Eastern fence lizard

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Eastern fence lizard
Eastern fence lizard (Sceloporus undulatus), Amelia Court House, VA
Scientific classification Edit this classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Class: Reptilia
Order: Squamata
Suborder: Iguania
Family: Phrynosomatidae
Genus: Sceloporus
Species:
S. undulatus
Binomial name
Sceloporus undulatus
(Bosc & Daudin, 1801)[2]
The ranges of different S. undulatus subspecies are indicated by color. (note: map is missing distribution in New York State)
Synonyms
  • Stellio undulatus
    Bosc & Daudin, 1801
  • Lacerta undulata
    — Bosc, 1801
  • Agama undulata
    — Daudin, 1802
  • Tropidolepis undulatus
    A.M.C. Duméril & Bibron, 1837
  • Sceloporus undulatus
    Boulenger, 1885

The eastern fence lizard (Sceloporus undulatus) is a medium-sized species of lizard in the family Phrynosomatidae.[3] The species is found along forest edges, rock piles, and rotting logs or stumps in the eastern United States. It is sometimes referred to as the prairie lizard, fence swift, gray lizard, gravid lizard, northern fence lizard or pine lizard.[4] It is also referred to colloquially as the horn-billed lizard. One of its most notable behaviors is that of its escape behavior when encountering fire ants, which have been known to invade and negatively affect many of their populations.[5]

Taxonomy

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The generic name, Sceloporus, is derived from the Greek skelos/σκελος, meaning "leg", and the Latin porus, meaning "hole", referring to the enlarged femoral pores found in this genus of lizards. The specific name, undulatus, is Latin for "wave", referring to the transverse dark crossbars on the backs of these lizards.[6]

Until 2002, 10 subspecies of S. undulatus were recognized,[7] but re-evaluation showed paraphyly between the subspecies. These were reclassified as four distinct evolutionary species (the three new species being S. consobrinus, S. tristichus, and S. cowlesi). The narrowed redefinition of S. undulatus has been suggested to still contain two subspecies divided by the Appalachian Mountains. None currently hold formal recognition.[8] This variation can be partially attributed to the high nucleotide variation. One study found an average of 38 SNPs per kilobase of DNA.[9]

The following cladogram is based on Leaché and Reeder, 2002:[8]

Description

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The eastern fence lizard can grow from 4.0 to 7.5 inches (10 to 19 cm) in total length (including tail).[10] It is typically colored in shades of gray or brown, and has keeled scales, with a dark line running along the rear of the thigh. A female is usually gray and has a series of dark, wavy lines across her back. The belly is white with black flecks, with some pale blue on the throat and belly. The male is usually brown, and during the summer, has a more greenish-blue and black coloration on the sides of the belly and throat than the female. The young look like the females, but are darker and duller. Both sexes have keeled scales.[11]

The lizards mostly inhabit sparsely wooded areas with ample sunlight, such as pine barrens with sandy or loose soil. They can be found basking atop of both natural and artificial structures including coarse woody debris, tree stumps, rock piles, sandy hills, dead logs, and fence posts. They are most active in the early morning sun when the ground has not been fully warmed up yet. They seek refuge under structures such as woodpiles, logs, and rocks for coverage and protection when it gets too hot and at night.[12]

Sexual dichromatism

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This species has sexual dichromatism, which is a difference in coloration between the sexes. Males are blue and black on their ventral side. In some lizards, this coloration appears green or turquoise. In males, these patches assist intraspecific sex recognition and signaling. The size of patches correlates with the size of a lizard, and therefore may be a signal towards females or other antagonistic lizards.[13] Males are somewhat uniformly brown elsewhere with a reddish tinge.[14]

Females and juveniles are slightly colored blue and black on the ventral side or not at all. Their coloring is more complex, with "rows of dark brown or black chevrons set against a background of gray and brown."[14]

This sexual dichromatism is correlated to and somewhat regulated by plasma levels of testosterone in juveniles and adult females. Higher levels of testosterone support stronger blue and black ventral coloration.[14]

Male eastern fence lizards can also experience short-term color changes on their dorsal side and badge after exposure to temperature changes. The color of a lizard affects its social dominance or inferiority, camouflage, and self-regulation of temperature. Social dominance as a result of lizard color may exist because coloration would then possibly provide an honest indicator of lizard temperature and health.[15]

It is thought that sexual dimorphism and sexual differences in behavior may be due to differences in androgen concentration and receptor immunoreactivity.[16]

Habitat and distribution

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The eastern fence lizard is found in Alabama, Louisiana, Arkansas, Colorado, Georgia, North Carolina, South Carolina, West Virginia, Virginia, Indiana, Kentucky, Southern Illinois, Southern Indiana, Tennessee, Ohio, Pennsylvania, Maryland, Missouri, Mississippi, Delaware, northern Florida, southern Wyoming, northeastern Pennsylvania, southern New Jersey, southeastern New York, and southern Connecticut.[8] It prefers open woodland and the edges of forests. This species is known to enjoy pine trees, and is often dubbed "pine lizard".[17] Adults and juveniles prefer habitats with a high amount of rocks and coarse woody debris while hatchlings prefer sites with high temperatures (23 degrees Celsius) and low amounts of litter.[18]

There are some introduced populations of eastern fence lizards, the most well known in Staten Island, New York. In 1942, Carl Kauffeld released 29 of the lizards near Rossville where they still persist today in post oak-blackjack oak barrens.[19][20] This introduction was done so Kauffeld could have an easy source of food for the lizard-eating snakes at the Staten Island Zoo, as he would otherwise have to drive to the Pine Barrens to collect the lizards for the snakes.[21][22] There have also been sightings of the fence lizards in northern Pennsylvania and southern New York (in the Hudson Valley and Long Island), suggesting that their range may be expanding north.[23]

Despite its broad geographic distribution, these lizards tend to prefer temperatures that optimize their digestive performance. Their locomotive performance is optimal over a relatively broad range of body temperature.[24]

Regional variation

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The eastern fence lizard has several adaptations to better survive in colder regions of its distribution, including larger eggs, more efficient embryonic development, and shorter incubation times. The larger egg sizes are not a result of greater maternal investment — even when forcibly made smaller, efficiency and incubation time were similar to the originally larger eggs.[25]

On the other hand, female lizards in southern regions produce second clutches more often, although their clutches are smaller than northern ones. The season at which eggs can incubate and lizards may be active is longer in the southern regions.[26]

The overall reproductive success of both northern and southern lizards are approximately equal, given that all else (i.e. body size) is equal.[26]

Behavior and ecology

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When climate conditions are stable, fence lizards prefer to sleep in the same site over short periods of time. The site selected is within the lizard's home range or territory.[27] When climate conditions are not stable, it has been found that some eastern fence lizards have been able to survive small frozen periods, and then return to normal after the period is over.[28]

Locomotion

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The running speed of these lizards is not limited by their mechanical power output. As the slope of the terrain increases, running speed and stamina of lizards decreases. Eastern fence lizards run faster uphill than downhill at a fixed degree of incline or decline. Lizards with higher running speeds also have higher stamina in regard to time and distance.[29]

Territoriality and conflict

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Male eastern fence lizards will establish a territory in the early spring, doing push-ups to flash their blue scales and deter other males.[30] Males will flash the blue coloration on their bellies to claim territory.[31] Males will headbob more at males with smaller ventral patches, but aggressiveness is not affected by male patches.[13]

The size of a male's territory (home range area) is directly correlated with his body size. The territory of smaller males in their first breeding season tends to be smaller. Territories may overlap; about half of any given male's territory is shared by another male.[30] Within their territory, males cluster around the ranges of females, who are a limited resource. As such, the range and distribution of males is predominantly determined by the distribution of nearby females.[30]

Courting

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Courting begins after female fence lizards encounter a male within his territory. Males express sexually dimorphic ventral abdominal coloration during courting. This coloration is used to attract mates, as more and brighter colors have been recorded to increase the likelihood of courtship.[32]

In 60% of instances where a female and male encountered each other, males displayed courting behaviors. Older and larger males tend to win contests with other males, and therefore gain access to any nearby females. Any contest victories or defeats did not affect a lizard's future location.[30] Larger bodied males are more likely to mate with multiple females.[33] Contests with other males and courtship towards females elevates plasma levels of corticosterone, an indicator of stress, in adult males.[30]

Feeding behaviors

Fence lizards are ambush, sit-and-wait, predators.[34] They are insectivores that typically eat arthropods such as ants and grasshoppers.[35] Studies have shown that eastern fence lizards display an ontogenetic shift in consumption of native and invasive prey. Although eastern fence lizards are an ant specialist, invasive imported red fire ants can pose a risk to young, smaller-bodied juveniles if they consume them, especially because young fence lizards are more common consumers of ants than adults.[36] Ants compose up to 80% of a juvenile's diet.[37] It was found there was an increased consumption of fire adults in the adult life stage compared to earlier life stages.[36] These lizards are known to forage generally twice a day. Females will eat more during the breeding season for greater energy storage to help produce offspring.[38]

Reproduction and life cycle

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The female finds a suitable location to lay her eggs, usually in a rotting log or similarly damp area, and deposits them without any further parental care.[39] Young females will only produce one clutch of three to sixteen eggs, while a large female can produce up to four.[40] The eggs take approximately ten weeks to hatch and emerge near the end of summer. The young lizards grow quickly and are able to reproduce the next year.

Unfavorable nesting conditions can cause females to retain their eggs longer than they would have otherwise. This phenomenon is referred to as egg retention. Egg retention in the eastern fence lizard produces heavier eggs with more advanced embryos and with higher posthatching survival rate, but does not influence phenotype.[41]

Greater reproductive energy allocated to first clutches is common at higher latitudes, whereas more energy is dedicated to later clutches in lower latitudes.[42]

Embryonic development

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After the eggs are laid by a female, the development of the embryo and yolk within differ from that of birds, which has long been assumed to be identical. Instead, the process is more similar to snakes.

Strands form a vascularized network within the yolk sac cavity. The embryo and yolk sac cavity then progress through three distinct developmental stages.

In the first stage, endodermal cells develop and invade the nourishing yolk in order to digest it. They may clump within and begin filling the cavity.

In the second stage, the vasculature of the yolk sac produces blood vessels that expand throughout the cavity.

In the third stage, the cells organize themselves around the blood vessels. They can now more quickly and easily digest yolk. The products of digestion reach the embryo via release into blood vessels.[43]

Escape response to fire ants

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The pressures of predation can select for a variety of escape tactics. In their natural habitat, these lizards encounter invasive ants, red imported fire ants (Solenopsis invicta), the bites of which threaten the lizards with envenomation and, possibly, reduced growth in juveniles. Fire ants also compete with eastern fence lizards for their nesting habitats and predate on their eggs. [44] These encounters can be dangerous and even lethal to the lizards. When attacked by these stinging fire ants, fence lizards twitch their bodies to throw off the attacking ants before fleeing.[45] The learning of these lizards after repeated exposure to fire ants has also been studied. Lizards that were more familiar or exposed to attacking fire ants tend to twitch more and flee sooner compared to lizards that were not exposed. This may also be an adaptive behavioral response induced by higher stress levels (and thus, elevated corticosteroids). However, exposure to fire ants did not increase the percentage of lizards that demonstrated escape behavior. Instead, those that had priorly shown escape behavior were more likely to show escape behavior earlier and more strongly. In other words, this behavior is not learned, but can be shaped if already present. The number of twitches performed by a lizard is also not affected by previous exposure. Juveniles, which are younger and smaller, flee more rapidly than adults in any encounter.[45] Furthermore, within the past 70 years, according to a study published in 2009, eastern fence lizards in certain regions have adapted to have longer legs and new behaviors to escape the red imported fire ant, which can kill the lizard in under a minute.[46]

Given the incubation period of the eggs, one study suggests that 61% of nests may be at risk of predation by these invasive fire ants. Nest choice and distance to the nearest fire ant mound did not significantly impact predation; thus, because there is little that eastern fence lizards can do to resist such predation on their eggs, there is conservation efforts toward stopping invasive species such as this fire ant.[44]

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References

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  1. ^ Hammerson, G.A.; Lavin, P.; Vazquez Díaz, J.; Quintero Díaz, G.; Gadsden, H. (2007). "Sceloporus undulatus". IUCN Red List of Threatened Species. 2007: e.T64156A12749881. doi:10.2305/IUCN.UK.2007.RLTS.T64156A12749881.en. Retrieved 19 November 2021.
  2. ^ Bosc [LAG], Daudin [FM] (1801). In: Sonnini CS, Latreille PA (1801). Histoire Naturelle des Reptiles, avec figures dessinées d'après nature. Tome II [Volume 2]. Première partie. Quadrupèdes et bipèdes ovipares. Paris: Deterville. (Crapelet, printer). 332 pp. (Stellio undulatus, new species, pp. 40-42). (in French).
  3. ^ Powell et al. (2016).
  4. ^ Lizards. Conservation Commission of Missouri (2014).
  5. ^ McCormick, Gail L., and Tracy Langkilde. “Immune responses of eastern fence lizards (sceloporus undulatus) to repeated acute elevation of Corticosterone.” General and Comparative Endocrinology, vol. 204, Aug. 2014, pp. 135–140, https://doi.org/10.1016/j.ygcen.2014.04.037.
  6. ^ Liddell HG, Scott R (1980). Greek-English Lexicon, Abridged Edition. Oxford, United Kingdom: Oxford University Press. 804 pp. ISBN 0-19-910207-4.
  7. ^ S. u. consobrinus, S. u. cowlesi, S. u. elongatus, S. u. erythrocheilus, S. u. garmani, S. u. hyacinthinus, S. u. speari, S. u. tedbrowni, S. u. tristichus, and S. u. undulatus.
  8. ^ a b c Leaché AD, Reeder TW (2002). "Molecular systematics of the eastern fence lizard (Sceloporus undulatus): A comparison of parsimony, likelihood, and Bayesian approaches". Systematic Biology. 51 (1): 44–68. doi:10.1080/106351502753475871. PMID 11943092.
  9. ^ Rosenblum, E. B.; Belfiore, N. M.; Moritz, C. (9 November 2006). "Anonymous nuclear markers for the eastern fence lizard, Sceloporus undulatus". Molecular Ecology Notes. 7 (1): 113–116. doi:10.1111/j.1471-8286.2006.01547.x.
  10. ^ Conant, Roger; Collins, Joseph T. (1991). A Field Guide to Reptiles and Amphibians Eastern/Central North America. Boston, Massachusetts: Houghton Mifflin Company. 608 pp. ISBN 0-395-58389-6.
  11. ^ Cox, R. M., Skelly, S. L., Leo, A., & John-Alder, H. B. (2005). Testosterone regulates sexually dimorphic coloration in the eastern fence lizard, Sceloporus undulatus. Copeia, 2005(3), 597-608.
  12. ^ Conley, D. A.; Lattanzio, M. S. (September 2022). "Active regulation of ultraviolet light exposure overrides thermal preference behaviour in eastern fence lizards". Functional Ecology. 36 (9): 2240–2250. Bibcode:2022FuEco..36.2240C. doi:10.1111/1365-2435.14114.
  13. ^ a b Ossip-Drahos, Alison G.; Berry, Nicolas J.; King, Christian M.; Martins, Emília P. (2018). "Information-gathering as a response to manipulated signals in the eastern fence lizard, Sceloporus undulatus". Ethology. 124 (9): 684–690. Bibcode:2018Ethol.124..684O. doi:10.1111/eth.12801. S2CID 92547068.
  14. ^ a b c Cox, Robert M.; Skelly, Stephanie L.; Leo, Angela; John-Alder, Henry B. (August 2005). "Testosterone Regulates Sexually Dimorphic Coloration in the Eastern Fence Lizard, Sceloporus undulatus". Copeia. 2005 (3): 597–608. doi:10.1643/CP-04-313R. S2CID 40175432.
  15. ^ Langkilde, Tracy; Boronow, Katherine E. (2012). "Hot Boys Are Blue: Temperature-Dependent Color Change in Male Eastern Fence Lizards". Journal of Herpetology. 46 (4): 461–465. doi:10.1670/11-292. JSTOR 23327160. S2CID 86633379.
  16. ^ Moga, M. M.; Geib, B. M.; Zhou, D.; Prins, G. S. (6 October 2000). "Androgen receptor-immunoreactivity in the forebrain of the Eastern Fence lizard (Sceloporus undulatus)". Brain Research. 879 (1): 174–182. doi:10.1016/S0006-8993(00)02771-2. PMID 11011019. S2CID 16235308.
  17. ^ Howze, J. M., & Smith, L. L. (2022). Habitat Use for Two Heliothermic Lizards in Longleaf Pine Savannas. Southeastern Naturalist, 21(4), 246-257.
  18. ^ Du, W., Robbins, T. R., Warner, D. A., Langkilde, T., & Shine, R. (2014). Latitudinal and seasonal variation in reproductive effort of the eastern fence lizard (Sceloporus undulatus). Integrative Zoology, 9(3), 360-371.
  19. ^ "Online Conservation Guide for Sceloporus undulatus". New York Natural Heritage Program. April 4, 2006. Archived from the original on 2020-09-27. Retrieved June 11, 2021.
  20. ^ "Species Assessment for Eastern fence lizard" (PDF). New York State Department of Environmental Conservation. September 6, 2013. Archived (PDF) from the original on 2019-11-01. Retrieved June 11, 2021.
  21. ^ Finger, Corey (May 30, 2011). "Lizards of New York City". 10,000 Birds. Archived from the original on 2011-06-02. Retrieved June 11, 2021.
  22. ^ Wollney, Clay (August 19, 2014). "Have you seen lizards on Staten Island?". Staten Island Advance. Retrieved June 11, 2021.
  23. ^ Carlo, Michael (May 4, 2016). "A brief introduction to the Eastern fence lizard". Experiment. Archived from the original on 2020-10-01. Retrieved June 11, 2021.
  24. ^ Angilletta, Michael J.; Hill, Tracy; Robson, Michael A. (1 June 2002). "Is physiological performance optimized by thermoregulatory behavior?: a case study of the eastern fence lizard, Sceloporus undulatus". Journal of Thermal Biology. 27 (3): 199–204. Bibcode:2002JTBio..27..199A. doi:10.1016/S0306-4565(01)00084-5.
  25. ^ Oufiero, Christopher E.; Angilletta, Michael J. (May 2006). "Convergent Evolution of Embryonic Growth and Development in the Eastern Fence Lizard (Sceloporus Undulatus)". Evolution. 60 (5): 1066–1075. doi:10.1111/j.0014-3820.2006.tb01183.x. PMID 16817545. S2CID 221733454.
  26. ^ a b Du, Weiguo; Robbins, Travis R.; Warner, Daniel A.; Langkilde, Tracy; Shine, Richard (June 2014). "Latitudinal and seasonal variation in reproductive effort of the eastern fence lizard ( Sceloporus undulatus )". Integrative Zoology. 9 (3): 360–371. doi:10.1111/1749-4877.12072. PMID 24148228.
  27. ^ Kennedy, J. P. (1958). "Sleeping Habits of the Eastern Fence Lizard, Sceloporus Undulatus Hyacinthinus (Sauria, Iguanidae)". The Southwestern Naturalist. 3 (1/4): 90–93. doi:10.2307/3669040. JSTOR 3669040.
  28. ^ Pauly, G. B. (2012). "Evidence for Freeze Tolerance in the Eastern Fence Lizard (Sceloporus Undulatus)". Southwestern Naturalist. 57 (4): 472–473. doi:10.1894/0038-4909-57.4.472.
  29. ^ Pinch, Frederick C.; Claussen, Dennis L. (December 2003). "Effects of Temperature and Slope on the Sprint Speed and Stamina of the Eastern Fence Lizard, Sceloporus undulatus". Journal of Herpetology. 37 (4): 671–679. doi:10.1670/183-02. S2CID 85567903.
  30. ^ a b c d e Haenel, Gregory J.; Smith, Linda C.; John-Alder, Henry B. (February 2003). "Home-Range Analysis in Sceloporus undulatus (Eastern Fence Lizard). I. Spacing Patterns and the Context of Territorial Behavior". Copeia. 2003 (1): 99–112. doi:10.1643/0045-8511(2003)003[0099:HRAISU]2.0.CO;2. S2CID 86144498.
  31. ^ Langkilde, T., & Boronow, K. E. (2010). Color as a signal: the relationship between coloration and morphology in male eastern fence lizards, Sceloporus undulatus. Journal of Herpetology, 44(2), 261-271.
  32. ^ Stephenson, Barry P., and Cambre Goodlett. “Body Color and Morphological Correlates of Fitness in Eastern Fence Lizards (Sceloporus Undulatus): A Spectrophotometric Approach.” Herpetologica, vol. 75, no. 1, 1 Mar. 2019, pp. 69–78., doi:10.1655/0018-0831-75.1.69.
  33. ^ Haenel, Gregory J., et al. “Home-Range Analysis in Sceloporus Undulatus (Eastern Fence Lizard). I. Spacing Patterns and the Context of Territorial Behavior.” Copeia, vol. 1, 1 Feb. 2003, pp. 99–112., doi:10.1643/0045-8511(2003)003[0099:hraisu]2.0.co;2.
  34. ^ Eberhart, Katherine S.; Ruby, Douglas E. (February 2019). "Prey Selection by an Ambush Predator, Sceloporus undulatus". Journal of Herpetology. 53 (1): 32–38. doi:10.1670/16-114. ISSN 0022-1511. S2CID 91892092.
  35. ^ Marsh, Rebekah S.; Moe, Cassandra; Lomneth, Richard B.; Fawcett, James D.; Place, Allen (2001-04-01). "Characterization of gastrointestinal chitinase in the lizard Sceloporus undulatus garmani (Reptilia: Phrynosomatidae)". Comparative Biochemistry and Physiology Part B: Biochemistry and Molecular Biology. 128 (4): 675–682. doi:10.1016/S1096-4959(00)00364-X. ISSN 1096-4959. PMID 11290449.
  36. ^ a b Venable, Cameron P.; Langkilde, Tracy (May 2019). "Eastern Fence Lizards (Sceloporus undulatus) display an ontogenetic shift in relative consumption of native and invasive prey". Canadian Journal of Zoology. 97 (5): 419–423. doi:10.1139/cjz-2018-0228. hdl:1807/94404. ISSN 0008-4301. S2CID 91276496.
  37. ^ DeMarco, V. G., Drenner, R. W., & Ferguson, G. W. (1985). Maximum prey size of an insectivorous lizard, Sceloporus undulatus garmani. Copeia, 1985(4), 1077-1080.
  38. ^ Johnson, D. R. (1966). "Diet and Estimated Energy Assimilation of Three Colorado Lizards". The American Midland Naturalist. 76 (2): 504–509. doi:10.2307/2423102. JSTOR 2423102.
  39. ^ "Eastern Fence Lizard". The National Wildlife Federation. Archived from the original on 2020-10-23. Retrieved June 11, 2021.
  40. ^ "Eastern Fence Lizard (Sceloporus undulatus)". Savannah River Ecology Laboratory University of Georgia. Archived from the original on 2011-12-03. Retrieved June 11, 2021.
  41. ^ Warner, Daniel A.; Andrews, Robin M. (April 2003). "Consequences of Extended Egg Retention in the Eastern Fence Lizard (Sceloporus undulatus)". Journal of Herpetology. 37 (2): 309–314. doi:10.1670/0022-1511(2003)037[0309:COEERI]2.0.CO;2. S2CID 86196441.
  42. ^ DU, Weiguo; ROBBINS, Travis R.; WARNER, Daniel A.; LANGKILDE, Tracy; SHINE, Richard (June 2014). "Latitudinal and seasonal variation in reproductive effort of the eastern fence lizard (Sceloporus undulatus)". Integrative Zoology. 9 (3): 360–371. doi:10.1111/1749-4877.12072. ISSN 1749-4877. PMID 24148228.
  43. ^ Blackburn, Daniel G.; Lestz, Luisa; Barnes, Madeline S.; Powers, Kathryn G.; Langkilde, Tracy (November 2018). "Morphological features of the yolk processing pattern in the eastern fence lizard, Sceloporus undulatus (Phrynosomatidae)". Journal of Morphology. 279 (11): 1629–1639. doi:10.1002/jmor.20892. PMID 30350360. S2CID 53036576.
  44. ^ a b Thawley, Christopher J.; Langkilde, Tracy (June 2016). "Invasive fire ant (Solenopsis invicta) predation of eastern fence lizard (Sceloporus undulatus) eggs". Journal of Herpetology. 50 (2): 284–288. doi:10.1670/15-017. S2CID 85855854.
  45. ^ a b Langkilde, Tracy (1 February 2010). "Repeated exposure and handling effects on the escape response of fence lizards to encounters with invasive fire ants". Animal Behaviour. 79 (2): 291–298. doi:10.1016/j.anbehav.2009.10.028. S2CID 53205351.
  46. ^ "Lizards' Dance Avoids Deadly Ants". LiveScience. 26 January 2009.

Further reading

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  • Behler, John L.; King, F. Wayne (1979). The Audubon Society Field Guide to North American Reptiles and Amphibians. New York: Alfred A. Knopf. 743 pp., 657 color plates. ISBN 0-394-50824-6. (Sceloporus undulatus, pp. 529–530 + Plate 375).
  • Powell R, Conant R, Collins JT (2016). Peterson Field Guide to Reptiles and Amphibians of Eastern and Central North America, Fourth Edition. Boston and New York: Houghton Mifflin Harcourt. xiv + 494 pp., 47 Plates, 207 Figures. ISBN 978-0-544-12997-9. (Sceloporus undulatus, p. 298 + Plate 27 + Map on p. 294).
  • Smith, Hobart M.; Brodie, Edmund D. Jr. (1982). Reptiles of North America: A Guide to Field Identification. New York: Golden Press. 240 pp. ISBN 0-307-13666-3 (paperback), ISBN 0-307-47009-1 (hardcover). (Sceloporus undulatus, pp. 122–123).
  • Zim HS, Smith HM (1956). Reptiles and Amphibians: A Guide to Familiar American Species: A Golden Nature Guide. New York: Simon and Schuster. 160 pp. (Sceloporus undulatus, pp. 57, 155).
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