Chemosensory discrimination of plant and animal foods by the omnivorous iguanian lizard Pogona vitticeps

2000 ◽  
Vol 78 (8) ◽  
pp. 1375-1379 ◽  
Author(s):  
William E Cooper, Jr.
Keyword(s):  
Visual Cues ◽  
Chemical Cues ◽  
Bearded Dragon ◽  
Chemical Discrimination ◽  
Pogona Vitticeps ◽  
Preferred Foods ◽  
Alfalfa Sprouts ◽  
Tongue Flicking ◽  
Tongue Flicks

Most iguanian lizards are insectivores that do not use chemical cues sampled by tongue-flicking to identify prey before attacking, but the sole iguanian herbivore previously studied did so. To investigate the effects of a partially herbivorous diet on responses to food chemicals, I conducted an experiment to determine whether the omnivorous bearded dragon (Pogona vitticeps) has a similar ability. Chemical stimuli from crickets and carrots, both preferred foods, and alfalfa sprouts, and deionized water (a nonpreferred food and odorless control, respectively) were presented on cotton-tipped applicators. The lizards responded more strongly to both preferred foods than to the controls, performing more tongue flicks and biting the cotton in a greater number of trials. It is hypothesized that lingually mediated food-chemical discrimination is useful to herbivorous and omnivorous lizards for identifying plant and animal foods and for evaluating the quality of plant foods. The insectivorous ambush foragers ancestral to P. vitticeps could not locate prey by tongue-flicking repeatedly at an ambush post and do not exhibit prey-chemical discrimination. Adding plants to the diet altered the selective milieu because plants approached using visual cues can be evaluated using chemical cues, allowing the evolution of the ability to discriminate between plant-food chemicals. The ability to identify animal prey by tongue-flicking may have evolved through correlated evolution with chemosensory identification of plants or specifically for locating or identifying immobile prey.

Food-chemical discrimination and correlated evolution between plant diet and plant-chemical discrimination in lacertiform lizards

2002 ◽  
Vol 80 (4) ◽  
pp. 655-663 ◽  
Author(s):  
William E Cooper Jr., ◽  
Janalee P Caldwell ◽  
Laurie J Vitt ◽  
Valentín Pérez-Mellado ◽  
Troy A Baird
Keyword(s):  
Chemical Cues ◽  
Experimental Studies ◽  
Correlated Evolution ◽  
Plant Foods ◽  
Plant Chemical ◽  
Chemical Discrimination ◽  
Herbivorous Species ◽  
Quality Of Food ◽  
Tongue Flicking

Lizards use chemical cues to locate and identify prey and plant food, assess the nutritional quality of food, and detect plant toxins. Among insectivorous lizards, all actively foraging species studied respond strongly to prey chemicals sampled lingually, but ambush foragers do not. Much recent research has been devoted to assessing differential responses to food and nonfood chemicals (i.e., food-chemical discrimination) by omnivorous and herbivorous species and determining whether correlated evolution has occurred between plant diet and plant-chemical discrimination. We conducted experimental studies of food-chemical discrimination by two species of teiid lizards, the omnivorous Cnemidophorus murinus and the actively foraging insectivorous Ameiva ameiva. The omnivore distinguished both prey and plant chemicals from control substances. The insectivore exhibited prey-chemical, but not plant-chemical, discrimination, as indicated by tongue-flicking and biting. A comparative analysis using concentrated-changes tests showed that correlated evolution has occurred between plant consumption and plant-chemical discrimination in a major lizard taxon, Lacertiformes. These results extend and strengthen previous findings of similar correlated evolution to a new group and add to a growing database indicating that omnivorous lizards use chemical cues to assess both prey and plant foods.

Do lingual behaviors and locomotion by two gekkotan lizards after experimental loss of bitten prey indicate chemosensory search?

1996 ◽  
Vol 17 (3) ◽  
pp. 217-231 ◽  
Author(s):  
Christopher S. DePerno ◽  
William E. Cooper ◽  
Laura J. Steele
Keyword(s):  
Vomeronasal System ◽  
Foraging Mode ◽  
Gekko Gecko ◽  
Leopard Gecko ◽  
Prey Chemicals ◽  
Chemical Discrimination ◽  
Tokay Gecko ◽  
Tongue Flicking ◽  
Ambush Foraging ◽  
Tongue Flicks

AbstractPoststrike elevation in tongue-flicking rate (PETF) and strike-induced chemosensory searching (SICS) were assessed experimentally in two species of gekkonoid lizards belonging to families differing in foraging mode. PETF is an increase in rate of lingual protrusions after a prey item has been bitten and escapes or is removed from the mouth of a squamate reptile, whereas SICS is PETF combined with locomotory searching behavior. Eublepharis mucularius, the leopard gecko, is an actively, albeit slowly, foraging eublepharid. This species exhibited PETF for a duration of about five minutes based on total lingual protrusions. Labial-licks were initially much more frequent than tongue-flicks. A substantial increase in movement occurred during minutes 5-8, hinting that SICS might be present, but was not quite significant. SICS is likely present, as in other actively foraging lizards, but was not conclusively demonstrated. Handling the lizards induced increased locomotion in both the experimental condition and a control condition, presumably accounting for the apparent delay in onset of increased movement. The tokay gecko, Gekko gecko, a gekkonid ambush forager, performed no tongue-flicks, but exhibited PETF based on labial-licks during the first minute. SICS was absent. These findings support the hypothesis that SICS is absent in ambush foraging lizards, which do not use the lingual-vomeronasal system to search for prey. They are suggestive, but equivocal regarding the hypothesis that SICS is present in actively foraging lizards that exhibit lingually mediated prey chemical discrimination. The finding of PETF in G. gecko suggests that this species and several iguanians previously found to increase rates of labial-licking after biting prey may be able to detect prey chemicals.

Elevated tongue-flicking rate to cricket surface chemicals by the arthropodivorous rough green snake Opheodrys aestivus

2007 ◽  
Vol 28 (3) ◽  
pp. 413-417 ◽  
Author(s):  
William Cooper
Keyword(s):  
Laboratory Experiment ◽  
Chemical Cues ◽  
The Other ◽  
Potential Prey ◽  
Additional Species ◽  
Diet Specialization ◽  
Tongue Flicking ◽  
Tongue Flicks ◽  
Existing Data ◽  
Dietary Specialist

AbstractThe rough green snake Opheodrys aestivus is a dietary specialist on insects and other arthropods. In a laboratory experiment, I tested chemosensory responses to chemical cues from several taxa palatable to other snakes and two control stimuli presented on cotton swabs. The snakes tongue-flicked at significantly higher rates in response to cues from crickets than from any of the other stimuli, and none of the other potential prey types elicited more tongue-flicks than cologne, the control for response to an odorous substance irrelevant to feeding. These findings are consistent with existing data for a few other species of snakes that are prey specialists, suggesting that correlated evolution may occur between diet specialization and chemosensory responsiveness to cues from the specialized prey. Tests of additional species of prey specialists are needed to establish whether this hypothesis is correct.

A Description of Isospora amphiboluri (Apicomplexa: Eimeriidae) from the Inland Bearded Dragon, Pogona vitticeps (Sauria: Agamidae)

1995 ◽  
Vol 81 (2) ◽  
pp. 281 ◽  
Author(s):  
Chris T. McAllister ◽  
Steve J. Upton ◽  
Elliott R. Jacobson ◽  
Wayne Kopit
Keyword(s):  
Bearded Dragon ◽  
Pogona Vitticeps

Male salamanders remember individuals based on chemical or visual cues

Behaviour ◽  
2009 ◽  
Vol 146 (11) ◽  
pp. 1485-1498 ◽  
Author(s):  
Nancy Kohn ◽  
Robert Jaeger
Keyword(s):  
Filter Paper ◽  
Forest Floor ◽  
Visual Cues ◽  
Chemical Cues ◽  
Plethodon Cinereus ◽  
Multiple Cues

AbstractThe use of multiple cues can enhance the detection, recognition, discrimination, and memorability of individuals by receivers. We conducted two experiments, using only males, to test whether territorial red-backed salamanders, Plethodon cinereus, could use only chemical or only visual cues to remember familiar conspecifics. In both experiments, focal males spent significantly more time threatening unfamiliar than familiar male intruders. They also chemoinvestigated the filter paper containing chemical cues of unfamiliar intruders more often than that of familiar intruders. These results suggest that red-backed salamanders can use both chemical and visual cues to recognize familiar individuals, allowing them to distinguish between less threatening neighbours and more threatening intruders in the heterogeneous forest floor habitat, where visual cues alone would not always be available.

ADNEXAL CYSTADENOMA IN A BEARDED DRAGON ( POGONA VITTICEPS )

2018 ◽  
Vol 27 (2) ◽  
pp. 85-89
Author(s):  
Silvia G. Pryor ◽  
Daniel Cutler ◽  
Wilson Yau ◽  
Kathryn A. Diehl
Keyword(s):  
Bearded Dragon ◽  
Pogona Vitticeps

scholarly journals A Case of Lymphocytic Leukemia in a Bearded Dragon (Pogona vitticeps) and a Review of Literature

2019 ◽  
Vol 69 (3) ◽  
pp. 360-368
Author(s):  
Alessandra Gavazza ◽  
Livio Galosi ◽  
Veronica Croce ◽  
Amerio Croce ◽  
Carla Genovese ◽  
...  
Keyword(s):  
Bone Marrow ◽  
Lymphocytic Leukemia ◽  
Lymphoid Cells ◽  
Immunocytochemical Staining ◽  
Review Of Literature ◽  
Blood Smears ◽  
Bearded Dragon ◽  
Pogona Vitticeps ◽  
Lymphoid Infiltration ◽  
Lymphoblastic Cells

Abstract The present paper reports the case of a 3 years old, female Bearded Dragon (Pogona vitticeps) presenting lethargy, anorexia, weight loss, and anemia and marked leukocytosis at CBC. The majority of leukocytes were lymphocytic/lymphoblastic cells (97%). Immunocytochemical staining of blood smears marked for CD3 (neg) and CD79a (pos) suggested immunophenotype B. The patient died after one month from diagnosis. Histology evidenced lymphoid infiltration in the heart, spleen, liver, kidneys and gut. In addition, in the bone marrow a massive infiltration of lymphoid cells confirmed the diagnosis of leukemia. Immunohistochemistry confirmed the CD79a positivity of a large part of infiltrating lymphoid cells indicating a B cells immunophenotype of the neoplastic population. The presence of lymphocytosis and multiorgan infiltration supported the diagnosis of lymphocytic leukemia. Finally, a revision of the literature has also been made.

Sign in / Sign up

Export Citation Format

Share Document