ambystoma tigrinum
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Author(s):  
Christine M Vega ◽  
Miriam A Ashley-Ross

Abstract Lateral undulation and trunk flexibility offer performance benefits to maneuverability, stability, and stride length (via speed and distance traveled). These benefits make them key characteristics of the locomotion of tetrapods with sprawling posture, with the exception of turtles. Despite their bony carapace preventing lateral undulations, turtles are able to improve their locomotor performance by increasing stride length via greater limb protraction. The goal of this study was to quantify the effect of reduced lateral flexibility in a generalized sprawling tetrapod, the tiger salamander (Ambystoma tigrinum). We had two potential predictions: (1) either salamanders completely compensate by changing their limb kinematics, or (2) their performance (i.e., speed) will suffer due to the reduced lateral flexibility. This reduction was performed by artificially limiting trunk flexibility by attaching a 2-piece shell around the body between the pectoral and pelvic girdles. Adult tiger salamanders (n = 3, SVL = 9 cm-14.5 cm) walked on a 1 m trackway under three different conditions: unrestricted, flexible shell (Tygon tubing), and rigid shell (PVC tubing). Trials were filmed in a single, dorsal view, and kinematics of entire midline and specific body regions (head, trunk, tail), as well as the fore and hindlimbs, were calculated. Tygon individuals had significantly higher curvature than both PVC and unrestricted individuals for the body, but this trend was primarily driven by changes in tail movements. PVC individuals had significantly lower curvature in the trunk region compared to unrestricted individuals or Tygon; however, there was no difference between unrestricted and Tygon individuals suggesting the shells performed as expected. PVC and Tygon individuals had significantly higher curvature in the tails compared to unrestricted individuals. There were no significant differences for any limb kinematic variables among treatments including average, minimum, maximum angles. Thus, salamanders respond to decreased lateral movement in their trunk by increasing movements in their tail, without changes in limb kinematics. These results suggest that tail undulations may be a more critical component to sprawling-postured tetrapod locomotion than previously recognized.


2021 ◽  
Vol 12 ◽  
Author(s):  
Nan Jiang ◽  
Yuding Fan ◽  
Yong Zhou ◽  
Yan Meng ◽  
Wenzhi Liu ◽  
...  

The Chinese giant salamander, belonging to an ancient amphibian lineage, is the largest amphibian existing in the world, and is also an important animal for artificial cultivation in China. However, some aspects of the innate and adaptive immune system of the Chinese giant salamander are still unknown. The Chinese giant salamander iridovirus (GSIV), a member of the Ranavirus genus (family Iridoviridae), is a prominent pathogen causing high mortality and severe economic losses in Chinese giant salamander aquaculture. As a serious threat to amphibians worldwide, the etiology of ranaviruses has been mainly studied in model organisms, such as the Ambystoma tigrinum and Xenopus. Nevertheless, the immunity to ranavirus in Chinese giant salamander is distinct from other amphibians and less known. We review the unique immune system and antiviral responses of the Chinese giant salamander, in order to establish effective management of virus disease in Chinese giant salamander artificial cultivation.


2021 ◽  
Author(s):  
Sandy Momoe Kawano ◽  
Richard W. Blob

Amphibious fishes and salamanders are valuable functional analogs for vertebrates that spanned the water-to-land transition. However, investigations of walking mechanics have focused on terrestrial salamanders and, thus, may better reflect the capabilities of stem tetrapods that were already terrestrial. The earliest tetrapods were aquatic, so salamanders that are not primarily terrestrial may yield more appropriate data for modelling the incipient stages of terrestrial locomotion. In the present study, locomotor biomechanics were quantified from semi-aquatic Pleurodeles waltl, a salamander that spends most of its adult life in water, and then compared to a primarily terrestrial salamander (Ambystoma tigrinum) and semi-aquatic fish (Periophthalmus barbarus) to evaluate whether walking mechanics show greater similarity between species with ecological versus phylogenetic similarities. Ground reaction forces (GRFs) from individual limbs or fins indicated that the pectoral appendages of each taxon had distinct patterns of force production, but hind limb forces were comparable between the salamanders. The rate of force development ('yank') was sometimes slower in P. waltl but generally comparable between the three species. Finally, medial inclination of the GRF in P. waltl was intermediate between semi-aquatic fish and terrestrial salamanders, potentially elevating bone stresses among more aquatic taxa as they move on land. These data provide a framework for modelling stem tetrapods using an earlier stage of quadrupedal locomotion that was powered primarily by the hind limbs (i.e., "rear-wheel drive"), and reveal mechanisms for appendages to generate propulsion in three locomotor strategies that are presumed to have occurred across the water-to-land transition in vertebrate evolution.


PLoS ONE ◽  
2021 ◽  
Vol 16 (1) ◽  
pp. e0245047
Author(s):  
Amanda B. Gillis ◽  
Emmet L. Guy ◽  
Andrew J. Kouba ◽  
Peter J. Allen ◽  
Ruth M. Marcec-Greaves ◽  
...  

The aims of this project were to characterize tiger salamander (Ambystoma tigrinum) spermatozoa motility over time, when excreted as either milt or spermic urine prior to packaging into a spermatophore, and to determine the effect of temperature on sperm motility. A split-plot design was utilized to assess the motility of the two pre-spermatophore sample types at two temperatures, 0°C and 20°C (n = 10 for each treatment). Spermiation was induced through exogenous hormone treatment of luteinizing hormone releasing hormone analog in order to collect both milt and spermic urine, which were evaluated for motility, divided into two separate aliquots, and subsequently stored in either an ice-bath (0°C) or on the benchtop (20°C). The decay rate of sperm motility was assessed by reevaluating subsamples at 0.5, 1, 2, 3, 5, 7, and 24 hours following the initial assessment. Results showed that sperm stored at 0°C had significantly higher progressive, non-progressive, and total motility for both sperm collection types over time. An interaction was found between collection type and time, with milt exhibiting lower initial motility that was more sustainable over time, compared to spermic urine. For both milt and spermic urine, motility decreased rapidly with storage duration, indicating samples should be used as soon as possible to maximize motility for in-vitro fertilization and cryopreservation. This is the first study to describe the differences in sperm motility between milt and spermic urine from an internally fertilizing caudate and demonstrates the benefits of near freezing temperatures on sperm longevity.


2020 ◽  
Vol 31 (1) ◽  
pp. 46-51
Author(s):  
V. Ya. Gasso ◽  
S. V. Yermolenko ◽  
Yu. P. Bobyliov ◽  
A. M. Hahut ◽  
A. O. Huslystyi ◽  
...  

Currently, most amphibian populations in the world exist under the influence of numerous stress factors. Among them, the main factors that affect almost all terrestrial animals, namely, the fragmentation of habitats, environmental pollution and anthropic transformation of landscapes. Moreover, those factors are joined by negative causes that affect only amphibians – specific viral and fungal infections: ranaviruses (Ambystoma tigrinum virus (ATV), Bohle iridovirus (BIV), and frog virus 3) (also dangerous for some reptiles) and chytrid fungi (Batrachochytrium dendrobatidis and B. salamandrivorans). All these factors are one of the main reasons for the current global decline of amphibian populations in the world. In today's world, agricultural chemicals are one of the most important in terms of toxicity, environmental emissions and total area of impact. Among them, a significant proportion are formed by synthetic insecticides, which include pyrethroids and neonicotinoids. Pollution by these substances has a negative impact on amphibian populations, despite the relatively short period of their life in the environment. The vast majority of studies on the effects of pyrethroid and neonicotinoid insecticides were made in laboratory experiments with the larval stages of tailless amphibians. Tadpoles are easy to get in sufficient quantities and kept in the laboratory. Cypermethrin reduces the viability of tadpoles and causes precocious metamorphosis of survived larvae. However, in a combination with other pesticides, it delays metamorphosis. In addition, embryos were more resistant to pyrethroids than tadpoles. Pyrethroid pesticides cause spasms indicating adverse neurological effects. Formation of oral apparatus abnormalities in tadpoles, anisochromasia and increasing number of immature erythrocytes are also caused by pyrethroids. Neonicotinoids show similar effects. Under the action of imidacloprid the erythrocytes are also disturbed that is showed up in the DNA damage and micronuclei formation. Neurological disorders are manifested in the ability to perceive or respond to a predator, disorientation, erratic movement and loss of balance. Pyrethroids and neonicotinoids have been shown cause a variety of disorders: increase mortality and reduce survival of tadpoles; have a teratogenic effect and affect the metamorphosis and morphological parameters of amphibians; change many biochemical parameters that characterize the protein metabolism and oxidative stress; have genotoxic effects and affect the state of the nervous system and animal behaviour. Most of these parameters are proposed for use as biomarkers of pesticide intoxication.


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