Abstract
Hatchling Sceloporus undulatus elongatus from Washington Co., Utah and S. u. garmani from Woods Co., Oklahoma were raised to maturity and reproduction under identical laboratory conditions with ad libitum food availability. Growth, allometry, age and size of maturity, clutch size and egg mass were compared among lab-raised cohorts from the two populations, among lab-raised and field-caught animals (including their field-caught mothers) and, for growth, with values obtained by previously published field studies on the same or nearby populations. For all traits population differences observed in previous field studies and current field samples resulted from both a plastic response to proximate environmental conditions and intrinsic (possibly genetic) difference. The most plastic traits were growth and age of maturity. Cohorts from both populations expressed the ability to mature in less than 6 months in the laboratory but only the S.u. garmani express early maturity in the field. Allometric differences generated during growth in the lab were not observed in field samples but may reflect an adaptive physiological difference. The least plastic trait was egg mass. The only trait for which the rank order of the difference in the field was reversed in the lab was growth rate. S.u. elongatus grew significantly faster than S.u. garmani in the lab but much slower in the field. The tendency of S.u. garmani females to breed at minimum size of maturity may be greater than that of S.u. elongatus.
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References
Andrews RM (1982) Patterns of growth in reptiles, pages 273–320, In: Gans C (ed) Biology of the Reptilia Vol. 13, Academic Press, NY, USA
Ballinger RE (1983) Life-history variations, pages 241–260, In: Huey RB, Pianka ER and Schoener TW (eds) Lizard Ecology: Studies of a model organism. Harvard University Press, Cambridge, MA, USA
Derickson WK (1976) Ecological and physiological aspects of reproductive strategies in two lizards. Ecology 57: 445–458
Dunham AE, Miles DB, Reznick DN (1988) Life-history patterns in squamate reptiles, pages 471–511, In: Gans C, Huey R (eds) Biology of the Reptilia Vol. 16, A.R. Liss, Inc, NY, USA
Ferguson GW, Brockman T (1980) Geographic differences of growth rate potential of Sceloporus lizards (Sauria: Iguanidae). Copeia 1980: 259–264
Ferguson GW, Bohlen C, Woolley HP (1980) Sceloporus undulatus: comparative life-history and regulation of a Kansas population. Ecology 61: 312–322
Ferguson GW, Fox SF (1984) Annual variation of survival advantage of large juvenile side-blotched lizards Uta stansburiana: its causes and evolutionary significance. Evolution 38: 342–349
Ferguson GW, Snell HL (1986) Endogenous control of egg hatchling and clutch size of the lizard Sceloporus undulatus garmani Herpetologica 42: 184–191
Ferguson GW, Snell HL, Landwer AJ (1990) Proximate control of variation of clutch, egg and body size in a West Texas population of Uta stansburiana stejnegeri (Sauria: Iguanidae). Herpetologica 46: 227–228
Ford NB, Siegel RA (1989) Phenotypic plasticity in reproductive traits: evidence from a viviporous snake. Ecology 70: 1768–1774
Gillis R, Ballinger RE (1992) Reproductive ecology of red-chinned lizards (Sceloporus undulatus erythrocheilus) in Southcentral Colorado: comparisons with other populations of a wide-ranging species. Oecologia 89: 236–243
Grant BW, Dunham AE (1990) Elevational covariation in environmental constraints and life-histories of the desert lizard Sceloporus merriami. Ecology 71: 1765–1776
Hurlbert SH (1984) Pseudoreplication and the design of ecological experiments. Ecol Monogr 54: 187–211
Jones SM, Ballinger RE (1987) Comparative life-histories of Holbrookia maculata and Sceloporus undulatus in western Nebraska. Ecology 68: 1828–1838
Sinervo B (1990) Evolution of thermal physiology and growth rate between populations of western fence lizard (Sceloporus occidentalis). Oecologia 83: 228–237
Sinervo B, Adolph S (1989) Thermal sensitivity of hatchling growth in Sceloporus lizards: environmental, behavioral and gentic aspects. Oecologia 78: 411–419
Sinervo B, Licht P (1991a) Hormonal and physiological control of clutch size, egg size and egg shape in side-blotched lizards (Uta stansburiana): constraints on the evolution of life histories. J Exp Zool 257: 252–264
Sinervo B, Licht P (1991) Proximate constraints on the evolution of egg size, number and total clutch mass in lizards. Science 252: 1300–1302
Stearns SC, Koella JC (1986) The evolution of phenotypic plasticity in life-history traits: predictions of reaction norms for age and size at maturity. Evolution 40: 893–914
Tinkle DW (1972) The dynamics of a Utah population of Sceloporus undulatus. Herpetologica 28: 351–359
Tinkle DW, Dunham AE (1986) Comparative life-history of two syntopic sceloporine lizards. Copeia 1986: 1–17
Vitt LJ, Congdon JD (1978) Body shape, reproductive effort and relative clutch mass in lizards: resolution of a paradox. Am Nat 112: 595–608
Vitt LJ, Price HJ (1982) Ecological and evolutionary determinants of relative clutch mass in lizards. Herpetologica 38: 237–255
Wilbur HM, Morin PJ (1988) Life-history evolution in turtles, pages 387–440, In: Gans C, Huey R (eds) Biology of the Reptilia Vol. 16, A.R. Liss, Inc, NY, USA
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Ferguson, G.W., Talent, L.G. Life-history traits of the lizard Sceloporus undulatus from two populations raised in a common laboratory environment. Oecologia 93, 88–94 (1993). https://doi.org/10.1007/BF00321196
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DOI: https://doi.org/10.1007/BF00321196