1990. Analyse comportementale et fonctionelle des touchers linguaux lors de l'exploration et de la prise de nourriture chez le lézard vert (Lacerta viridis, Laurenti 1768).Bull. Soc. Herpetol. Fr. 53:31–39.
Gove, D. 1979. A comparative study of snake and lizard tongue-flicking, with an evolutionary hypothesis.Z. Tierpsychol. 51:58–76.
Gravelle, K., andSimon, C.A. 1980. Field observations on the use of the tongue-jacobson's organ system in two iguanid lizards,Sceloporus jarrovi andAnolis trinitatus.Copeia 1980:356–359.
Graves, B.M., andHalpern, M. 1989. Chemical access to the vomeronasal organs of the lizardChalcides ocellatus.J. Exp. Zool. 249:150–157.
Graves, B.M., andHalpern, M. 1990. Roles of vomeronasal chemoreception in tongue flicking, exploratory and feeding behaviour of the lizard,Chalcides ocellatus.Anim. Behav. 39:692–698.
Graves, B.M., andHalpern, M. 1991. Discrimination of self from conspecific chemical cues inTiliqua Scincoides (Sauria: Scincidae).J. Herpetol. 25:125–126.
Greenberg, B. 1943. Social behavior of the western banded gecko,Coleonyx variegatus Baird.Physiol. Zool. 16:110–122.
Greenberg, N. 1985. Exploratory behavior and stress in the lizard,Anolis carolinensis.Z. Tierpsychol. 70:89–102.
Halpern, M. 1992. Nasal chemical senses in reptiles: structure and function, pp. 423–523,in Biology of the Reptilia, Vol. 18, Brain, Hormones, and Behavior. C. Gans and D. Crews (eds.). University of Chicago Press, Chicago, Illinois.
Halpern, M., andFrumin, N. 1979. Roles of the vomeronasal and olfactory systems in prey attack and feeding in adult garter snakes.Physiol. Behav. 22:1183–1189.
Halpern, M., andKubie, J.L. 1980. Chemical access to the vomeronasal organs of garter snakes.Physiol. Behav. 24:367–371.
Halpern, M., andKubie, J.L. 1983. Snake tongue flicking behavior: clues to vomeronasal system functions, pp. 45–72,in R.M. Silverstein and D. Müller-Schwarze (eds.). Chemical Signals in Vertebrates III. Plenum Press, New York.
Heatwole, H. 1970. Thermal ecology of the desert dragonAmphibolurus inermis.Ecol. Monogr. 40:425–457.
Henle, K. 1990. Population ecology and life history of three terrestrial geckos in arid Australia.Copeia 1990:759–781.
Henle, K. 1991. Life history patterns in lizards of the arid and semiarid zone of Australia.Oecologia 88:347–358.
Heterington, T.E. 1989. Use of vibratory cues for detection of insect prey by the sandswimming lizardScincus.Anim. Behav. 37:290–297.
Hirth, H.F. 1963. The ecology of two lizards on a tropical beach.Ecol. Monogr. 33:83–112.
Huey, R.B., andBennett, A.F. 1986. A comparative approach to field and laboratory studies in evolutionary biology, pp. 82–98,in M.E. Feder and G.V. Lauder (eds.). Predator-Prey Relationships: Perspectives and Approaches from the Study of Lower Vertebrates. University of Chicago Press, Chicago, Illinois.
Huey, R.B., andPianka, E.R. 1981. Ecological consequences of foraging mode.Ecology 62:991–999.
Iverson, J.B. 1979. Behavior and ecology of the rock iguanaCyclura carinata.Bull. Fla. State Mus. Biol. Sci. 24:175–358.
James, C.D. 1991. Temporal variation in diets and trophic partitioning by coexisting lizards (Ctenotus: Scincidae) in central Australia.Oecologia 85:553–561.
Jones, K.B. 1983. Movement patterns and foraging ecology of gila monsters (Heloderma suspectum Cope) in northwestern Arizona.Herpetologica 39:247–253.
Kahmann, H. 1939. Uber das Jacobsonsche Organ der Echsen.Z. Vergl. Physiol. 26:669–695.
Karges, J.P., andWright, J.W. 1987. A new species ofBarisia (Sauria, Anguidae) from Oaxaca, Mexico.Contrib. Sci. Nat. Hist. Mus. Los Angeles County 381:1–11.
Kingsbury, B.A. 1989. Factors influencing activity inColeonyx variegatus.J. Herpetol. 23:399–404.
Kluge, A.G. 1987. Cladistic relationships among the Gekkonoidea.Misc. Publ. Mus. Zool. Univ. Mich. 173:1–54.
Krekorian, C.O. 1989. Field and laboratory observations on chemoreception in the desert iguana,Dipsosaurus dorsalis.J. Herpetol. 23:267–273.
Lang, M. 1991. Generic relationships within the Cordyliformes (Reptilia: Squamata).Bull. Inst. R. Sci. Nat. Belg. Biol. 61:121–188.
Lazell, J.D., Jr. 1973. The lizard genusIguana in the Lesser Antilles.Bull. Mus. Comp. Zool. 145:1–28.
Loop, M.S., andScoville, S.A. 1972. Response of newbornEumeces inexpectatus to prey-object extracts.Herpetologica 28:254–256.
Lopez, P., andSalvador, A. 1992. The role of chemosensory cues in discrimination of prey odors by the amphisbaenianBlanus cinereus.J. Chem. Ecol. 18:87–93.
Magnusson, W.E., Paiva, L.J., Rocha, R.M., Franke, C.R., Kasper, L.A., andLima, A.P. 1985. The correlates of foraging mode in a community of Brazilian lizards.Herpetologica 41:324–332.
Malan, M. 1946. Contributions to the comparative anatomy of the nasal capsule and the organ of Jacobson of the Lacertilia.Ann. Univ. Stellenbosch 24:69–137.
Marchisin, A. 1980. Predator-prey interactions between snake-eating snakes and pit vipers. PhD dissertation. Rutgers University, Newark, University Microfilms number ADG80-20143.
Mason, R.T. 1992. Reptilian pheromones, pp. 114–228,in C. Gans and D. Crews (eds.). Biology of the Reptilia, Vol. 18, Brain, Hormones, and Behavior. University of Chicago Press, Chicago, Illinois.
Mason, R.T., andGutzke, W.H.N. 1990. Sex recognition in leopard gecko,Eublepharis macularius (Sauria: Gekkonidae): Possible mediation by skin-derived semiochemicals.J. Chem. Ecol. 16:27–36.
Mautz, W.J., andNagy, K.A. 1987. Ontogenetic changes in diet, field metabolic rate, and water flux in the herbivorous lizardDipsosaurus dorsalis.Physiol. Zool. 60:640–658.
McDowell, S.B. 1972. The evolution of the tongue of snakes, and its bearing on snake origins, pp. 191–273,in T. Dobzhansky, M.K. Hecht, and W.C. Steere (eds.). Evolutionary Biology, Vol. 6. Appleton-Century-Crofts, New York.
McGovern, G.M., Mitchell, J.C., andKnisley, C.B. 1984. Field experiments on prey selection by the whiptail lizard,Cnemidophorus inornatus, in Arizona.J. Herpetol. 18:347–349.
McLaughlin, R.L. 1989. Search modes of birds and lizards: Evidence for alternative movement patterns.Am. Nat. 133:654–670.
Melcer, T., andChiszar, D. 1989. Striking prey creates a specific chemical search image in rattlesnakes.Anim. Behav. 37:477–486.
Minnich, J.E., andShoemaker, V.H. 1970. Diet, behavior and water turnover in the desert iguana,Dipsosaurus dorsalis.Am. Midl. Nat. 84:496–509.
Mitchell, D., Seely, M.K., Roberts, C.S., Pietruszka, R.D., McClain, E., Griffin, M., andYeaton, R.I. 1987. On the biology of the lizardAngolosaurus skoogi in the Namib Desert.Madoqua 15:201–216.
Moermond, T.C. 1979. The influence of habitat structure onAnolis foraging behavior.Behaviour 70:147–167.
Murray, G.W., andSchramm, D. 1987. A comparative study of the diet of the wedge-snouted sand lizard,Meroles cuneirostris (Strauch), and the sand diving lizard,Aporasaura anchietae (Bocage), (Lacertidae), in the Namib Desert.Madoqua 15:55–61.
Murray, B.A., Bradshaw, S.D., andEdward, D.H. 1991. Feeding behavior and the occurrence of caudal luring in Burton's pygopodidLialis burtoni (Sauria: Pygopodidae.Copeia 1991:509–516.
Nagy, K.A. 1973. Behavior, diet and reproduction in a desert lizard,Sauromalus obesus.Copeia 1973:93–102.
O'Connell, B., Greenlee, R., andBacon, J. 1985. Strike-induced chemosensory searching in elapid snakes (cobras, taipans, tiger snakes, and death adders) at San Diego Zoo.Psychol. Rec. 35:431–436.
Odendaal, F.J. 1979. Notes on the adaptive ecology and behaviour of four species ofRhotropus (Gekkonidae) from the Namib Desert with a special reference to a thermoregulatory mechanism employed byRhotropus afer.Madoqua 11:255–260.
Paulissen, M.A. 1987. Optimal foraging and intraspecific diet differences in the lizardCnemidophorus sexlineatus.Oecologia 71:439–446.
Perry, G., Lampl, I., Lerner, A., Rothenstein, D., Shani, E., Sivan, N., andWerner, Y.L. 1990. Foraging mode in lacertid lizards: variation and correlates.Amphibia-Reptilia 11:373–384.
Peterson, C.C. 1990. Paradoxically low metabolic rate of the diurnal geckoRhotropus afer.Copeia 1990:233–237.
Peterson, D.K., andWhitford, W.G. 1987. Foraging behavior ofUta stansburiana andCnemidophorus tigris in two different habitats.Southwest Nat. 32:427–433.
Phillips, J.A., andAlberts, A.C. 1992. Naive ophiophagous lizards recognize and avoid venomous snakes using chemical cues.J. Chem. Ecol. 18:1775–1783.
Pianka, E.R. 1968. Notes on the biology ofVaranus eremius.West. Austr. Nat. 11:39–44.
Pianka, E.R. 1971. Notes on the biology ofVaranus tristis.West. Austr. Nat. 11:180–183.
Pietruszka, R.D. 1986. Search tactics of desert lizards: how polarized are they?Anim. Behav. 34:1742–1758.
Radcliffe, C.W., Chiszar, D., andO'Connell, B. 1980. Effects of prey size on poststrike behavior in rattlesnakesCrotalus durissus, C. enyo, andC. viridis.Bull. Psychon. Sci. 16:449–450.
Regal, P.J. 1978. Behavioral differences between reptiles and mammals: an analysis of activity and mental capabilities, pp. 183–202,in B. Greenberg and P.D. MacLean (eds.). Behavior and Neurology of Lizards. United States Department of Health, Education, and Welfare, Washington, D.C.
Regal, P.J. 1983. The adaptive zone and behavior of lizards, pp. 105–118,in R.B. Huey, E.R. Pianka, and T.W. Schoener (eds.). Lizard Ecology: Studies of a Model Organism. Harvard University Press, Cambridge, Massachusetts.
Rica, J.P.M. 1982. Primeros datos sobre la población de lagart negro (Gallotia simonyi Steind.) de la Isla de Hierro.Amphibia-Reptilia 2:369–380.
Schwenk, K. 1985. Occurrence, distribution, and functional significance of taste buds in lizards.Copeia 1985:91–101.
Schwenk, K. 1986. Morphology of the tongue in the tuatara,Sphenodon punctatus (Reptilia, Lepidosauria), with comments on function and phylogeny.J. Morphol. 188:129–156.
Schwenk, K. 1988. Comparative morphology of the lepidosaur tongue and its relevance to squamate phylogeny, pp. 569–598,in R. Estes and G. Pregill (eds.). Phylogenetic Relationships of the Lizard Families. Stanford University Press, Stanford, California.
Schwenk, K. 1993. The evolution of chemoreception in squamate reptiles: A phylogenetic approach.Brain Behav. Evol. 41:124–137.
Schwenk, K., andThrockmorton, G.S. 1989. Functional and evolutionary morphology of lingual feeding in squamate reptiles: phylogenetics and kinematics.J. Zool. (London) 219:153–175.
Shenbrot, G.I., Rogovin, K.A., andSurov, A.V. 1991. Comparative analysis of spatial organization of desert lizard communities in middle Asia and Mexico.Oikos 61:157–168.
Shine, R. 1986. Food habits, habitats and reproductive biology of four sympatric species of varanid lizards in tropicalAustralia.Herpetologica 42:346–360.
Shine, R., andLambeck, R. 1989. Ecology of frillneck lizards,Chlamydosaurus kingii (Agamidae), in tropical Australia.Aust. Wildl. Res. 16:491–500.
Shoji, T., andKurihara, K. 1991. Sensitivity and transduction mechanisms of responses to general odorants in turtle vomeronasal system.J. Gen. Physiol. 98:909–919.
Siegel, S. 1956. Nonparametric Statistics for the Behavioral Sciences. McGraw-Hill, New York.
Simon, C.A., Gravelle, K., Bissinger, B.E., Eiss, I., andRuibal, R. 1981. The role of chemoreception in the iguanid lizardSceloporus jarrovi.Anim. Behav. 29:46–54.
Stamps, J.A. 1977 Social behavior and spacing patterns in lizards, pp. 265–334,in C. Gans and D.W. Tinkle (eds.). Biology of the Reptilia, Vol. 7, Ecology and Behaviour A. Academic Press, London.
Stamps, J.A. 1983. Sexual selection, sexual dimorphism, and territoriality, pp. 169–204,in R.B. Huey, E.R. Pianka, and T.W. Schoener (eds.). Lizard Ecology: Studies of a Model Organism. Harvard University Press, Cambridge, Massachusetts.
Stamps, J.A. 1987. Conspecifics as cues to territory quality: A preference of juvenile lizards (Anolis aeneus) for previously used territories.Am. Nat. 129:629–642.
Stebbins, R.C., andBarwick, R.E. 1968. Radiotelemetric study of thermoregulation in a lace monitor.Copeia 1968:541–547.
Stoddart, D.M. 1980. Olfaction in Mammals. Academic Press, New York.
Sylber, C.K. 1988. Feeding habits of the lizardsSauromalus varius andS. hispidus in the Gulf of California.J. Herpetol. 22:413–424.
Thoen, C., Bauwens, R., andVerheyen, R. 1986. Chemoreceptive and behavioural responses of the common lizardLacerta vivipara to snake chemical deposits.Anim. Behav. 34:1805–1813.
Tinkle, D.W. 1967. The life and demography of the side-blotched Lizard,Uta stansburiana.Misc. Publ. Mus. Zool., Univ. Mich. 132:1–182.
Trillmich, K.G.K., andTrillmich, F. 1986. Foraging strategies of the marine iguana,Amblyrhynchus cristatus Behav. Ecol. Sociobiol. 18:259–266.
Underwood, G. 1970. The eye, pp. 1–97,in C. Gans and T.S. Parsons (eds.). Biology of the Reptilia, Vol. 2, Morphology B. Academic Press, London.
Van Damme, R., Bauwens, D., Vanderstighelen, D., andVerheyen, R.F. 1990a. Responses of the lizardLacerta vivipara to predator chemical cues: The effects of temperature.Anim. Behav. 40:298–305.
Van Damme, R., Bauwens, D., Castilla, A.M., andVerheyen, R.F. 1990b. Comparative thermal ecology of the sympatric lizardsPodarcis tiliguerta andPodarcis sicula.Acta Oecol. 11:503–512.
Van Damme, R., Bauwens, D., andVerheyen, R.F. 1991. The thermal dependence of feeding behaviour, food consumption and gut-passage time in the lizardLacerta vivipara Jacquin.Funct. Ecol. 5:507–517.
Van Devender, R.W. 1982. Growth ecology of spiny-tailed and green iguanas in Costa Rica, with comments on the evolution of herbivory and large body size, pp. 162–183,in G.M. Burghardt and A.S. Rand (eds.). Iguanas of the World: Their Behavior, Ecology, and Conservation. Noyes, Park Ridge, New Jersey.
Vernet, R.C., Grenot, C., andNouira, S. 1988. Flux hydriques et métabolisme énergétiques dans un peuplement de lacertidés des îles Kerkennah (Tunisie).Can. J. Zool. 66:555–561.
Vitt, L.J. 1990. The influence of foraging mode and phylogeny on seasonality of tropical lizard reproduction.Pap. Avulsos Zool. Mus. Zool. Univ. Sao Paulo 37:107–123.
Vitt, L.J. 1991. Ecology and life history of the scansorial arboreal lizardPlica plica (Iguanidae) in Amazonian Brazil.Can. J. Zool. 69:504–511.
Vitt, L.J., andCongdon, J.D. 1978. Body shape, reproductive effort, and relative clutch mass in lizards.Am. Nat. 112:595–608.
Vitt, L.J., andCooper, W.E., Jr. 1986. Foraging and diet of a diurnal predator (Eumeces laticeps) feeding on hidden prey.J. Herpetol. 20:408–415.
Vitt, L.J., andPrice, H. 1982. Ecological and evolutionary determinants of relative clutch mass in lizards.Herpetologica 38:237–255.
Vogel, P. 1979. Zur biologie des bindenwarans (Varanus salvator) im Westjavanischen naturschutzdebiet Ujung Kulon. PhD dissertation. University of Basel, Basel, Switzerland.
Walls, G.Y. 1981. Feeding ecology of the tuatara (Sphenodon punctatus) on Stephens Island, Cook Strait.N. Zl. J. Ecol. 4:89–97.
Walls, G.Y. 1983. Activity of the tuatara and its relationships to weather conditions on Stephens Island, Cook Strait, with observations on geckos and invertebrates.N. Zl. J. Zool. 10:309–318.
Webb, J.K., andShine, R. 1992. To find an ant: trail-following in Australian blindsnakes (Typhlopidae).Anim. Behav. 43:941–948.
Weldon, P.J. 1982. Responses to ophiophagous snakes by snakes of the genusThamnophis.Copeia 1982:788–794.
Werner, D.I., Baker, E.M., Gonzales, E.C., andSosa, I.R. 1987. Kinship recognition and grouping in hatchling green iguanas.Behav. Ecol. Sociobiol. 21:83–89.
Young, B.A. 1990. Is there a direct link between the ophidian tongue and Jacobson's organ?Amphibia-Reptilia 11:263–276.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Cooper, W.E. Chemical discrimination by tongue-flicking in lizards: A review with hypotheses on its origin and its ecological and phylogenetic relationships. J Chem Ecol 20, 439–487 (1994). https://doi.org/10.1007/BF02064449
Received:
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF02064449