Sierra newt

Sierra newt
Taricha sierrae
Scientific classification
Kingdom: Animalia
Phylum: Chordata
Class: Amphibia
Order: Caudata
Family: Salamandridae
Genus: Taricha
Species: T. sierrae
Binomial name
Taricha sierrae

The Sierra newt, with scientific name Taricha sierrae, is a newt found west of the Sierra Nevada, from Shasta county to Tulare County, in California, Western North America.

Its adult length can range from 5 to 8 in (13 to 20 cm).[1] Its skin produces a potent toxin.

Subspecies

The Sierra newt was formerly regarded as a subspecies (Taricha torosa sierrae) of the California newt (Taricha torosa). In 2007 it was determined that the two represent "distinct evolutionary lineages".[2]

Range and habitat

Sierra newts exist primarily in the Sierra Nevada, because they prefer less humid climates than the rough-skinned newts. Outside the breeding season, the newts are land-dwelling, preferring rock crevices and logs.

Description

Reproduction

Reproduction occurs generally between December and early May. Typically, the adult newts will return to the pool in which they hatched. After a mating dance, the male mounts the female and rubs his chin on her nose. He then attaches a spermatophore to the substrate, which she will retrieve into her cloaca.

The egg mass released by the female contains between seven and 30 eggs, and is roughly the consistency of a thick gelatin dessert. Typically, the egg masses are attached to stream plant roots or to rocky crevices in small, pools of slow-moving water, but they have also been known to be attached to underwater rocks or leaf debris. While shallow in a wide sense, these pools are rather deep relative to the average depth of a Southern California stream, varying in depth from about 1–2 metres (3.3–6.6 ft).

Adult newts will stay in the pools throughout the breeding season, and can be occasionally found well into the summer. Larvae hatch sometime in early to midsummer, depending on local water temperature. Larvae are difficult to find in streams, as they blend in well with the sandy bottom, to which they usually stay close.

Toxicity and predation

Like other genus Taricha members, the glands in the skin of Taricha sierrae secrete the potent neurotoxin tetrodotoxin, which is hundreds of times more toxic than cyanide. This is the same toxin found in pufferfish and harlequin frogs. Researchers believe bacteria synthesize tetrodotoxin, and the animals that employ the neurotoxin acquire it through consumption of these bacteria. This neurotoxin is strong enough to kill most vertebrates, including humans. However, it is dangerous only if ingested.

Due to their toxicity, Sierra newts have few natural predators. Garter snakes are the most common, and some species have developed a genetic resistance to tetrodotoxin. The mutations in the snake’s genes that conferred resistance to the toxin have resulted in a selective pressure that favors newts that produce more potent levels of toxin. Increases in newt toxicity then apply a selective pressure favoring snakes with mutations conferring even greater resistance. This evolutionary arms race has resulted in the newts producing levels of toxin far in excess of what is needed to kill any other conceivable predator.[3][4][5][6]

Diet

Earthworms, snails, slugs, woodlice, bloodworms, mosquito larvae, crickets, other invertebrates, and trout eggs are among the Sierra newt's prey. In an aquarium habitat, earthworms provide the newt with all necessary nutrients. Other natural prey items would benefit the captive newt. Pellets tend to be inappropriate for terrestrial caudates, and fish food should be avoided completely.

Conservation status

The closely related Taricha torosa, the California newt, is currently a California Special Concern species (DFG-CSC). Some populations have been greatly reduced in southern California coastal streams due to the introduction of non-native, invasive species and human habitation. The mosquitofish (Gambusia affinis) and red swamp crayfish (Procambarus clarkii) have caused the greatest reduction in newt populations.[7]

See also

References

  1. Vanderlip, Jacquelynn; Hollingsworth, Bradford. "California Newt". San Diego Natural History Museum. Retrieved 23 September 2014.
  2. Shawn R. Kuchta (2007). "Contact zones and species limits: hybridization between lineages of the California Newt, Taricha torosa, in the southern Sierra Nevada". Herpetologica. The Herpetologists’ League. 63 (3): 332–350. doi:10.1655/0018-0831(2007)63[332:CZASLH]2.0.CO;2.
  3. Feldman, C. R.; Brodie, E. D.; Brodie, E. D.; Pfrender, M. E. (2009). "The evolutionary origins of beneficial alleles during the repeated adaptation of garter snakes to deadly prey". Proceedings of the National Academy of Sciences. 106 (32): 13415–13420. doi:10.1073/pnas.0901224106. PMC 2726340Freely accessible. PMID 19666534.
  4. Hanifin, Charles T. (2010). "The Chemical and Evolutionary Ecology of Tetrodotoxin (TTX) Toxicity in Terrestrial Vertebrates". Marine Drugs. 8 (3): 577–593. doi:10.3390/md8030577. PMC 2857372Freely accessible. PMID 20411116.
  5. Feldman, C. R.; Brodie, E. D.; Brodie, E. D.; Pfrender, M. E. (2010). "Genetic architecture of a feeding adaptation: garter snake (Thamnophis) resistance to tetrodotoxin bearing prey". Proceedings of the Royal Society B: Biological Sciences. 277 (1698): 3317–3325. doi:10.1098/rspb.2010.0748. PMC 2981930Freely accessible. PMID 20522513.
  6. Charles T Hanifin; Edmund D Brodie Jr.; Edmund D Brodie III (2008). "Phenotypic mismatches reveal escape from arms-race coevolution". PLoS Biology. 6 (3): 60. doi:10.1371/journal.pbio.0060060.
  7. Seth C. Gamradt; Lee B. Kats (1996). "Effect of Introduced Crayfish and Mosquitofish on California Newts". Conservation Biology. 10 (4): 1155–1162. doi:10.1046/j.1523-1739.1996.10041155.x.
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