Cnemidophorus arubensis

{{Short description|Species of lizard}}

{{speciesbox

| image = Aruba-Cnemidophorus-arubensis.JPG

| image_caption = male

| image2 = Lizard-4016650.jpg

| image2_caption = female

| status = LC

| status_system = IUCN3.1

| genus = Cnemidophorus

| species = arubensis

| authority = van Lidth de Jeude, 1887

}}

Cnemidophorus arubensis, commonly known as the Aruba whiptail or cododo, is a species of whiptail lizard in the genus Cnemidophorus. The female and young lizards are known as {{Lang|pap|Lagadishi}} (English: Lizard), while the mature males are called {{Lang|pap|Blòblò}} (English: Blue-blue).{{Cite book |last=Biblioteca Nacional Aruba |url=http://archive.org/details/BNADIGSPREEKBEURTLagadishiReptielen |title=Lagadishi, Blauw-blauw, Pega pega, Toteki - Informatie voor Spreekbeurten |date=2018}} This lizard species is endemic to the island of Aruba{{NRDB species|genus=Cnemidophorus|species=arubensis|accessdate=9 March 2014}} and is recognized as the most common and abundant species of lizard on the island.{{Sfn|Schall|1974}}

Identification

Female lizards and the young are varying shades of brown. Mature females display longitudinal bands on the upper part of their bodies, extending from the head to the tail. In addition, they exhibit blue eyespots on their sides and the hind limbs.{{Sfn|Notes from Leyden Museum|1887|pp=132-133}} C. arubensis typically grow to a length of approximately {{Convert|15|cm|in}}{{Cite web |title=Cododo (fact sheet) |url=https://www.arubanationalpark.org/main/wp-content/files/pdf/fauna/cododo.pdf |access-date=2023-07-09 |website=Aruba National Park}}

Whiptails (Teiidae) possess femoral pores, although they are larger in males compared to females. Additionally, males have pre-anal pores.{{Sfn|Buurt|2005|p=84}}

Diet

One of the notable adaptations observed within the Teiidae family of lizards is the transition to herbivorous diets in various endemic island species. This shift is particularly evident in the C. arubensis and C. murinus.{{sfn|Pianka|Vitt|2003|p=48}}

The diet of Aruba whiptails encompasses both insects and predominantly plant material such as flowers, nectar, leaves and fruits.{{Sfn|Buurt|2005|p=84}} However, they exhibit selectivity in their plant consumption due to the presence of toxins in many available plant species, particularly those containing relatively high quantities phenols, saponin, and alkaloids (such as quinine).{{Sfn|Pianka|Vitt|2003|p=201}} Consequently, these lizards actively avoid such plants.{{sfn|Pianka|Vitt|2003|p=48}}

It has been observed that coprophagy, the consumption of feces, occurs in C. arubensis.{{Sfn|King|1996|p=37}} The colon is larger than in other species of whiptails and is clearly adapted to a herbivorous diet. In a natural, undisturbed habitat, approximately 80% of the stomach contents consists of plant materials, while around 15% consists of insects and other anthropods. The remaining 5% consists materials such as feces, small stones and twigs.{{Sfn|Buurt|2005|p=84}}

They play a significant role in the dispersal of seeds for certain plant species. This is achieved by their consumption of fruits, followed by the excretion of the seeds in diverse locations, aiding in seed dispersal and contributing to the plant's reproductive cycle.{{Need Citation|date=July 2023}}

{{Multiple image

| image1 = Whiptail lizard Eidechse Aruba - Flickr - Ralf Hüsges.jpg

| caption1 = Aruba whiptail consuming nectar from a yellow flower of an Opuntia caracassana.{{Cite web |last=Jorge |date=2021-04-14 |title=aruba Cactus Opuntia Cactus |url=https://arubaeco.tours/aruba-cactus-opuntia-cactus/ |access-date=2023-09-13 |website=Aruba Nature Adventure & Private Eco Tours Aruba |language=en-US}}

| image2 = ARUBA-eidechsen-kokos.jpg

| caption2 = Aruba whiptail consuming split open coconuts

| total_width = 440

| align = center

| image3 = ArubanWhiptailOnRock.jpg

| caption3 = Aruban Whiptail resting on split coconut shells.

| alt3 = Aruban Whiptail seen on dried coconut shells. You can see it shedding some skin near its head.

}}

Behavioral pattern

= Reproductive behavior =

In most Cnemidophorus lizards, the colors of dominant males tend to become somewhat more vibrant during the mating season. However, C. arubensis exhibits a distinct difference in this regard. During the mating season, which occurs from September to October, mature male C. arubensis lizards undergo a transformation. They become intensely blue, and this light-blue color covers a significant portion of the body.{{Sfn|Buurt|2005|p=91}} File:Aruba whiptails courting.jpg between female and male Aruban whiptails ]]All teiines are oviparous, and clutch size is associated with lizard body size. While Cnemidophorus has clutches ranging from two to six eggs, C. arubensis, produces a single egg, albeit a large one.{{sfn|Vitt|Zug|Caldwell|2001|p=490}}{{sfn|King|1996|p=44}}

= Front paw signaling =

Frequent signaling with the front paw is a notable behavior in C. arubensis and can also be observed in C. lemniscatus lemniscatus. In C. murinus murinus and C. murinus ruthveni, this behavior appears to be somewhat less frequent.{{Sfn|Buurt|2005|p=91}}

= Tongue flicks =

Both C. arubensis and C. murinus display an increased likelihood of tongue-flicking (briefly extruding the tip of their bifurcated tongue for approximately 100 milliseconds) in the presence of quinine compared to its absence. The lizards appear to detect quinine even before closely approaching the bait.{{Sfn|Schall|1990}}{{Sfn|Cooper Jr.|Pérez-Mellado|Vitt|Budzinsky|2002|p=298}}

Sources

{{refbegin|30em}}

  • {{Cite book |last=Buurt |first=G. van |title=Fieldguide to the Amphibians and Reptiles of Aruba, Curaçao and Bonaire |publisher=Edition Chimaira |year=2005 |isbn=9783930612666 |url=https://www.dcbd.nl/document/fieldguide-amphibians-and-reptiles-aruba-curaçao-and-bonaire |access-date=2023-07-08}}
  • {{Cite journal |last1=Cooper Jr. |first1=William E. |last2=Pérez-Mellado |first2=Valentín |last3=Vitt |first3=L.J. |last4=Budzinsky |first4=Brandy |year=2002 |title=Behavioral responses to plant toxins by two omnivorous lizard species |journal=Physiology & Behavior |volume=76 |issue=2 |pages=297–303 |doi=10.1016/S0031-9384(02)00715-1|pmid=12044603 |s2cid=11880625 }}
  • {{Cite book |last=King |first=G.M. |year=1996 |title=Reptiles and Herbivory |isbn=9780412461101 |publisher=Springer Netherlands}}
  • {{Cite book |ref={{SfnRef|Notes from Leyden Museum|1887}} |year=1887 |title=Notes from the Leyden Museum |location=Netherlands |publisher=Rijksmuseum van Natuurlijke Historie te Leiden |url=https://books.google.com/books?id=UdDRAAAAMAAJ |access-date=2023-07-08}}
  • {{Cite book |last1=Pianka |first1=E.R.|last2=Vitt |first2=L.J. |year=2003 |title=Lizards:Windows to the evolution of diversity |location=United Kingdom |publisher=University of California Press. |isbn=9780520248472 |url=https://archive.org/details/lizardswindowsto00pian |access-date=2023-07-07 |url-access=registration}}
  • {{Cite journal |last1=Schall |first1=Joseph J. |year=1974 |title=Population Structure of the Aruban Whiptail Lizard, Cnemidophorus arubensis, in Varied Habitats |journal=Herpetologica |volume=30 |issue=1 |pages=38–44 |jstor=3891411 |url=https://www.jstor.org/stable/3891411 |url-access=registration}}
  • {{Cite journal |last1=Schall |first1=Joseph J. |year=1990 |title=Aversion of Whiptail Lizards (Cnemidophorus) to a Model Alkaloid |journal=Herpetologica |volume=46|issue=1 |pages=34–39 |jstor=3892600 |url=https://www.jstor.org/stable/3892600}}
  • {{Cite book |last1=Vitt |first1=L.J. |last2=Zug |first2=G.R. |last3=Caldwell |first3=J.P. |year=2001 |title=Herpetology:An Introductory Biology of Amphibians and Reptiles |publisher=Elsevier |isbn=9780080549408}}

{{refend}}

References