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Journal articles on the topic 'Fringe-toed lizards'

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Published: 3 June 2025
Last updated: 7 July 2025

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1

Fisher, Mark, Allan Muth, and Robert F. Johnson. "A Long-term Study of Home Range of Coachella Fringe-Toed Lizards, Uma inornata." Journal of Herpetology 54, no. 2 (2020): 174–82. https://doi.org/10.1670/19-001.

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Fisher, Mark, Muth, Allan, Johnson, Robert F. (2020): A Long-term Study of Home Range of Coachella Fringe-Toed Lizards, Uma inornata. Journal of Herpetology (Baltimore, Md.) 54 (2): 174-182, DOI: 10.1670/19-001, URL: http://dx.doi.org/10.1670/19-001
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2

Derycke, Elizabeth G., Andrew D. Gottscho, Daniel G. Mulcahy, and Kevin De Queiroz. "A new cryptic species of fringe-toed lizards from southwestern Arizona with a revised taxonomy of the Uma notata species complex (Squamata: Phrynosomatidae)." Zootaxa 4778, no. 1 (2020): 67–100. https://doi.org/10.11646/zootaxa.4778.1.3.

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Derycke, Elizabeth G., Gottscho, Andrew D., Mulcahy, Daniel G., Queiroz, Kevin De (2020): A new cryptic species of fringe-toed lizards from southwestern Arizona with a revised taxonomy of the Uma notata species complex (Squamata: Phrynosomatidae). Zootaxa 4778 (1): 67-100, DOI: 10.11646/zootaxa.4778.1.3
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3

DERYCKE, ELIZABETH G., ANDREW D. GOTTSCHO, ANDREW D. GOTTSCHO, DANIEL G. MULCAHY, and KEVIN DE QUEIROZ. "A new cryptic species of fringe-toed lizards from southwestern Arizona with a revised taxonomy of the Uma notata species complex (Squamata: Phrynosomatidae)." Zootaxa 4778, no. 1 (2020): 67–100. http://dx.doi.org/10.11646/zootaxa.4778.1.3.

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Fringe-toed lizards (Uma) are among the most specialized lizards in North America, adapted to insular windblown sand habitats in the hyper-arid southwestern deserts, with allopatric distributions, subtle morphological variation, and an unstable taxonomic history. We analyzed a morphological dataset of 40 characters for 65 specimens and a molecular dataset of 2,286 bases from three mitochondrial loci for 92 individuals and interpreted these data alongside published analyses of multi-locus genetic data with the goal of revising the taxonomy of the Uma notata (Baird 1858) species complex. We confirmed that fringe-toed lizards from the Mohawk Dunes in southwestern Arizona (U. sp.) constitute a cryptic species sister to the rest of the complex that can be diagnosed with DNA barcoding and geography, so we describe and name this species Uma thurmanae sp. nov. We also confirmed the evolutionary distinctiveness of U. inornata (Cope 1895), an endangered species endemic to Coachella Valley in southern California. We designate a lectotype for the taxon U. “rufopunctata”, but we put its name in quotation marks to reflect its uncertain taxonomic status with respect to its neighboring species U. cowlesi and U. notata.
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4

Crochet, Pierre-André, Philippe Geniez, and Ivan Ineich. "A multivariate analysis of the fringe-toed lizards of the Acanthodactylus scutellatus group (Squamata: Lacertidae): systematic and biogeographical implications." Zoological Journal of the Linnean Society 137, no. 1 (2003): 117–55. https://doi.org/10.1046/j.1096-3642.2003.00044.x.

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Crochet, Pierre-André, Geniez, Philippe, Ineich, Ivan (2003): A multivariate analysis of the fringe-toed lizards of the Acanthodactylus scutellatus group (Squamata: Lacertidae): systematic and biogeographical implications. Zoological Journal of the Linnean Society 137 (1): 117-155, DOI: 10.1046/j.1096-3642.2003.00044.x, URL: https://academic.oup.com/zoolinnean/article-lookup/doi/10.1046/j.1096-3642.2003.00044.x
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5

Erotokritou, Elena, Christos Mammides, Ioannis N. Vogiatzakis, and Spyros Sfenthourakis. "Environmental heterogeneity and lizard assemblages in riparian areas in Cyprus." Reptiles & Amphibians 31, no. 1 (2024): e18972. http://dx.doi.org/10.17161/randa.v31i1.18972.

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The island of Cyprus hosts a rich diversity of reptiles, including several endemic species. Reptiles are morecommon in Mediterranean-type shrubland and other open habitats in Cyprus, although riparian formations offeradditional cover and food sources, especially during dry, hot summers. Riparian habitats are often very heterogeneous,an attribute that can be important for lizards since they can utilize a variety of microhabitats crucial for different aspectsof their ecology. Nevertheless, reptilian diversity in riparian systems remains understudied and Cyprus is no exception.The aim of this study was to compare lizard diversity and abundance patterns across seasons and elevations, as well astheir relationships with habitat heterogeneity and protected status of areas along riverbanks, as expressed by presencein or out of Natura 2000 sites. We examined the effects that these factors can have on lizard communities by studyingthree rivers that exhibit variations in environmental conditions. Additionally, we evaluated separately the abundancesof four common species (Snake-eyed Lizard, Ophisops elegans; Troodos Rock Lizard, Phoenicolacerta troodica; CyprusRock Agama, Laudakia cypriaca; and Schreiber’s Fringe-toed Lizard, Acanthodactylus schreiberi) while recording in riparian habitats seven of the 11 Cypriot species of lizards. Diversity and richness were not significantly associated withany of the explanatory variables examined (season, elevation, habitat heterogeneity, and protected status). Moreover,we found no relationship between the abundances of each of the four species and habitat heterogeneity, even thoughthey responded differently to elevation, season, and protected status. Our results suggest that lizard diversity in ripariansystems is high compared to the total number of lizard species found on Cyprus, reaching 60% of the overall richness.
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6

Fisher, Mark, Allan Muth, and Robert F. Johnson. "A Long-term Study of Home Range of Coachella Fringe-Toed Lizards, Uma inornata." Journal of Herpetology 54, no. 2 (2020): 174. http://dx.doi.org/10.1670/19-001.

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7

Nasri, Intissar, Abdessalem Hammouda, Foued Hamza, and Slaheddine Selmi. "Sexual size dimorphism in a Tunisian population of Bosk's fringe-toed lizards Acanthodactylus boskianus asper." African Journal of Herpetology 64, no. 2 (2015): 103–15. http://dx.doi.org/10.1080/21564574.2015.1103786.

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8

Leavitt, Daniel, Woodrow Crumbo, Jason Myrand, and Elroy Masters. "The geographic range of Uma scoparia Cope, 1894 (Squamata: Phrynosomatidae) in Arizona." Check List 13, no. (2) (2017): 1–4. https://doi.org/10.15560/13.2.2090.

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Surveys dedicated to better describing the distribution of <em>Uma scoparia</em> in Arizona are reported. These extend this species' distribution in La Paz County, Arizona, 20 km further to the south than previously described. Six records on the outside of a confused range are presented alongside data from 170 captures within this range. This species is well known from California but its Arizona distribution is little understood and less well studied than other members of its genus. Concern about the conservation status of the disjunct Arizona population makes this report valuable to resource managers. Lizards were observed with ease and in large numbers at nearly all sites surveyed.
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9

Harris, D. James, Dimitra Sergiadou, and J. Filipe Faria. "New data on the diversity and distribution of lineages of the Acanthodactylus erythrurus species complex in North Africa derived from mitochondrial DNA markers." Herpetozoa 37 (September 4, 2024): 281–86. http://dx.doi.org/10.3897/herpetozoa.37.e118175.

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Patterns of morphological and genetic diversity within the fringe-toed lizards of the genus Acanthodactylus have puzzled systematists since the first assessments, and none more so than the Acanthodactylus erythrurus complex. A recent study combining multi-locus sequence data and morphological characters partially resolved the situation, identifying two new species in the southern part of the range in Morocco, but leaving an unresolved “Ibero-Moroccan” clade containing much of the genetic and morphological diversity. Here we sequenced a mitochondrial marker for new samples from across much of the distribution. Our data notably increase the known ranges of various species and lineages found in Morocco, and indicate a divergent genetic lineage within one of the newly described species. While far greater numbers of genetic markers will be needed to resolve taxonomic questions, greater geographic sampling is also still needed both to delimit the species, and to identify regions where potential genetic admixture may occur.
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10

Harris, D. James, Dimitra Sergiadou, and J. Filipe Faria. "New data on the diversity and distribution of lineages of the Acanthodactylus erythrurus species complex in North Africa derived from mitochondrial DNA markers." Herpetozoa 37 (September 4, 2024): 281–86. https://doi.org/10.3897/herpetozoa.37.e118175.

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Patterns of morphological and genetic diversity within the fringe-toed lizards of the genus <i>Acanthodactylus</i> have puzzled systematists since the first assessments, and none more so than the <i>Acanthodactylus erythrurus</i> complex. A recent study combining multi-locus sequence data and morphological characters partially resolved the situation, identifying two new species in the southern part of the range in Morocco, but leaving an unresolved "Ibero-Moroccan" clade containing much of the genetic and morphological diversity. Here we sequenced a mitochondrial marker for new samples from across much of the distribution. Our data notably increase the known ranges of various species and lineages found in Morocco, and indicate a divergent genetic lineage within one of the newly described species. While far greater numbers of genetic markers will be needed to resolve taxonomic questions, greater geographic sampling is also still needed both to delimit the species, and to identify regions where potential genetic admixture may occur.
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11

Al-Hashem, Mona A., and Paul F. Brain. "Changed substrate preferences shown by Fringe-toed Lizards,Acanthodactylus scutellatus,from Kuwait’s Al-Burgan oil field (Reptilia: Lacertidae)." Zoology in the Middle East 46, no. 1 (2009): 41–45. http://dx.doi.org/10.1080/09397140.2009.10638326.

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12

CROCHET, PIERRE-ANDRÉ, PHILIPPE GENIEZ, and IVAN INEICH. "A multivariate analysis of the fringe-toed lizards of the Acanthodactylus scutellatus group (Squamata: Lacertidae): systematic and biogeographical implications." Zoological Journal of the Linnean Society 137, no. 1 (2002): 117–55. http://dx.doi.org/10.1046/j.1096-3642.2003.00044.x.

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13

Nasri, Intissar, Abdessalem Hammouda, Josabel Belliure, and Slaheddine Selmi. "Decreased Cell-Mediated Immune Response in Bosk’s Fringe-Toed Lizards (Acanthodactylus boskianus) Inhabiting an Industrialized Area in Southern Tunisia." Bulletin of Environmental Contamination and Toxicology 105, no. 3 (2020): 393–96. http://dx.doi.org/10.1007/s00128-020-02943-5.

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14

Gottscho, Andrew D., Dustin A. Wood, Amy G. Vandergast, Julio Lemos-Espinal, John Gatesy, and Tod W. Reeder. "Lineage diversification of fringe-toed lizards (Phrynosomatidae: Uma notata complex) in the Colorado Desert: Delimiting species in the presence of gene flow." Molecular Phylogenetics and Evolution 106 (January 2017): 103–17. http://dx.doi.org/10.1016/j.ympev.2016.09.008.

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15

Jayne, B. C., and M. W. Daggy. "The effects of temperature on the burial performance and axial motor pattern of the sand-swimming of the Mojave fringe-toed lizard Uma scoparia." Journal of Experimental Biology 203, no. 7 (2000): 1241–52. http://dx.doi.org/10.1242/jeb.203.7.1241.

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Although lateral axial bending is widespread for the locomotion of ectothermic vertebrates, the axial motor patterns of terrestrial taxa are known only for a limited number of species and behaviors. Furthermore, the extent to which the trunk and tail of ectothermic tetrapods have similar motor patterns is poorly documented. We therefore recorded the activity of the epaxial muscles in the trunk and tail of sand-swimming Mojave fringe-toed lizards (Uma scoparia) to determine whether this specialized behavior has features of the motor pattern that differ from those of diverse ectothermic vertebrates. Muscle activity during initial sand-swimming was a standing-wave pattern in the trunk and tail. Next, the hind limbs moved alternately and the caudofemoralis muscles and nearby axial muscle in the trunk and tail had similar long-duration electromyographic bursts, whereas the anterior trunk had shorter, more frequent electromyographic bursts. The final tail burial involved a traveling wave of posteriorly propagated axial muscle activity within localized regions of the tail. With increased temperature (from 22 to 40 degrees C), the mean frequencies of axial oscillations increased from approximately 7 to 21 Hz, and the greatest value (33 Hz) was nearly twice the maximal limb cycling frequency during running. The mean burial time at the lowest temperature (3.8 s) was nearly twice that for a 10 degrees C higher temperature. For the axial electromyograms, a decrease in temperature of 18 degrees C more than doubled the electromyographic and cycle durations, whereas the duty factors and intersegmental phase lags changed only slightly with temperature.
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16

Barrows, Cameron W., and Scott A. Heacox. "Forty years later: monitoring and status of the endangered Coachella Valley fringe-toed lizard." California Fish and Wildlife Journal, CESA Special Issue (July 6, 2021): 243–57. http://dx.doi.org/10.51492/cfwj.cesasi.14.

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The Coachella Valley fringe-toed lizard, Uma inornata, was listed as endangered under the California Endangered Species Act in 1980. By that time, the lizard’s habitat was already reduced by 90%, fragmented into isolated habitat islands on private property among hundreds of landowners. Ecosystem processes that are essential for delivering sand and maintaining the lizard’s sand dune habitat were already compromised. As challenging as it was to protect its habitat under these conditions, populations of this lizard still occur across much of the area where it was found forty years ago. Annual monitoring was designed to assess the ongoing viability of these populations by quantifying the effects of potential threats and stressors and focusing adaptive management actions where they are most needed. Here we demonstrate how hypothesis-based monitoring identified specific locations where invasive plant control and sand corridor management were needed to maintain the lizard’s populations. By monitoring lizard densities within the context of environmental variables that either drive or inhibit population growth, this monitoring approach informs if, when, and where management actions are needed.
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17

Üzüm, Nazan, Çetin Ilgaz, Yusuf Kumlutaş, Çiçek Gümüş, and Aziz Avci. "The body size, age structure, and growth of Bosc's fringe-toed lizard, Acanthodactylus boskianus (Daudin, 1802)." Turkish Journal of Zoology 38, no. 5 (2014): 383–88. https://doi.org/10.3906/zoo-1307-1.

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Üzüm, Nazan, Ilgaz, Çetin, Kumlutaş, Yusuf, Gümüş, Çiçek, Avci, Aziz (2014): The body size, age structure, and growth of Bosc's fringe-toed lizard, Acanthodactylus boskianus (Daudin, 1802). Turkish Journal of Zoology 38 (5): 383-388, DOI: 10.3906/zoo-1307-1, URL: http://dx.doi.org/10.3906/zoo-1307-1
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18

Gadsden, Hector, Luis E. Palacios-Orona, and Gloria A. Cruz-Soto. "Diet of the Mexican Fringe-Toed Lizard (Uma exsul)." Journal of Herpetology 35, no. 3 (2001): 493. http://dx.doi.org/10.2307/1565968.

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19

Goldberg, Stephen R. "Reproduction in the Yuman Fringe-Toed Lizard,Uma rufopunctata(Squamata: Phrynosomatidae)." Southwestern Naturalist 57, no. 4 (2012): 456–57. http://dx.doi.org/10.1894/0038-4909-57.4.456.

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20

E., Hector Gadsen, and Luis E. Palacios-Orona. "Seasonal Dietary Patterns of the Mexican Fringe-Toed Lizard (Uma paraphygas)." Journal of Herpetology 31, no. 1 (1997): 1. http://dx.doi.org/10.2307/1565321.

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21

A., Paray Bilal, and Al-Sadoon Mohammed K. "Ultrastructure of the dermal chromatophores in the Fringe-toed lizard, Acanthodactylus orientalis." Zoologia 34 (April 3, 2017): 1–7. https://doi.org/10.3897/zoologia.34.e11923.

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Histology and electron microscopic studies of the dorsal skin of the Fringe-toed lizard, Acanthodactylus orientalis Angel, 1936, showed three types of dermal chromatophores: xanthophores, iridophores and melanophores. These pigment cells were observed in vertical combination, with an uppermost layer of xanthophores, an intermediate layer of iridophores and a basal layer of melanophores. The ultrastructure of the melanophore is characterized by oval nucleus and numerous pigment granules, the melanosomes of different stages that remain scattered in the cytoplasm. The chromatophores of this species contain significant information of anatomical similarity with lower as well as higher vertebrates. They can help to better understand the inter relationships between vertebrate pigment cells and their role in skin dysfunctions.
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22

Hedtke, Shannon M., Kelly R. Zamudio, Christopher A. Phillips, Jonathan Losos, and Phil Brylski. "CONSERVATION GENETICS OF THE ENDANGERED COACHELLA VALLEY FRINGE-TOED LIZARD (UMA INORNATA)." Herpetologica 63, no. 4 (2007): 411–20. http://dx.doi.org/10.1655/0018-0831(2007)63[411:cgotec]2.0.co;2.

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23

A. Paray, Bilal, and Mohammed K. Al-Sadoon. "Ultrastructure of the dermal chromatophores in the Fringe-toed lizard, Acanthodactylus orientalis." Zoologia 34 (April 3, 2017): 1–7. http://dx.doi.org/10.3897/zoologia.34.e11923.

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24

Nasri, Intissar, Foued Hamza, Josabel Belliure, and Slaheddine Selmi. "Tail conspicuousness and antipredatory behaviour in Bosk’s fringe-toed lizard (Acanthodactylus boskianus)." Ethology Ecology & Evolution 30, no. 4 (2017): 319–30. http://dx.doi.org/10.1080/03949370.2017.1402091.

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25

Zari, Talal A. "Seasonal metabolic compensation in the fringe-toed lizard, Acanthodactylus boskianus (Reptilia: Lacertidae)." Journal of Thermal Biology 21, no. 2 (1996): 145–50. http://dx.doi.org/10.1016/0306-4565(95)00040-2.

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26

Heidari, Nastaran, Hiva Faizi, and Nasrullah Rastegar-Pouyani. "Sexual dimorphism in Blanford’s Fringe-toed Lizard,Acanthodactylus blanfordiBoulenger, 1918, from Southern Iran." Zoology in the Middle East 55, no. 1 (2012): 35–40. http://dx.doi.org/10.1080/09397140.2012.10648915.

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27

Perry, G., and R. Dmi'el. "Reproductive and population biology of the fringe-toed lizard, Acanthodactylus scutellatus, in Israel." Journal of Arid Environments 27, no. 3 (1994): 257–63. http://dx.doi.org/10.1006/jare.1994.1062.

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28

Murphy, R. W., T. L. Trépanier, and D. J. Morafka. "Conservation genetics, evolution and distinct population segments of the Mojave fringe-toed lizard, Uma scoparia." Journal of Arid Environments 67 (January 2006): 226–47. http://dx.doi.org/10.1016/j.jaridenv.2006.09.023.

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29

Yari, Afsaneh, and Ahmad Gharzi. "Anatomical and Histological Study of the Excretory System in the Bosc’s Fringe-Toed Lizard (Acanthodactylus boskianus)." Asian Journal of Animal Sciences 7, no. 1 (2012): 30–35. http://dx.doi.org/10.3923/ajas.2013.30.35.

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30

ÜZÜM, Nazan, Çetin ILGAZ, Yusuf KUMLUTAŞ, Çiçek GÜMÜŞ, and Aziz AVCI. "The body size, age structure, and growth of Bosc’s fringe-toed lizard, Acanthodactylus boskianus (Daudin, 1802)." TURKISH JOURNAL OF ZOOLOGY 38 (2014): 383–88. http://dx.doi.org/10.3906/zoo-1307-1.

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31

Durtsche, Richard D. "Feeding time strategies of the fringe-toed lizard, Uma inornata, during breeding and non-breeding seasons." Oecologia 89, no. 1 (1992): 85–89. http://dx.doi.org/10.1007/bf00319019.

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32

Durtsche, Richard D. "Foraging Ecology of the Fringe-Toed Lizard, Uma inornata, during Periods of High and Low Food Abundance." Copeia 1995, no. 4 (1995): 915. http://dx.doi.org/10.2307/1447040.

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33

Chehri, Khosrow, Nasrullah Rastegar-Pouyani, and Farkhondeh Sayyadi. "Dermatitis in the Fringe-Toed Lizard, Acanthodactylus nilsoni Rastegar-Pouyani, 1998 (Sauria: Lacertidae) Associated with Fusarium proliferatum." Current Microbiology 71, no. 5 (2015): 607–12. http://dx.doi.org/10.1007/s00284-015-0892-9.

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34

Trépanier, Tanya L., and Robert W. Murphy. "The Coachella Valley Fringe-Toed Lizard (Uma inornata): Genetic Diversity and Phylogenetic Relationships of an Endangered Species." Molecular Phylogenetics and Evolution 18, no. 3 (2001): 327–34. http://dx.doi.org/10.1006/mpev.2000.0881.

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35

Gottscho, Andrew D., Sharyn B. Marks, and W. Bryan Jennings. "Speciation, population structure, and demographic history of the Mojave Fringe‐toed Lizard ( Uma scoparia ), a species of conservation concern." Ecology and Evolution 4, no. 12 (2014): 2546–62. http://dx.doi.org/10.1002/ece3.1111.

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36

Chen, Xiongwen, Cameron W. Barrows, and Bai-Lian Li. "IS THE COACHELLA VALLEY FRINGE-TOED LIZARD (UMA INORNATA) ON THE EDGE OF EXTINCTION AT THOUSAND PALMS PRESERVE IN CALIFORNIA?" Southwestern Naturalist 51, no. 1 (2006): 28–34. http://dx.doi.org/10.1894/0038-4909(2006)51[28:itcvfl]2.0.co;2.

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Peveling, Ralf, and Sy Amadou Demba. "TOXICITY AND PATHOGENICITY OF METARHIZIUM ANISOPLIAE VAR. ACRIDUM (DEUTEROMYCOTINA, HYPHOMYCETES) AND FIPRONIL TO THE FRINGE-TOED LIZARD ACANTHODACTYLUS DUMERILI (SQUAMATA: LACERTIDAE)." Environmental Toxicology and Chemistry 22, no. 7 (2003): 1437. http://dx.doi.org/10.1897/1551-5028(2003)22<1437:tapoma>2.0.co;2.

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38

Gewily, Doaa I., Fatma A. Mahmoud, Samy A. Saber, et al. "Ultrastructural comparison between the tongue of two reptilian species endemic in Egyptian fauna; Bosc's fringe‐toed lizard Acanthodactylus boskianus and Sinai fan‐fingered gecko Ptyodactylus guttatus." Microscopy Research and Technique 84, no. 9 (2021): 1977–91. http://dx.doi.org/10.1002/jemt.23753.

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Heidari, Nastaran. "Sexual dimorphism in digit length ratios of the second to fourth digits (2D:4D) in Blanford's fringe-toed lizard Acanthodactylus blanfordi Boulenger, 1918 (Sauria: Lacertidae) in the south of Iran." Nova Biologica Reperta 8, no. 1 (2021): 46–55. http://dx.doi.org/10.52547/nbr.8.1.46.

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40

Scarpetta, Simon G. "The first known fossil Uma: ecological evolution and the origins of North American fringe-toed lizards." BMC Evolutionary Biology 19, no. 1 (2019). http://dx.doi.org/10.1186/s12862-019-1501-5.

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41

Nasri, Intissar, Abdessalem Hammouda, Josabel Belliure, and Slaheddine Selmi. "Behavioral fever in Bosk’s fringe-toed lizards (Acanthodactylus boskianus) living in an industrial area in south-eastern Tunisia." Environmental Monitoring and Assessment 194, no. 3 (2022). http://dx.doi.org/10.1007/s10661-022-09863-3.

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42

Muth, Allan, Mark Fisher, and Christopher R. Tracy. "A Long-Term Study of Coachella Fringe-Toed Lizards, Uma inornata, Reveals Seasonal and Annual Variation in Size and Growth." Journal of Herpetology 57, no. 2 (2023). http://dx.doi.org/10.1670/22-044.

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43

Castañeda, Gamaliel, Cristina García-De la Peña, Héctor Gadsden, Armando J. Contreras-Balderas, and William E. Cooper Jr. "Tail loss incidence in the Chihuahuan fringe toed-lizard Uma paraphygas (Squamata: Phrynosomatidae)." Revista Mexicana de Biodiversidad 82, no. 1 (2011). http://dx.doi.org/10.22201/ib.20078706e.2011.1.448.

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Mahmoud, Fatma A., Ali G. Gadel-Rab, Samy A. Saber, Boshra A. ElSalkh, Asmaa A. El-Dahshan, and Doaa I. Gewily. "Comparative anatomical study of the hyoid apparatus of Bosk’s fringe-toed lizard and spotted fan-toed gecko (Squamata: Lacertidae and Phyllodactylidae)." Journal of Basic and Applied Zoology 80, no. 1 (2019). http://dx.doi.org/10.1186/s41936-019-0111-5.

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Liz, André Vicente, Dennis Rödder, Duarte Vasconcelos Gonçalves, et al. "The role of Sahara highlands in the diversification and desert colonization of the Bosc's fringe‐toed lizard." Journal of Biogeography, September 15, 2021. http://dx.doi.org/10.1111/jbi.14250.

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