Red-spotted Newts Notophthalmus Viridescens Research Articles

The influence of environmental factors on pond activity of aquatic red-spotted newts Notophthalmus viridescens

ABSTRACTMany important components of animal behavior, growth, and reproduction are tightly linked to environmental conditions, particularly for ectothermic freshwater organisms. For amphibian species, factors such as temperature and rainfall can be physiologically limiting and alter activity levels. The effects of environmental conditions on terrestrial amphibian movement have been well characterized, but less is known about the importance of these factors in aquatic habitats. Here we investigate the impact of temperature and rainfall on the activity of a pond-dwelling amphibian using capture patterns of aquatic adult red-spotted newts (Notophthalmus viridescens). Data on newt captures, air temperature, and rainfall were collected for 6 years (2009, 2011, 2013–2016) during the winter breeding season at a wetland in the Piedmont region of North Carolina, USA. In 2016, we collected more detailed data on the size and sex of captured newts, as well as recording water temperature. Overall, temperature played a significant role in determining newt activity, while rainfall had little effect. As expected, and consistent with findings on amphibian activity in terrestrial systems, newt captures increased with increasing air temperature. During the 2016 breeding season we found sex-based changes in activity in response to temperature, with a higher proportion of males captured during warmer temperatures and a reduction in the male capture bias during colder temperatures. We found no evidence of size-based shifts in activity in response to temperature. This study increases our knowledge of amphibian responses to temperature while in aquatic habitats. Although the duration of time spent in aquatic habitats can be highly variable between species, these breeding locations are critical for the persistence of populations and activity levels, and reproductive success in these wetlands can be highly impacted by future changes in environmental conditions.

High pheromone diversity in the male cheek gland of the red-spotted newt Notophthalmus viridescens (Salamandridae).

BackgroundMale salamanders (Urodela) often make use of pheromones that are produced in sexually dimorphic glands to persuade the female into courtship and mating. The mental gland of lungless salamanders (Plethodontidae) and dorsal cloacal glands (or abdominal glands) of newts (Salamandridae) have been particularly well studied in that respect. In both families, sodefrin precursor-like factor (SPF) proteins have been identified as major components of the courtship pheromone system. However, similar to plethodontids, some newts also make use of subtle head glands during courtship, but few pheromones have been characterized from such structures. Males of red-spotted newts (Notophthalmus viridescens, Salamandridae) have both cloacal and cheek (genial) glands, and are known to apply secretions to the female’s nose by both tail-fanning and cheek-rubbing. Here we combined transcriptomic and phylogenetic analyses to investigate the presence, diversity and evolution of SPF proteins in the cloacal and cheek glands of this species.ResultsOur analyses indicate that the cheek glands of male N. viridescens produce a similar amount and diversity of SPF isoforms as the cloacal glands in this species. Expression in other tissues was much lower, suggesting that both male-specific courtship glands secrete SPF pheromones during courtship. Our phylogenetic analyses show that N. viridescens expresses a combination of isoforms that stem from four highly diverged evolutionary lineages of SPF variants, that together form a basis for the broad diversity of SPF precursors in the breeding glands.ConclusionsThe similar SPF expression of cheek and cloacal glands suggests that this protein family is used for pheromone signalling through cheek rubbing in the red-spotted newt. Since several male salamandrids in other genera have comparable head glands, SPF application via other glands than the cloacal glands may be more widespread than currently appreciated in salamandrids.Electronic supplementary materialThe online version of this article (doi:10.1186/s12862-015-0333-1) contains supplementary material, which is available to authorized users.

Studying newt brain regeneration following subtype specific neuronal ablation.

The realization that neuronal injury does not result in permanent functional or cellular loss in all vertebrates has fascinated regenerative biologists. Neuronal regeneration occurs in a subset of species, including lizards, teleost fish, axolotls, and newts. One tool for studying neuronal regeneration in the adult brain is intraventricular injection of selective neuronal toxins, which leads to loss of subpopulations of neurons. To trace cells involved in the regeneration process, plasmids encoding reporter proteins can be electroporated in vivo into the cells of interest. This protocol describes methods to label the ependymoglial cells of the brain of the red spotted newt Notophthalmus viridescens and follow their response after ablation of dopaminergic neurons.

Data mining in newt-omics, the repository for omics data from the newt.

Salamanders are an excellent model organism to study regenerative processes due to their unique ability to regenerate lost appendages or organs. Straightforward bioinformatics tools to analyze and take advantage of the growing number of "omics" studies performed in salamanders were lacking so far. To overcome this limitation, we have generated a comprehensive data repository for the red-spotted newt Notophthalmus viridescens, named newt-omics, merging omics style datasets on the transcriptome and proteome level including expression values and annotations. The resource is freely available via a user-friendly Web-based graphical user interface ( http://newt-omics.mpi-bn.mpg.de) that allows access and queries to the database without prior bioinformatical expertise. The repository is updated regularly, incorporating new published datasets from omics technologies.

A9.2 Tenascin-C expression during knee joint regeneration in the red-spotted NEWT notophthalmus viridescens

BackgroundIn mammals, tissue or organ damage often results in fibrotic scar formation, which in turn may impair proper organ function. Many urodele amphibians are capable of regenerating different tissues including...

Variability of tetrodotoxin and of its analogues in the red-spotted newt, Notophthalmus viridescens (Amphibia: Urodela: Salamandridae)

Efts and adult specimens (n = 142) of the red-spotted newt Notophthalmus viridescens from various locations in Canada and USA were analyzed for the presence of tetrodotoxin (TTX) and of its analogues 6-epitetrodotoxin and 11-oxotetrodotoxin. Considerable individual variations in toxin levels were found within and among populations from New Hampshire, New York, Pennsylvania, and Virginia ranging from non-detectable to 69 μg TTX per g newt. TTX and its analogues were absent in efts and adults from various locations in the Canadian province Nova Scotia, the northernmost distribution of the newt, and in adults from Florida. Newts kept in captivity for several years and reared on toxin-free diet lost their toxicity. Bayesian and maximum likelihood phylogenetic analysis of specimens from the various populations using three phylogenetic markers (COI, ND2 and 16S RNA) revealed that populations from the northern states of the USA and Canada are genetically homogenous, whereas the newts from Florida exhibited a much higher level of genetic divergence. An exogenous source of TTX in the newts either via the food chain or by synthesis of symbiotic bacteria is suggested to explain the high variability and lack of TTX in certain populations.

Tissue distribution of tetrodotoxin in the red-spotted newt Notophthalmus viridescens

High levels of tetrodotoxin (TTX) and of its analogue 6- epi-tetrodotoxin have been detected in skin and liver extracts of the red-spotted newt Notophthalmus viridescens assayed by a post-column fluorescent-HPLC system. Using a monoclonal antibody-based immunoenzymatic technique, TTX was localized in the granular glands of the epidermis as well as in the muscle layer between the muscle fibres, but also in most organs suggesting that TTX is stored in the whole body of the newt and is secreted by skin glands.

The role of extraocular photoreceptors in newt magnetic compass orientation: parallels between light-dependent magnetoreception and polarized light detection in vertebrates.

Theoretical models implicating specialized photoreceptors in the detection of the geomagnetic field have been the impetus for studying the effects of light on magnetic compass orientation. Magnetic orientation in flies, amphibians and birds has been found to be influenced by light, and in all these groups a shift of approximately 90 degrees in the direction of magnetic compass orientation has been observed under certain wavelengths and/or intensities of light. In the eastern red-spotted newt Notophthalmus viridescens, wavelength-dependent effects of light on magnetic compass orientation appear to result from an antagonistic interaction between short-wavelength (< or = 450 nm) and long-wavelength (> or = 500 nm) photoreception mechanisms. We have demonstrated that at least the short-wavelength input to the newt's magnetic compass is mediated by extraocular photoreceptors located in or near the pineal organ, and here we present new findings that indicate that the putative long-wavelength mechanism is also associated with pineal photoreceptors. Interestingly, the amphibian pineal organ mediates orientation to both the e-vector of plane-polarized light and the magnetic field. Although the wavelength-dependence of the polarized light orientation in amphibians has not been studied, polarization sensitivity in fishes appears to be mediated by two antagonistic photoreception mechanisms that have similar spectral characteristics to those of the newts' magnetic compass response. These parallels, along with similarities in the types of receptors that are expected to be involved in light-dependent magnetoreception and polarized light detection, suggest that similar photoreception mechanisms may mediate the light-dependent magnetic and polarized light compasses.

Avoidance of unpalatable prey by predaceous diving beetle larvae: The role of hunger level and experience (Coleoptera: Dytiscidae)

The effects of hunger and experience on the avoidance of unpalatable prey were examined. Larvae of the predaceous diving beetle,Dytiscus verticalis, after feeding on one of two feeding regimes, were offered palatable and unpalatable prey during a series of trials. Consumption of palatable prey (calf heart) was not affected by hunger or experience. Avoidance of unpalatable prey (tails of the red-spotted newtNotophthalmus viridescens) decreased with increased hunger, with hungrier predators sampling unpalatable prey more often. Although the overall level of avoidance varied across trials, the degree of difference in avoidance between predators at different hunger levels remained relatively constant across trials. Beetle larvae responded to an increase in their feeding regime within 36 h (after two trials), by becoming more selective. In a separate experiment, hunger level affected the number of beetle larvae that seized unpalatable newt tails, but experience did not.

Magnetic compass orientation is eliminated under near-infrared light in the eastern red-spotted newt Notophthalmus viridescens

Magnetic compass orientation is eliminated under near-infrared light in the eastern red-spotted newt Notophthalmus viridescens

The infrapopulation dynamics of trypanosomes in red-spotted newts

SUMMARYThe parasitic protozoan Trypanosoma diemyctyli has a life-cycle that involves a vertebrate host, the red-spotted newt Notophthalmus viridescens, and an invertebrate host, the amphibian leech Batrachobdella picta. A study of the distribution and dynamics of this parasite in newts of known adult age and history of breeding in montane ponds in Virginia revealed a pattern of: (1) moderate prevalences of infection in post-metamorphic juvenile and adult stages, (2) rapid increases in numbers of trypanosomes in newts during their first year of maturity, (3) significant differences in the numbers of trypanosomes in male and female newts in mid-summer, (4) sustained high levels of infection in the first two years of newt adulthood, (5) significantly lower levels of infection in newts by the fourth and subsequent years of adulthood and (6) annual oscillations in the intensity of infection in older adult newts from spring and autumn lows to mid-summer peak levels. Newts with a history of skipping breeding seasons had higher levels of infection than those newts which returned to the pond for every breeding season. Newts brought to the laboratory and maintained under leech-free conditions failed to develop infection levels comparable to those in the field. The dynamics of infrapopulation sizes of trypanosomes in newts depend on multi plication rates of the trypanosomes, variable transmission rates from the invertebrate host and the development of resistance in older adult newts.