monitor lizards
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Animals ◽  
2022 ◽  
Vol 12 (2) ◽  
pp. 148
Author(s):  
Watcharaporn Thapana ◽  
Nattakan Ariyaraphong ◽  
Parinya Wongtienchai ◽  
Nararat Laopichienpong ◽  
Worapong Singchat ◽  
...  

Duplicate control regions (CRs) have been observed in the mitochondrial genomes (mitogenomes) of most varanids. Duplicate CRs have evolved in either concerted or independent evolution in vertebrates, but whether an evolutionary pattern exists in varanids remains unknown. Therefore, we conducted this study to analyze the evolutionary patterns and phylogenetic utilities of duplicate CRs in 72 individuals of Varanus salvator macromaculatus and other varanids. Sequence analyses and phylogenetic relationships revealed that divergence between orthologous copies from different individuals was lower than in paralogous copies from the same individual, suggesting an independent evolution of the two CRs. Distinct trees and recombination testing derived from CR1 and CR2 suggested that recombination events occurred between CRs during the evolutionary process. A comparison of substitution saturation showed the potential of CR2 as a phylogenetic marker. By contrast, duplicate CRs of the four examined varanids had similar sequences within species, suggesting typical characteristics of concerted evolution. The results provide a better understanding of the molecular evolutionary processes related to the mitogenomes of the varanid lineage.


2022 ◽  
Vol 12 ◽  
Author(s):  
Yu Du ◽  
Jun-Qiong Chen ◽  
Qian Liu ◽  
Jian-Chao Fu ◽  
Chi-Xian Lin ◽  
...  

Numerous studies have demonstrated that food shapes the structure and composition of the host’s oral and gut microbiota. The disorder of oral and gut microbiota may trigger various host diseases. Here, we collected oral and gut samples from wild water monitor lizards (Varanus salvator) and their captive conspecifics fed with bullfrogs, eggs, and depilated chicken, aiming to examine dietary correlates of oral and gut microbiota. We used the 16S rRNA gene sequencing technology to analyze the composition of the microbiota. Proteobacteria and Bacteroidota were the dominant phyla in the oral microbiota, and so were in the gut microbiota. The alpha diversity of microbiota was significantly higher in the gut than in the oral cavity, and the alpha diversity of oral microbiota was higher in captive lizards than in wild conspecifics. Comparing the relative abundance of oral and gut bacteria and their gene functions, differences among different animal groups presumably resulted from human contact in artificial breeding environments and complex food processing. Differences in gene function might be related to the absolute number and/or the taxonomic abundance of oral and gut microorganisms in the wild and the water environment. This study provides not only basic information about the oral and gut microbiota of captive and wild water monitor lizards, but also an inference that feeding on frogs and aquatic products and reducing human exposure help water monitor lizards maintain a microbiota similar to that in the wild environment.


2021 ◽  
pp. 1-7
Author(s):  
Dalia Mohamedien ◽  
Mahmoud Awad

Monitor lizards are acclimatized to a variety of environments. Most of the monitor species are terrestrial, although there are arboreal and semiaquatic monitors. Such accommodation requires unique cellular structure and regulatory devices in various organs, particularly their lungs. This study aimed to report the pulmonary guardians and special regulatory devices that may guard and promote the function of the lungs of the Nile monitor lizards (Varanus niloticus). Specially structured vessels were recorded in the pulmonary tissue involving atypical glomus vessels, vessels with variable wall thickness, and a venule with specialized internal elastic membrane. Moreover, numerous lung resident guardians could be identified including both alveolar and interstitial macrophages, dendritic cells, mast cells, and B- and T-lymphocytes. Pericytes were demonstrated surrounding the capillary endothelium with a characteristic direct hetero-cellular junction with telocytes. Telocytes established a microenvironment through an indirect hetero-cellular junction with the interstitial macrophage, dendritic cells, and pneumocyte type II. Collectively, these data indicate a significant role played by the specially structured vessels and the resident immune cells in guarding the pulmonary tissue of the Nile monitor lizards and promoting its function. Telocytes are suggested to play a key role in angiogenesis and cellular communication to promote the function of the immune cells.


Evolution ◽  
2021 ◽  
Author(s):  
Carlos J. Pavón‐Vázquez ◽  
Ian G. Brennan ◽  
Alexander Skeels ◽  
J. Scott Keogh

Oryx ◽  
2021 ◽  
pp. 1-10
Author(s):  
Jonathan Q. Richmond ◽  
Elijah Wostl ◽  
Robert N. Reed ◽  
Robert N. Fisher

Abstract Rediscovery of living populations of a species that was presumed to be extirpated can generate new narratives for conservation in areas suffering from losses in biodiversity. We used field observations and DNA sequence data to verify the rediscovery of the Critically Endangered scincid lizard Emoia slevini on Dåno′, an islet off the coast of Guam in the southern Mariana Islands, where for > 20 years it had been considered possibly extirpated. Endemic to the Marianas, E. slevini has declined throughout its range and no longer occurs on as many as five islands from which it was historically known, most likely because of interactions with invasive species and loss of native forest. Our results show that individuals from Dåno′, the type locality for E. slevini, are genetically similar but not identical to E. slevini on Sarigan and Alamagan to the north, and that E. slevini is a close evolutionary relative to another congener in the southern Marianas that is currently recognized as Emoia atrocostata but probably represents an undescribed species in this archipelago. We also show that other, more broadly distributed species of Emoia occurring on Dåno′ are distant relatives to E. slevini and the Mariana lineage of E. atrocostata, providing further evidence of the distinctiveness of these taxa. The rediscovery of E. slevini on Dåno′ following rodent eradication and culling of a population of monitor lizards suggests that management of invasive species is key to the recovery of this skink in the Mariana Islands, and that a range eclipse on the larger neighbouring island of Guam best explains why the rediscovery took place at the periphery of the species’ historic range. A Chamorro abstract can be found in the supplementary material.


2021 ◽  
pp. 2482-2487
Author(s):  
Aditya Yudhana ◽  
Ratih Novita Praja ◽  
Anjani Marisa Kartikasari

Background and Aim: The high prevalence of sparganosis has been reported globally, especially in Asian countries where the majority of individuals consume raw meat from wild-caught reptiles. In Indonesia, similar cases regarding the high prevalence of sparganosis were recorded from wild reptiles such as snakes that utilized for culinary purposes, whereas, there are no data regarding other species such as water monitor lizard (Varanus salvator), which also provided as daily culinary with a high number of trades. Therefore, this study aims to investigate the prevalence of sparganosis in water monitor lizard (V. salvator), which is frequently utilized as culinary products in East Java Province, Indonesia. Materials and Methods: A total of 313 living wild-caught and captive-bred Asian water monitor lizards were collected from the reptile markets and breeders. All samples were euthanized and observed for the presence of plerocercoid. Identification of the plerocercoid as larval infective stage was made using carmine staining method. Results: The total prevalence of sparganosis was recorded at 69.64%. A total of 393 plerocercoids were collected in which divided 280 (71.24%) infecting muscles and 113 (28.75%) located in subcutaneous tissues. Conclusion: To the best of our knowledge, this study not only recorded as the first evidence but also confirms the role of monitor lizards as sparganosis transmitters in Asia and reveals additional routes of sparganosis transmission in Indonesian reptiles. Local conservation laws should be strengthened to effectively control or ban wildlife trade in traditional markets. Moreover, public awareness regarding sparganosis as a neglected zoonotic disease should be applied to prevent disease transmission in Indonesia.


Toxins ◽  
2021 ◽  
Vol 13 (9) ◽  
pp. 590
Author(s):  
Nicholas J. Youngman ◽  
Joshua Llinas ◽  
Bryan G. Fry

Some Australian elapids possess potently procoagulant coagulotoxic venoms which activate the zymogen prothrombin into the functional enzyme thrombin. Although the activity of Australian elapid prothrombin-activators has been heavily investigated with respect to the mammalian, and in particular, human clotting cascades, very few studies have investigated the activity of their venom upon reptile plasmas. This is despite lizards representing both the primary diet of most Australian elapids and also representing natural predators. This study investigated the procoagulant actions of a diverse range of Australian elapid species upon plasma from known prey species within the genera Tiliqua (blue tongue skinks) as well as known predator species within the genera Varanus (monitor lizards). In addition to identifying significant variation in the natural responses of the coagulation cascade between species from the genera Tiliqua and Varanus relative to each other, as well as other vertebrate lineages, notable differences in venom activity were also observed. Within the genus Tiliqua, both T. rugosa and T. scincoides plasma displayed significant resistance to the procoagulant activity of Pseudechis porphyriacus venom, despite being susceptible to all other procoagulant elapid venoms. These results indicate that T. rugosa and T. scincoides have evolved resistance within their plasma to the coagulotoxic venom activity of the sympatric species P. porphyriacus. Other venoms were able to activate Tiliqua prothrombin, which suggests that the lessened activity of P. porphyriacus venom is not due to modifications of the prothrombin and may instead be due to a serum factor that specifically binds to P. porphyriacus toxins, as has been previously seen for squirrels resistant to rattlesnake venom. In contrast, none of the predatory lizards studied (Varanus giganteus, V. mertensi and V. varius) demonstrated resistance to the venom. This suggests that the mechanical protection afforded by thick osteodermic scales, and prey handling behaviour, removes a selection pressure for the evolution of resistance in these large predatory lizards. These results therefore reveal differential interactions between venoms of snakes with sympatric lizards that are on opposite sides of the predator–prey arms race.


PLoS ONE ◽  
2021 ◽  
Vol 16 (7) ◽  
pp. e0254032
Author(s):  
Lachlan Pettit ◽  
Mathew S. Crowther ◽  
Georgia Ward-Fear ◽  
Richard Shine

Biological invasions can massively disrupt ecosystems, but evolutionary and ecological adjustments may modify the magnitude of that impact through time. Such post-colonisation shifts can change priorities for management. We quantified the abundance of two species of giant monitor lizards, and of the availability of their mammalian prey, across 45 sites distributed across the entire invasion trajectory of the cane toad (Rhinella marina) in Australia. One varanid species (Varanus panoptes from tropical Australia) showed dramatic population collapse with toad invasion, with no sign of recovery at most (but not all) sites that toads had occupied for up to 80 years. In contrast, abundance of the other species (Varanus varius from eastern-coastal Australia) was largely unaffected by toad invasion. That difference might reflect availability of alternative food sources in eastern-coastal areas, perhaps exacerbated by the widespread prior collapse of populations of small mammals across tropical (but not eastern) Australia. According to this hypothesis, the impact of cane toads on apex predators has been exacerbated and prolonged by a scarcity of alternative prey. More generally, multiple anthropogenically-induced changes to natural ecosystems may have synergistic effects, intensifying the impacts beyond that expected from either threat in isolation.


2021 ◽  
Vol 31 (2) ◽  
pp. 97
Author(s):  
Syaiful Rizal ◽  
R A Rahmawati

<p class="00-6Abstrak2Wtz">Monitor lizards have various body sizes, belong to the Varanidae and it is reported that there were various kinds of pathogenic organisms in their bodies. This review aims to describe various information on pathogenic organisms and their potential as zoonotic diseases and can be used as a reference in the prevention of zoonotic diseases originating from Varanidae. The results of this review discuss two types of viruses, three types of bacteria, five types of protozoa, two types of arthropods, and seven types of endoparasites that are pathogenic in Varanidae. Based on this information it is known that potentially zoonotic pathogens include bacteria group is <em>Salmonella </em>spp. and <em>Anaplasma phagocytophilum</em>; groups of protozoa was <em>Giardia </em>sp<em>p</em>. and <em>Cryptosporidium </em>sp.; Arthropod group namely <em>Amblyomma </em>sp<em>.</em> which carries the bacteria <em>Rickettsia </em>sp<em>.</em>, <em>Borrelia </em>spp<em>.</em> and <em>Anaplasma </em>spp<em>.</em> and the endoparasite group consisting of <em>Ascaris </em>sp<em>.</em>, <em>Strongyloides </em>sp<em>.</em>, Pentastomida, and <em>Angiostrongylus cantonensis</em>, while for the virus group, there were no pathogenic organisms with zoonotic potential. The extensive use of Varanidae by humans as exotic pets, as well as for consumption and medicine has great potential in the transmission of zoonotic diseases. Those are possible because the varanids non-aseptically environment. The proper handling and maintenance of monitor lizards are necessary to prevent the spread of zoonotic diseases. Unhygienic and less aseptic way of handling food products of animal origin can lead to the potential for transmission of pathogenic organisms (foodborne disease). Efforts to prevent the transmission of foodborne diseases can apply Good Hygienic Practices (GHP) with the process of cooking reptile meat for consumption. Besides, disease transmission can be prevented by implementing the One Health concept.</p>


2021 ◽  
Vol 4 (1) ◽  
pp. 21-32
Author(s):  
Evy Ayu Arida ◽  
Elika Boscha ◽  
Muhammad Alif Fauzi ◽  
Ari Ardiantoro ◽  
Noor Laina Maireda

Local knowledge on the benefits of wild meat is probably the motivation behind consumption of such unusual source of protein. Various tribes in Indonesia are known to include wild meat of monitor lizards, Varanus spp. in their diet for several reasons including health benefits. Water monitor, Varanus salvator, is widely distributed across the Indonesian Archipelago and commonly found even in degraded habitats. Meat and internal organs of this species are commonly known to be consumed in Indonesia by at least three ethnics, i.e. Batak on Sumatra, Dayak on Kalimantan, and Minahasa on Sulawesi islands. We aim to investigate consumption of water monitor meat in a few communities in the western part of Java, where there is likely a custom albeit benign. Previous observations in the province of West Java showed consumption of a smaller scope in Sundanese communities, where religious background is of a restriction. Consumption of water monitor meat all over on Java seemed to be infrequent, yet also prevailing at a level of small business. In the western part of Java, consumption and sales seemed to be dominant in the northern areas, but mostly in Jakarta than in the regencies of West Java province. Direct observations and casual interviews with a few associates in West Java revealed a long-term practice in Cibinong. Besides its gastronomic benefit, meat of water monitor is believed as health tonic for men and a therapeutic method to treat skin diseases.


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