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Blue Ridge two-lined salamander

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(Redirected from Eurycea wilderae)

Blue Ridge two-lined salamander
Scientific classification Edit this classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Class: Amphibia
Order: Urodela
Family: Plethodontidae
Genus: Eurycea
Species:
E. wilderae
Binomial name
Eurycea wilderae
Dunn, 1920

The Blue Ridge two-lined salamander (Eurycea wilderae) is a species of salamander in the family Plethodontidae, endemic to the United States. This species is found in the southern Appalachian Mountains, mostly south of Virginia. To the north is a similar salamander, Eurycea bislineata, or the northern two-lined salamander. Its genus, Eurycea contains 33 species and includes taxa that have either a metamorphic life cycle or larval-form paedomorphosis. In species that metamorphose, there can be within-and among-population variation in larval life-history characteristics, e.g., duration of the larval period and size at metamorphosis. Intraspecific geographic variation in species of Eurycea has been attributed to several factors: temperature, stream order and productivity of the larval habitat.[2]

Adult Blue Ridge two-lined salamanders are commonly found near stream banks. The larvae are aquatic, living in streams and seeps. Its natural habitats are temperate forests, rivers, intermittent rivers, and freshwater springs. It is threatened by habitat loss. This species is named after zoologist Inez Whipple Wilder, who studied biology of Eurycea species.[3] These amphibians are listed by the IUCN as a species of least concern for conservation.

Morphology

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The Blue Ridge two-lined salamander ranges in size from 2 3/4 - 4 1/2 inches (7-10.7 cm) and ranges in color from bright yellow, yellow-orange, to orange. There are two black dorsolateral lines that usually break into dots or blotches around the middle of the tail. There are often scattered black dots on the back. The Blue Ridge two-lined salamander has a relatively long tail as it is between 55-60% of the total length. There are generally 14 to 16 costal grooves, based on elevation. At a lower elevation, 14 costal grooves is more common. Nasolabial grooves, also known as cirri, are common.[4]

Reproduction

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The Blue Ridge two-lined salamander is an external fertilizer. Its oviposition usually occurs during late winter or early spring months.[5] The female deposits eggs under rocks, logs, or leaves in water which they will then guard until the eggs hatch. Hatchlings emerge with external gills and spend around 2 years fully aquatic larvae before transforming into adults.[6] When the larvae begin to metamorphosize is largely dependent on temperature and food availability. Those exposed to higher temperature will metamorphosize sooner. In contrast those that had more food grew a lot larger and waited longer before metamorphosizing.[7] Evidence suggests direct-development was the ancestral form of development, with the metamorphic life cycle being an example of metamorphic deceleration.[8]

There is sexual dimorphism between two types of males: searching males and guarding males. Searching males have cirri, mental glands, and protruding premaxillary teeth, which are adapted for locating and courting females in terrestrial habitats. Guarding males lack these characteristics and instead have seasonally enlarged jaw musculature adapted for defending females at aquatic nesting sites.[9]

Distribution and habitat

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The Blue Ridge two-lined salamanders have been reported to the southern Appalachian Mountain range (Sever 1920). Within those mountains they will be found along streams and forested habitat. The mating season will usually determine if they are discovered in more of a terrestrial or aquatic habitat. It is not well documented if this species migrates further than from terrestrial to aquatic habitats. They are lungless and require environments that are moist and cool (Crawford 2016). The streams that are more suitable for the Blue Ridge two- lined salamander contain submerged substrate to oviposit. When this salamander is not breeding they will burrow, typically under logs and leaf litter. Blue Ridge two-lined salamanders can reach densities of over 100 individuals in a square meter depending on habitat conditions. [10]

Diet

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Their diet is very similar to other terrestrial salamanders. Both the aquatic juveniles and terrestrial adults have been documented eating copepods, midge larvae, nematodes, and both aquatic and terrestrial insects. The size of the prey items depends on the salamander's size and growth rate.[11]

Predators

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Spring salamanders, garter snakes, black-bellied salamanders, and other larger plethodontids prey upon larval and adult Blue Ridge two-lined salamanders. The adults can use chemical sensing to detect predators (Gandhi and Cecala 2016). It was found in a study that even with the presence black bellied salamander predators (visually or detected by scent), the use of rocks for cover was not utilized by adults (Sever 1920).

Prey Items

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Adult Blue Ridge two-lined salamander primary diet consists of terrestrial organisms such as non insect arthropods, worms, and marine invertebrates. The larvae will feed primarily on aquatic macroinvertebrates and some terrestrial insects (Johnson and Wallace 2005).

Behavior

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To avoid competition and predation, stream salamanders such as the Blue Ridge two-lined salamander will segregate spacelly within terrestrial habitats. In a study on, Trade-off between Desiccation and Predation Risk, the Blue Ridge Two-lined occurred between 15– 20 m from the stream edge risking desiccation because the environment is less suitable due to drier environmental conditions rather than possible predation (Crawford 2016). Most of the competition is based on their size.

References

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  1. ^ IUCN SSC Amphibian Specialist Group (2014). "Eurycea wilderae". IUCN Red List of Threatened Species. 2014: e.T59279A64170281. doi:10.2305/IUCN.UK.2014-3.RLTS.T59279A64170281.en. Retrieved November 16, 2021.
  2. ^ Beachy, Christopher K. (September 2018). "Effects of Growth Rate and Temperature on Metamorphosis in Eurycea wilderae (Caudata, Plethodontidae, Hemidactyliinae, Spelerpini; Blue Ridge Two-lined Salamander)". Southeastern Naturalist. 17 (3): 423–432. doi:10.1656/058.017.0307. JSTOR 26770050. S2CID 91924062.
  3. ^ Dodd, C. Kenneth (2004). The Amphibians of Great Smoky Mountains National Park. University of Tennessee Press. p. 161. ISBN 978-1-57233-275-1.
  4. ^ Powell, Robert (2016). Peterson Field Guide to Reptiles and Amphibians of Eastern and Central North America (4th ed.). Houghton Mifflin Harcourt. pp. 53–60.
  5. ^ Bruce, Richard C. (1988). "An Ecological Life Table for the Salamander Eurycea wilderae". Copeia. 1988 (1): 15–26. doi:10.2307/1445917. JSTOR 1445917.
  6. ^ “Snakes.” Amphibians and Reptiles of North Carolina, https://herpsofnc.org/blue-ridge-two-lined-salamander/#:~:text=Diet%3A%20Blue%20Ridge%20two%2Dlined,their%20eggs%20until%20they%20hatch.
  7. ^ Beachy, Christopher K. (September 2018). "Effects of Growth Rate and Temperature on Metamorphosis in Eurycea wilderae (Caudata, Plethodontidae, Hemidactyliinae, Spelerpini; Blue Ridge Two-lined Salamander)". Southeastern Naturalist. 17 (3): 423–432. doi:10.1656/058.017.0307.
  8. ^ Beachy, Christopher K. (2018). "Effects of Growth Rate and Temperature on Metamorphosis in Eurycea wilderae (Caudata, Plethodontidae, Hemidactyliinae, Spelerpini; Blue Ridge Two-lined Salamander)". Southeastern Naturalist. 17 (3): 423–432. doi:10.1656/058.017.0307. JSTOR 26770050.
  9. ^ Rainey, Howard N.; Pierson, Todd W.; Deitloff, Jennifer (November 2, 2021). "Quantifying Inter- and Intrasexual Head-Shape Polymorphism in Eurycea cf. wilderae (Blue-Ridge Two-Lined Salamanders)". Ichthyology & Herpetology. 109 (4). doi:10.1643/h2020010.
  10. ^ Peterman, William; Truslow, Samuel (2008). "Density estimation of larval Eurycea wilderae: A comparison of mark-recapture and depletion sampling". Herpetological Review. 39 (4): 438–442 – via Research Gate.
  11. ^ Johnson, Brent R; Wallace, J Bruce (February 2005). "Bottom-up limitation of a stream salamander in a detritus-based food web". Canadian Journal of Fisheries and Aquatic Sciences. 62 (2): 301–311. doi:10.1139/f04-197.

Further reading

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