Iberolacerta

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Iberolacerta
File:Benny Trapp Iberolacerta monticola.jpg
Iberolacerta monticola
Scientific classification
Kingdom:
Animalia
Phylum:
Chordata
Subphylum:
Vertebrata
Class:
Reptilia
Order:
Squamata
Suborder:
Sauria
Infraorder:
Scincomorpha
Family:
Lacertidae
Genus:
Iberolacerta

Arribas, 1999
Species

8, see below.

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Iberolacerta is a genus of lizards in the family Lacertidae. The genus contains at least eight described species, which are mainly found in Spain and France. Iberolacerta horvathi (Horvath's rock lizard) has a wider geographic range, being distributed in Central Europe.

Distribution

The species of Iberolacerta are distinct and mainly found in the western Europe mountain ranges.[1] Iberolacerta species found in Germany could have possibly been caused by human introduction, and are thus controversial.[1] For example, I. horvathi had been encountered in southern Germany, but has not been encountered thereafter.[1]

Features

This group of lizards contains widely distributed features such as: a depressed head and body; 7–9 premaxillary teeth; ~26 presacral vertebrae (for males); inscriptional ribs; tail brightly colored in hatchlings.[1]

Some of the lizards in this genus contains specific features such as: rostral and frontonasal scales; one postanal scale; supranasal and anterior loreal scales; 36 or less macro chromosomes; egg-laid embryos somewhat developed.[1]

Size and shape

Small species are up to ~85 mm long, but all species have shown to have females are larger than the male.[1]

  • Skull
The skull contains 7-9 premaxillary teeth, no pterygoid teeth, and slender nasal process.[1] In addition there is a separation between the frontal bone and postorbital bone.[1]
  • Post-cranial Skeleton
Iberolacerta contains presacral vertebrae that differ upon sex.[1] Males presacral vertebrae can range from 25-26, white the larger females presacral vertebrae can range from 26-29.[1] Both sex also contain an average of 6 posterior presacral vertebrae with relatively short ribs. The tail vertebrae can contain the common A-type pattern or less common B-type pattern.[1]
  • Coloring
The coloring on the dorsal side contains stripes, bands, and spots near or on where the vertebral column is located.[1] The coloring on the ventral side are white, light yellow, deep orange, or green.[1] The tails of juveniles are often bright green or blue.[1]
  • Chromosomes
Contains a diploid (2n) number of autosomes ranging from 36 and below.[1] The sex chromosomes come in two different types depending on number of Z chromosomes that are species specific: ZW-type or Z1Z2W-type.[1] The chromosomes also can contain nucleolar organizer in large macrochromosomes, termed L-type, or in a medium macrochromosome, termed M-type.[1]
  • Reproduction
During copulation the male bites and latches to the flanks of the females, allowing the fertilization of ~3–10 eggs.[1] In newly laid eggs the embryos are somewhat developed, and range depending on species from ~23 to 36 days until hatching.[1]
  • Ecology
These lizards tend to be found as solid surface rock dwellers but can be found associated with small loose stones.[1]

Species

I. aranica is located in the central Pyrenean Mountains of France and Spain.[2] The populations of this species are due to the rocky alpine habitats.[2] The population trend of this species is decreasing.[2] Image.
I. aurelioi is located in the Pyrenees Mountains on the border of Andorra, France, and Spain.[3] This species has a population size that ranges from approximately 10-200 individuals.[3] The population trend for this species is decreasing.[3] Image.
I. bonnali is located in the central Pyrenean Mountains of France and Spain.[4] Populations are present in suitable habitats and fragmented in unsuitable habitats.[4] The population trend of this species is stable.[4] Image.
I. cyreni is located in the central mountains of Spain in the Sierra de Bejar, Sierra de Gredos, La Serrota and Sierra del Guadarrama.[5] Populations of this species are common in particular areas.[5] The population trend for this species is decreasing.[5] Image.
I. galani is located in the Spain regions of Sierra Segundera, Sierra de la Cabrera, Sierra del Eje or Peña Trevinca and Sierra del TelenoOscar.[6] The populations of these species are copious.[6] The population trend of this species is unknown.[6] Image.
I. horvathi is located in the mountain ranges of southern Austria, northeastern Italy, western Slovenia, and western Croatia.[7] Populations of this species are locally copious.[7] The population trend for this species is stable.[7] Image.
I. martinezricai is located in the Spain region of Sierra Segundera, Salamanca.[8] The populations of these species are very rare since most populations are located at the peak of the mountain.[8] The population trend of this species is decreasing.[8] Image.
I. monticola is located in the Spain region of the Cantabrian Mountains and Galicia, also located in the central Portugal region of Serra de Estrela.[9] The populations of these species occur when habitats are suitable, although they are very localized.[9] The population trend of this species is decreasing.[9] Image.

Evolution

Speciation theory caused by mountain ranges and Pleistocene glacial cycles: It is believed that many of the Iberolacerta genus had led to many speciation seen today because of the Pleistocene glacial cycles and Holocene habitat fragmentation.[10] For example, I. monticola has been studied to determine its cause of speciation. There was an analysis of 17 I. monticola population's mitochondrial DNA sequences, at a control region and cytochrome b loci, throughout the northwestern quadrant of the Iberian Peninsula.[11] The results these researchers data gathered lead to the conclusion that correlated to a “refugia within refugia” model since the comparative phylogeographic analyses had shown consistent genetic subdivisions patterns.[11] This suggested that the mountain ranges could potentially be the cause of the descending species of Iberolacerta.[11] It was also hypothesized that the Holocene epoch then represented a long-term survival inflexion point for the derived species not to survive the preceding glacial cycle.[11]

Reproduction

  • Reproductive biology of I. aurelioi
  • Age classes
Full sexual maturation is seen at approximately five calendar years.[12] Additionally, female sexual maturity takes longer than males.[12] Some of these species were found to be 17 years old.[12]
  • Adult size and sexual maturity
Males are characteristically smaller than females.[12] The smallest male I. aurelioi measured to be 45.1 mm.[12] Males reach sexual maturity when they contain sexual secondary characteristics such as a swollen tail-base caused by the development of the hemipenes.[12] Females reach sexual maturity when they contain sexual secondary characteristics such as large oviductal eggs.[12]
  • Phenology, mating, egg-laying period
They come out of hibernation in mid-May and go back into hibernation in mid-September.[12] They have an approximate 4.5–5-month annual activity period.[12]
  • Copulation is characterized by a male grasping to the female's flank.[12]
  • The common egg-laying period ranges anywhere from June to July.[12]
  • Egg-laying behavior
Females dig a compact optimal space under a stone using their forelegs and head and then lay the eggs in the small hole.[12] After laying the eggs the female's stomach shrinks and flattens immediately.[12]
  • Clutch size
I. aurelioi lays one clutch per year (monoestrous), that have a common 2–3-egg clutch size.[12]
  • Metric egg characteristic
For optimal viable offspring, the female contains two competing strategies for the clutch size and egg volume.[12] An increase in egg volume would allow better survival and fitness advantages while an increase in clutch size allows for more offspring.[12]
  • Egg-laying sites
Eggs are deposited under stones since it has protective barriers and doesn’t allow much heat to escape.[12]
  • Incubation period
I. aurelioi eggs have a mean incubation period of approximately 5 weeks in the lab.[12] In one study, 64% of the studied eggs successfully hatched into viable offspring.[12] In nature, offspring hatch from mid-August till mid-September.[12]
  • Hatching process and characteristics
The hatching duration process varies widely from 1 to 12 hours after the first cut in the egg-shell.[12] Hatchlings have an average body mass of ~0.49 g.[12]
  • Hatchlings’ behavior
Hatchlings are comparatively lively and perceptive compared to adults.[12] In the first few days of life the young offspring have a competitive advantage since they have the ability to distract predators by viciously winding the colorful tip of their tail.[12]

References

  1. 1.00 1.01 1.02 1.03 1.04 1.05 1.06 1.07 1.08 1.09 1.10 1.11 1.12 1.13 1.14 1.15 1.16 1.17 1.18 1.19 13. Arnold, E. N., O. Arribas, and S. Carranza (March 2007). “Systematics of the Palaearctic and Oriental lizard tribe Lacertini (Squamata: Lacertidae: Lacertinae), with descriptions of eight new genera”. Zootaxa 1430: 44-66. ISBN 978-1-86977-097-6 (paperback). ISBN 978-1-86977-098-3
  2. 2.0 2.1 2.2 Valentin Pérez-Mellado, Marc Cheylan, Patrick Haffner. 2009. Iberolacerta aranica. The IUCN Red List of Threatened Species. Version 2014.3. <www.iucnredlist.org>. Downloaded on 23 November 2014
  3. 3.0 3.1 3.2 Valentin Pérez-Mellado, Marc Cheylan, Iñigo Martínez-Solano. 2009. Iberolacerta aurelioi. The IUCN Red List of Threatened Species. Version 2014.3. <www.iucnredlist.org>. Downloaded on 23 November 2014
  4. 4.0 4.1 4.2 Valentin Pérez-Mellado, Marc Cheylan, Iñigo Martínez-Solano. 2009. Iberolacerta bonnali. The IUCN Red List of Threatened Species. Version 2014.3. <www.iucnredlist.org>. Downloaded on 23 November 2014.
  5. 5.0 5.1 5.2 Valentin Pérez-Mellado, Marc Cheylan, Iñigo Martínez-Solano. 2009. Iberolacerta cyreni. The IUCN Red List of Threatened Species. Version 2014.3. <www.iucnredlist.org>. Downloaded on 23 November 2014.
  6. 6.0 6.1 6.2 Arribas. 2009. Iberolacerta galani. The IUCN Red List of Threatened Species. Version 2014.3. <www.iucnredlist.org>. Downloaded on 23 November 2014.
  7. 7.0 7.1 7.2 Milan Vogrin, Wolfgang Böhme, Pierre-André Crochet, Hans Konrad Nettmann, Roberto Sindaco, Antonio Romano. 2009. Iberolacerta horvathi. The IUCN Red List of Threatened Species. Version 2014.3. <www.iucnredlist.org>. Downloaded on 23 November 2014.
  8. 8.0 8.1 8.2 Valentin Pérez-Mellado, Marc Cheylan, Iñigo Martínez-Solano. 2009. Iberolacerta martinezricai. The IUCN Red List of Threatened Species. Version 2014.3. <www.iucnredlist.org>. Downloaded on 23 November 2014.
  9. 9.0 9.1 9.2 Valentin Pérez-Mellado, Marc Cheylan, Iñigo Martínez-Solano. 2009. Iberolacerta monticola. The IUCN Red List of Threatened Species. Version 2014.3. <www.iucnredlist.org>. Downloaded on 23 November 2014.
  10. Crochet PA, Chaline O, Surget-Groba Y, Debain C, Cheylan M (2004) "Speciation in mountains: phylogeography and phylogeny of the rock lizards genus Iberolacerta (Reptilia: Lacertidae)". Mol Phylogenet Evol 30: 860–866
  11. 11.0 11.1 11.2 11.3 Remon, N., P. Galan, M. Villa, O. Arribas and H. Naveira (June 2013). “Causes and evolutionary consequences of population subdivision of an Iberian mountain lizard, Iberolacerta monticola”. PLoS One 8 (6): 1-15. DOI: 10.1371/journal.pone.0066034. PMCID: PMC3676366.
  12. 12.00 12.01 12.02 12.03 12.04 12.05 12.06 12.07 12.08 12.09 12.10 12.11 12.12 12.13 12.14 12.15 12.16 12.17 12.18 12.19 12.20 12.21 12.22 12.23 Arribas, O. (June 2004). “Characteristics of the reproductive biology of Iberolacerta aurelioi (ARRIBAS, 1994)”. Herpetozoa 17 (1/2): 3-18.

External links

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