Free Access
CONVERGENT EVOLUTION OF EMBRYONIC GROWTH AND DEVELOPMENT IN THE EASTERN FENCE LIZARD (SCELOPORUS UNDULATUS)
Christopher E. Oufiero,
Michael J. Angilletta Jr.,
Christopher E. Oufiero
Department of Ecology and Organismal Biology, Indiana State University, Terre Haute, Indiana 47809
Department of Biology, University of California, Riverside, California 92521; E-mail: [email protected].
Search for more papers by this authorMichael J. Angilletta Jr.
Department of Ecology and Organismal Biology, Indiana State University, Terre Haute, Indiana 47809
E-mail: [email protected]
Search for more papers by this authorChristopher E. Oufiero,
Michael J. Angilletta Jr.,
Christopher E. Oufiero
Department of Ecology and Organismal Biology, Indiana State University, Terre Haute, Indiana 47809
Department of Biology, University of California, Riverside, California 92521; E-mail: [email protected].
Search for more papers by this authorMichael J. Angilletta Jr.
Department of Ecology and Organismal Biology, Indiana State University, Terre Haute, Indiana 47809
E-mail: [email protected]
Search for more papers by this authorAbstract
Abstract Theory predicts that cold environments will select for strategies that enhance the growth of ectotherms, such as early emergence from nests and more efficient use of resources. We used a common garden experiment to detect parallel clines in rates of embryonic growth and development by eastern fence lizards (Sceloporus undulatus). Using realistic thermal conditions, we measured growth efficiencies and incubation periods of lizards from five populations representing two distinct clades. In both clades, embryos from cold environments (Indiana, New Jersey, and Virginia) grew more efficiently and hatched earlier than embryos from warm environments (Florida and South Carolina). Because eggs from cold environments were larger than eggs from warm environments, we experimentally miniaturized eggs from one population (Virginia) to determine whether rapid growth and development were caused by a greater maternal investment. Embryos in miniaturized eggs grew as efficiently and incubated for the same duration as embryos in unmanipulated eggs. Taken together, our results suggest countergradient variation has evolved at least twice in S. undulatus.
Literature Cited
- Andrews, R. M., T. Mathies, C. P. Qualls, and F. J. Qualls. 1999. Rates of embryonic development of Sceloporus lizards: do cold climates favor the evolution of rapid development Copeia 1999: 692–700.
- Angilletta, M. J. 1999. Estimating body composition of lizards from total body electrical conductivity and total body water. Copeia 1999: 587–595.
- Angilletta, M. J. 2001 Thermal and physiological constraints on energy assimilation in a widespread lizard (Sceloporus undulatus). Ecology 82: 3044–3056.
- Angilletta, M. J., P. H. Niewiarowski, and C. A. Navas. 2002. The evolution of thermal physiology in ectotherms. J. Therm. Biol. 27: 249–268.
- Angilletta, M. J., R. S. Wilson, C. A. Navas, and R. S. James. 2003. Trade-offs and the evolution of thermal reaction norms. Trends Ecol. Evol. 18: 234–240.
- Angilletta, M. J., P. H. Niewiarowski, A. E. Dunham, A. Leaché, and W. P. Porter. 2004. Bergmann's clines in ectotherms: illustrating a life-historical perspective with sceloporine lizards. Am. Nat. 164: E168–E183.
- Angilletta, M. J., C. E. Oufiero, and M. W. Sears. 2005. Thermal adaptation of maternal and embryonic phenotypes in a geographically widespread lizard. Pp. 258–266 in S. Morris and A. Vosloo, eds. Animals and environments. Proceedings of the Third International Conference of Comparative Physiology and Biochemistry. Elsevier Press, Amsterdam .
- Arendt, J. D. 1997. Adaptive intrinsic growth rates: an integration across taxa. Quart. Rev. Biol. 72: 149–177.
- Arnold, S. J. 2003. Performance surfaces and adaptive landscapes. Integr. Comp. Biol. 43: 367–375.
- Atkinson, D., S. A. Morley, D. Weetman, and R. N. Hughes. 2001. Offspring size responses to maternal temperature in ectotherms. Pp. 269–285 in D. Atkinson and M. Thorndyke, eds. Environment and animal development: genes, life histories and plasticity. BIOS Scientific Publishers, Oxford , U.K.
- Ayres, M. P., and J. M. Scribner. 1994. Local adaptation to regional climates in Papilio canadensis (Lepidoptera: Papilionidae). Ecol. Monogr. 64: 465–482.
- Ayers, D. Y., and R. Shine. 1997. Thermal influences on foraging ability: body size, posture, and cooling rate of an ambush predator, the python Morelia spilota. Funct. Ecol. 11: 342–347.
- Azevedo, R. B. R., V. French, and L. Partridge. 1996. Thermal evolution of egg size in Drosophila melanogaster. Evolution 50: 2338–2345.
- Bayne, B. L. 2004. Phenotypic flexibility and physiological tradeoffs in the feeding and growth of marine bivalve molluscs. Integr. Comp. Biol. 44: 425–432.
- Beaupre, S. J. 1995. Effects of geographically variable thermal environment on bioenergetics of mottled rock rattlesnakes. Ecology 76: 1655–1665.
- Bernardo, J. 1996. The particular maternal effect of propagule size, especially egg size: patterns, models, quality of evidence and interpretations. Am. Zool. 36: 216–236.
- Billerbeck, J. M., E. T. Schultz, and D. O. Conover. 2000. Adaptive variation in energy acquisition and allocation among latitudinal populations of the Atlantic silverside. Oecologia 122: 210–219.
- Booth, D. T. 2003. Composition and energy density of eggs from two species of freshwater turtle with twofold ranges in egg size. Comp. Biochem. Physiol. A 134: 129–137.
- Brooks, R., J. Hunt, M. W. Blows, M. J. Smith, L. F. Bussiére, and M. D. Jennions. 2005. Experimental evidence for multivariate stabilizing sexual selection. Evolution 59: 871–880.
- Congdon, J. D. 1989. Proximate and evolutionary constraints on energy relations of reptiles. Physiol. Zool. 62: 356–373.
- Conover, D. O., and T. M. C. Present. 1990. Countergradient variation in growth rate: compensation for length of the growing season among Atlantic silversides from different latitudes. Oecologia 83: 316–324.
- Conover, D. O., and E. T. Schultz. 1995. Phenotypic similarity and the evolutionary significance of countergradient variation. Trends Ecol. Evol. 10: 248–252.
- DeMarco, V. 1993. Estimating egg retention times in sceloporine lizards. J. Herpetol. 27: 453–458.
- Dunham, A. E., B. W. Grant, and K. L. Overall. 1989. Interfaces between biophysical and physiological ecology and the population ecology of terrestrial vertebrate ectotherms. Physiol. Zool. 62: 335–355.
- Ernsting, G., and A. Isaaks. 2000. Ectotherms, temperature, and trade-offs: size and number of eggs in a carabid beetle. Am. Nat. 155: 804–813.
- Glazier, D. S. 1999. Variation in offspring investment within and among populations of Gammarus minus SAY (Crustacea: Amphipoda) in ten mid-Appalachian springs (USA). Arch. Fur Hydrobiol. 146: 257–283.
- Gotthard, K. 2000. Increased risk of predation as a cost of high growth rate: an experimental test in a butterfly. J. Anim. Ecol. 69: 896–902.
- Gotthard, K. 2001. Growth strategies of ectothermic animals in temperate environments. Pp. 287–303 in D. Atkinson and M. Thorndyke, eds. Environment and animal development: genes, life histories, and plasticity. BIOS Scientific Publishers, Oxford , U.K.
- Grant, B. W., and A. E. Dunham. 1990. Elevational covariation in environmental constraints and life histories of the desert lizard Sceloporus merriami. Ecology 71: 1765–1776.
- Hawkins, A. J. S. 1995. Effects of temperature change on ectotherm metabolism and evolution: metabolic and physiological interrelations underlying the superiority of multi-locus heterozygotes in heterogeneous environments. J. Therm. Biol. 20: 23–33.
- Hawkins, A. J. S., and A. J. Day. 1999. Metabolic interrelations underlying the physiological and evolutionary advantages of genetic diversity. Am. Zool. 39: 401–411.
- Huey, R. B., G. W. Gilchrist, M. L. Carlson, D. Berrigan, and S. Luis. 2000. Rapid evolution of a geographic cline in size in an introduced fly. Science 287: 308–309.
-
Iguchi, K., and
M. Yamaguchi. 1994. Adaptive significance of interpopulational and intrapopulational egg size variation in Ayuplecoglossus-altivelis (Osmeridae).
Copeia
1994: 184–190.
10.2307/1446684 Google Scholar
- Ji, X., X. Zheng, Y. Xu, and R. Sun. 1995. Some aspects of thermal biology of the skink (Eumeces chinensis). Acta Zool. Sin. 41: 268–274.
- Johnson, J. B. 2001. Adaptive life-history evolution in the livebearing fish Brachyrhaphis rhabdophora: genetic basis for parallel divergence in age and size at maturity and a test of predator induced plasticity. Evolution 55: 1486–1491.
- Kim, J., and R. W. Thorpe. 2001. Maternal investment and sizenumber trade-off in a bee, Megachile apicalis, in a seasonal environment. Oecologia 126: 451–456.
- Kingsolver, J. G., and H. A. Woods. 1997. Thermal sensitivity of growth and feeding in Manduca sexta caterpillars. Physiol. Zool. 70: 631–638.
- Laugen, A. T., A. Laurila, K. Rasanen, and J. Merilä. 2003a. Latitudinal countergradient variation in the common frog (Rana temporaria) development rates-evidence for local adaptation. J. Evol. Biol. 16: 996–1005.
- Laugen, A. T., A. Laurila, and J. Merilä. 2003b. Latitudinal and temperature-dependent variation in embryonic development and growth in Rana temporaria. Oecologia 135: 548–554.
- Leaché, A. D., and T. W. Reeder. 2002. Molecular systematics of the eastern fence lizard. (Sceloporus undulatus): a comparison of parsimony, likelihood, and Bayesian approaches. Syst. Biol. 51: 44–68.
- Lonsdale, D. J., and J. S. Levinton. 1989. Energy budgets of latitudinally separated Scottolana canadensis (Copepoda: Harpacticoida). Limnol. Oceanogr. 34: 324–331.
- Mousseau, T. A., and C. F. Fox. 1998. The adaptive significance of maternal effects. Trends Ecol. Evol. 13: 403–407.
- Niewiarowski, P. H. 2001. Energy budgets, growth rates, and thermal constraints: toward an integrative approach to the study of life-history variation. Am. Nat. 157: 421–433.
- Niewiarowski, P. H., M. J. Angilletta, and A. Leaché. 2004. Phylogenetic comparative analysis of life history variation among populations of the lizard Sceloporus undulatus: an example and prognosis. Evolution 58: 619–633.
- Packard, G. C., and T. J. Boardman. 1999. The use of percentages and size-specific indices to normalize physiological data for variation in body size: wasted time, wasted effort Comp. Biochem. Physiol. A 122: 37–44.
- Parker, S. L., R. M. Andrews, and T. Mathies. 2004. Embryonic responses to variation in oviductal oxygen in the lizard Sceloporus undulatus from New Jersey and South Carolina, USA. Biol. J. Linn. Soc. 83: 289–299.
- Perrin, N. 1988. Why are offspring born larger when it is colder? Phenotypic plasticity for offspring size in the cladoceran Simocephalus vetulusk (Müller). Funct. Ecol. 2: 283–288.
- Porter, W. P. 1989. New animal models and experiments for calculating growth potential at different elevations. Physiol. Zool. 62: 286–313.
- Potvin, C. 2001. ANOVA: experimental layout and analysis. Pp. 63–76 in S. M. Scheiner and J. Gurevitch, eds. Design and analysis of ecological experiments. Oxford Univ. Press, Oxford , U.K.
- Qualls, F. J., and R. Shine. 1998. Geographic variation in lizard phenotypes: importance of the incubation environment. Biol. J. Linn. Soc. 34: 477–491.
- Raubenheimer, D., and S. J. Simpson. 1994. The analysis of nutrient budgets. Funct. Ecol. 8: 783–791.
- Reznick, D. N., F. H. Rodd, and M. Cardenas. 1996. Life-history evolution in guppies (Poecilia reticulata: Poeciliidae). 4. Parallelism in life history. Am. Nat. 147: 319–338.
- Rice, W. R., and S. D. Gaines. 1994a. “Heads I win, tails you lose”: testing directional alternative hypotheses in ecological and evolutionary research. Trends Ecol. Evol. 9: 235–237.
- Rice, W. R., and S. D. Gaines. 1994b. Extending nondirectional heterogeneity tests to evaluate simply ordered alternative hypotheses. Proc. Natl. Acad. Sci. USA 91: 225–226.
- Robinson, S. J., and L. Partridge. 2001. Temperature and clinal variation in larval growth efficiency in Drosophila melanogaster. J. Evol. Biol. 14: 14–21.
- Schluter, D. 2000. The ecology of adaptive radiation. Oxford Univ. Press, Oxford , U.K.
- Sears, M. W., and M. J. Angilletta. 2003. Life-history variation in the sagebrush lizard: phenotypic plasticity or local adaptation. Ecology 84: 1624–1634.
- Sears, M. W., and M. J. Angilletta. 2004. Body size clines in Sceloporus lizards: proximate mechanisms and demographic constraints. Integr. Comp. Biol. 44: 433–442.
- Sexton, O. J., and K. R. Marion. 1974. Duration of incubation of Sceloporus undulatus eggs at constant temperature. Physiol. Zool. 47: 91–98.
- Sibly, R., and P. Calow. 1983. An integrated approach to life-cycle evolution using selective landscapes. J. Theor. Biol. 102: 527–547.
- Sinervo, B. 1990. Evolution of thermal physiology and growth-rate between populations of the western fence lizard (Sceloporus occidentalis). Oecologia 83: 228–237.
- Sinervo, B., and L. R. McEdward. 1988. Developmental consequences of an evolutionary change in egg size: an experimental test. Evolution 42: 885–899.
- StatSoft, Inc. 2003. STATISTICA (data analysis software system). Ver. 6. Available at: www.statsoft.com.
- Stelzer, C. P. 2002. Phenotypic plasticity of body size at different temperatures in a planktonic rotifer: mechanisms and adaptive significance. Funct. Ecol. 16: 835–841.
- Tamate, T., and T. Maekawa. 2000. Interpopulation variation in reproductive traits of female masu salmon, Oncorhynchus masou. Oikos 90: 209–218.
- Taylor, P. D., and G. C. Williams. 1984. Demographic parameters at evolutionary equilibrium. Can. J. Zool. 62: 2264–2271.
- Troyer, K. 1987. Posthatching yolk in a lizard: internalization and contribution to growth. J. Herpetol. 21: 102–106.
- Van Doorslaer, W., and R. Stoks. 2005. Thermal reaction norms in two Coenagrion damselfly species: contrasting embryonic and larval life-history traits. Freshwater Biol. 50: 1982–1990.
- Wapstra, E., and R. Swain. 2001. Geographic and annual variation in life-history traits in a temperate zone Australian skink. J. Herpetol. 35: 194–203.
- Warner, D. A., and R. M. Andrews. 2002. Nest-site selection in relation to temperature and moisture by the lizard Sceloporus undulatus. Herpetologica 58: 399–407.
- Warner, D. A., and R. M. Andrews. 2003. Laboratory and field experiments identify sources of variation in phenotypes and survival of hatchling lizards. Biol. J. Linn. Soc. 76: 105–124.
- Wiens, J. J., T. D. Reeder, and A. N. Montes De Oca. 1999. Molecular phylogenetics and evolution of sexual dichromatism among populations of the Yarrow's spiny lizard (Sceloporus jarrovii) Evolution 53: 1884–1897.
- Wieser, W. 1994. Cost of growth in cells and organisms: general rules and comparative aspects. Biol. Rev. 68: 1–33.
- Yampolsky, L. Y., and S. M. Scheiner. 1996. Why larger offspring at lower temperatures? A demographic approach. Am. Nat. 147: 86–100.
- Zamudio, K. R. 1998. The evolution of female biased sexual size dimorphism: a population level comparative study in horned lizards (Phrynosoma). Evolution 52: 1821–1833.
