Boreal toad

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Boreal toad
Boreal toad (Anaxyrus boreas) (7046220291).jpg
Scientific classification OOjs UI icon edit-ltr.svg
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Class: Amphibia
Order: Anura
Family: Bufonidae
Genus: Anaxyrus
Species:
Subspecies:
A. b. boreas
Trinomial name
Anaxyrus boreas boreas
(Baird and Girard, 1852)

The boreal toad (Anaxyrus boreas boreas) is the nominate subspecies of the western toad (Anaxyrus boreas). They are commonly found in the western U.S. and western Canada. Boreal toad populations have declined recently due to an emerging amphibian disease, chytrid fungus. [1] The boreal toad is currently listed as an endangered species by Colorado and New Mexico. It is known in Colorado as the only alpine species of toad.

Contents

Appearance

Boreal toads lack a cranial crest, and can be distinguished from the other western toad subspecies, the California toad, by looking at its underbelly, which is covered by a considerable amount of dark blotches. [2] Adult males on average are between 2.4–3.1 inches and females are 2.9–3.9 inches [3] Their coloration can range from brown to green and they have a distinct white mid-dorsal stripe. Both sexes have dry, warty skin and oval parotoid glands. Male boreal toads have no vocal sac and therefore have no mating call.

Habitat and distribution

The boreal toad is currently found in northern New Mexico, Colorado, Utah, Idaho, Wyoming, Montana, Washington, Oregon, British Columbia, Alberta, and Southeast Alaska. It prefers high-altitude wet habitats (8,000–12,000 ft in elevation) such as lakes, marshes, ponds, bogs, and quiet shallow water [4] Habitat selection for western toads is important because they require open water for breeding, and they can die if they are too exposed to seawater. [5]

Diet

Being omnivorous, boreal toads feed on a wide variety of insects and other invertebrates as well as aquatic and non-aquatic plants. Their diet includes grasshoppers, beetles, flies, detritus, algae, and mosquitos.

Reproduction

The breeding season is usually from May to late July and occurs in marshes and still waters. Females lay on average about 3,000 to 8,000 eggs. The tadpoles take around two months to develop and are usually black. [6] Survival of tadpoles to metamorphosis is higher in aquatic environments with high trout presence, low chytrid fungus presence, and in non-permanent spawning pools. [7] Trout presence decreases predation by aquatic insects, lower chytrid fungus concentrations help tadpoles through their most vulnerable life-stage, and ephemeral spawning pools are warmer, leading to faster and larger tadpole growth. [8] [9] [7]

Chytrid fungus

The chytrid fungus ( Batrachochytrium dendrobatidis ) causes a skin disease in many amphibian species. It is spread mainly via either contact with aquatic habitats that are high in chytrid fungus load or exposure to infected individuals, but it affects amphibians by feeding on the keratin they produce, which causes keratosis. [10] Keratosis can be detrimental to amphibians because it inhibits their ability to absorb water and electrolytes. [11] This can cause the amphibian to either suffocate or to go into cardiac arrest.

The effects of the chytrid fungus on boreal toad populations are highly variable, with some populations experiencing total extirpation due to exposure and others experiencing a chronic disease cycle in which low transmission rates lead to a 5% year-to-year population decrease. [10] These differences in effect are due to complex host-pathogen relationships between the chytrid fungus, the toads, aquatic environment, temperature, population size, and elevation. As climate change shifts all of these variables, the chytrid fungus is expected to be a stronger presence in many boreal toad populations.

Reintroduction efforts

Attempts to reintroduce boreal toads to both previously occupied and new locations have had mixed results. In Colorado, almost all attempts at repatriation or translocation of mature individuals or eggs have failed. [12] [13] These attempts have failed to result in a diverse age structure of mature adults, especially lacking in sexually mature individuals. However, more recent reintroduction attempts have proven successful with a mature individual translocation effort made in Utah in 2019 and a tadpole reintroduction effort made in Colorado in 2019 also. [14] [15] These efforts have succeeded due to innovations made in their processes. In the Utah project, they utilized the benefits of small refugia-like population dynamics. Chytrid fungus is known to spread at much lower rates in smaller populations, so by introducing smaller numbers of toads to these isolated locations, the chytrid effect was lowered. [16] In the Colorado project, they utilized a probiotic bath for the tadpoles called "Purple Rain" that strengthened their skin microbiome, providing resistance to chytrid fungus. [15]

Related Research Articles

<span class="mw-page-title-main">Chytridiomycota</span> Division of fungi

Chytridiomycota are a division of zoosporic organisms in the kingdom Fungi, informally known as chytrids. The name is derived from the Ancient Greek χυτρίδιον (khutrídion), meaning "little pot", describing the structure containing unreleased zoospores. Chytrids are one of the earliest diverging fungal lineages, and their membership in kingdom Fungi is demonstrated with chitin cell walls, a posterior whiplash flagellum, absorptive nutrition, use of glycogen as an energy storage compound, and synthesis of lysine by the α-amino adipic acid (AAA) pathway.

<span class="mw-page-title-main">Decline in amphibian populations</span> Ongoing mass extinction of amphibian species worldwide

Since the 1980s, decreases in amphibian populations, including population decline and localized mass extinctions, have been observed in locations all over the world. This type of biodiversity loss is known as one of the most critical threats to global biodiversity. The possible causes include habitat destruction and modification, diseases, exploitation, pollution, pesticide use, introduced species, and ultraviolet-B radiation (UV-B). However, many of the causes of amphibian declines are still poorly understood, and the topic is currently a subject of ongoing research.

<span class="mw-page-title-main">Chytridiomycosis</span> Amphibian disease

Chytridiomycosis is an infectious disease in amphibians, caused by the chytrid fungi Batrachochytrium dendrobatidis and Batrachochytrium salamandrivorans. Chytridiomycosis has been linked to dramatic population declines or extinctions of amphibian species in western North America, Central America, South America, eastern Australia, east Africa (Tanzania), and Dominica and Montserrat in the Caribbean. Much of the New World is also at risk of the disease arriving within the coming years. The fungus is capable of causing sporadic deaths in some amphibian populations and 100% mortality in others. No effective measure is known for control of the disease in wild populations. Various clinical signs are seen by individuals affected by the disease. A number of options are possible for controlling this disease-causing fungus, though none has proved to be feasible on a large scale. The disease has been proposed as a contributing factor to a global decline in amphibian populations that apparently has affected about 30% of the amphibian species of the world. Some research found evidence insufficient for linking chytrid fungi and chytridiomycosis to global amphibian declines, but more recent research establishes a connection and attributes the spread of the disease to its transmission through international trade routes into native ecosystems.

<span class="mw-page-title-main">American toad</span> Species of amphibian

The American toad is a common species of toad found throughout Canada and the eastern United States. It is divided into three subspecies: the eastern American toad, the dwarf American toad and the rare Hudson Bay toad. Recent taxonomic treatments place this species in the genus Anaxyrus instead of Bufo.

<span class="mw-page-title-main">Western toad</span> Species of amphibian

The western toad is a large toad species, between 5.6 and 13 cm long, native to western North America. A. boreas is frequently encountered during the wet season on roads, or near water at other times. It can jump a considerable distance for a toad. Breeding occurs between March and July in mountainous areas, and as early as January in lower-elevation regions. The female lays up to 17,000 eggs stuck together in strings that adhere to vegetation and other objects along water edges.

<span class="mw-page-title-main">Red-spotted toad</span> Species of amphibian

The red-spotted toad, formerly Bufo punctatus, is a toad in the family Bufonidae found in the southwestern United States and northwestern Mexico.

<span class="mw-page-title-main">Wyoming toad</span> Species of amphibian

The Wyoming toad, also known commonly as Baxter's toad, is a species of toad in the family Bufonidae. The Wyoming toad is an extremely rare amphibian that exists only in captivity and within Mortenson Lake National Wildlife Refuge in Wyoming in the United States. The Wyoming toad was listed as an endangered species in 1984, and listed as extinct in the wild since 1991. As with black-footed ferrets at the Tom Thorne and Beth Williams Wildlife Research Center at Sybille in Wheatland, Wyoming, the effort to save the Wyoming toad has been a cooperative effort among state and federal agencies and private landowners. The Wyoming toad was common from the 1950s through the early 1970s, but its distribution was limited to the Laramie Basin in Albany County. The population crashed around 1975 and was extremely low by 1980. The Wyoming toad was federally listed as endangered in January 1984. To prevent extinction, a captive-breeding program began in 1989 at the Thorne Williams Unit that produced enough offspring in its first few years to supply seven zoos, and in 1998 the Saratoga National Fish Hatchery received captive-breeding stock. Nearly 46,000 offspring were produced at the Thorne Williams Unit from 1995 until 2006, when the remaining captive stock was moved to the Red Buttes Environmental Biology Laboratory south of Laramie, and then released back into the wild. Before the sharp declines occurred, this toad had been originally classified as Bufo hemiophrys baxteri, a subspecies of the Canadian toad, by Kenneth Raymond Porter in 1968.

Holdridge's toad, formerly Bufo holdridgei, is a species of toad endemic to Costa Rica. In October 2008, it was declared extinct by the International Union for Conservation of Nature in its Red List since the species had not been seen since 1987, despite years of extensive searches. However, the species was rediscovered in 2010 by a Costa Rican herpetologist and is now classified as critically endangered. It is believed that the species is most threatened by the presence of the chytrid fungus in its habitat.

<span class="mw-page-title-main">Woodhouse's toad</span> Species of amphibian

Woodhouse's toad is a medium-sized true toad native to the United States and Mexico. There are three recognized subspecies. A. woodhousii tends to hybridize with Anaxyrus americanus where their ranges overlap.

<span class="mw-page-title-main">Boreal chorus frog</span> Species of amphibian

The boreal chorus frog is a species of chorus frog native to Canada from central Quebec to eastern British Columbia and north to the Northwest Territories and the southern portion of the Yukon. It occurs in the USA throughout Montana, northwestern Wisconsin, northeastern Arizona, northern New Mexico, and southwestern Utah.

<i>Batrachochytrium dendrobatidis</i> Species of fungus

Batrachochytrium dendrobatidis, also known as Bd or the amphibian chytrid fungus, is a fungus that causes the disease chytridiomycosis in amphibians.

<span class="mw-page-title-main">Canadian toad</span> Species of amphibian

The Canadian toad, also known commonly as the Dakota toad, is a species of toad that ranges from the prairie regions of western Canada south to parts of the upper midwest of the United States. It belongs to the family Bufonidae, the "true" toads. Its specific name is derived from the Latin word hemiophrys, meaning eyebrow, which refers to its pronounced cranial crest between and behind the eyes. Anaxyrus hemiophrys displays the typical toad characteristics: it lacks a tail and teeth, it has a horizontal pupil, and its dry skin is thick and warty.

<span class="mw-page-title-main">Guajira stubfoot toad</span> Species of amphibian

The Guajira stubfoot toad or Carrikeri harlequin frog is a species of toad in the family Bufonidae. It is about 5 cm (2.0 in) long and typically black, though some populations have orange coloration. This species is endemic to the Sierra Nevada de Santa Marta mountain range of northern Colombia. It is critically endangered because of the chytrid fungus, Batrachochytrium dendrobatidis, and habitat destruction due to agriculture. The species had not been seen from 1994 until it was rediscovered in early 2008.

<span class="mw-page-title-main">Yosemite toad</span> Species of amphibian

The Yosemite toad is a species of true toad in the family Bufonidae. Endemic to the Sierra Nevada of California, the species ranges from the Alpine County to Fresno County. Yosemite toads are only found in the montane to subalpine elevational zone of 1,950–3,445 m (6,398–11,302 ft) asl. The Yosemite toad is similar to the nearby western toad, but in many ways adapted to a high elevation lifestyle. It was initially described during the Grinnell Survey of California, by an undergraduate student of Joseph Grinnell named Charles Camp.

<span class="mw-page-title-main">Green-eyed treefrog</span> Species of amphibian

The green-eyed treefrog is a species of Australasian treefrog in the subfamily Pelodryadinae that occurs in the Wet Tropics of Australia.

<span class="mw-page-title-main">Golden toad</span> Extinct species of toad that was endemic to Costa Rica

The golden toad is an extinct species of true toad that was once abundant in a small, high-altitude region of about 4 square kilometres (1.5 sq mi) in an area north of the city of Monteverde, Costa Rica. It was endemic to elfin cloud forest. Also called the Monte Verde toad, Alajuela toad and orange toad, it is commonly considered the "poster child" for the amphibian decline crisis. This toad was first described in 1966 by herpetologist Jay Savage. The last sighting of a single male golden toad was on 15 May 1989, and it has since been classified as extinct by the International Union for Conservation of Nature (IUCN).

<i>Calyptocephalella</i> Genus of amphibians

Calyptocephalella is a genus of frogs in the family Calyptocephalellidae. It is represented by a single living species, Calyptocephalella gayi, commonly known as the helmeted water toad, Chilean helmeted bull frog, or wide-mouthed toad. Additionally, there are a few extinct species that are only known from Late Cretaceous and Paleogene fossil remains from Patagonia in South America and the Antarctic Peninsula. The helmeted water toad living today is aquatic to semi-aquatic, and found in deep ponds and reservoirs in central Chile and possibly adjacent west-central Argentina.

<i>Batrachochytrium salamandrivorans</i> Species of pathogenic chytrid fungus that infects amphibian species

Batrachochytrium salamandrivorans (Bsal) is a pathogenic chytrid fungus that infects amphibian species. Although salamanders and newts seem to be the most susceptible, some anuran species are also affected. Bsal has emerged recently and poses a major threat to species in Europe and North America.

The Hot Creek toad is a species of toad in the family Bufonidae. It is endemic to Nye County in the state of Nevada in the United States.

The Railroad Valley toad is a species of toad in the family Bufonidae. It is endemic to Nye County in the state of Nevada in the United States.

References

  1. "Boreal Toad." U.S. Fish and Wildlife Service Home. 29 June 2011. Web. 12 Dec. 2011
  2. "Boreal Toad." Archived 2011-07-27 at the Wayback Machine Center for Native Ecosystems. Web. 11 Dec. 2011.
  3. Pierce, Leland J. S. Boreal Toad (Bufo Boreas Boreas) Recovery Plan. [Santa Fe, N.M.]: New Mexico Dept. of Game & Fish, 2006.
  4. "Boreal Toad." Archived May 12, 2012, at the Wayback Machine Colorado Division of Wildlife. 21 May 2010. Web. 12 Dec. 2011.
  5. Bartelt, Paul E.; Klaver, Robert W.; Porter, Warren P. (2010). "Modeling amphibian energetics, habitat suitability, and movements of western toads, Anaxyrus (=Bufo) boreas, across present and future landscapes". Ecological Modelling. 221 (22): 2675–2686. Bibcode:2010EcMod.221.2675B. doi:10.1016/j.ecolmodel.2010.07.009. ISSN   0304-3800.
  6. "Yellowstone National Park – Boreal Toad (U.S. National Park Service)." U.S. National Park Service – Experience Your America. 10 June 2009. Web. 12 Dec. 2011.
  7. 1 2 Crockett, John G.; Bailey, Larissa L.; Muths, Erin (April 2020). "Highly variable rates of survival to metamorphosis in wild boreal toads ( Anaxyrus boreas boreas )". Population Ecology. 62 (2): 258–268. Bibcode:2020PopEc..62..258C. doi: 10.1002/1438-390X.12044 . ISSN   1438-3896.
  8. Kiesecker, Joseph M.; Chivers, Douglas P.; Blaustein, Andrew R. (1996-12-01). "The use of chemical cues in predator recognition by western toad tadpoles". Animal Behaviour. 52 (6): 1237–1245. doi:10.1006/anbe.1996.0271. ISSN   0003-3472. S2CID   53167643.
  9. Garner, Trenton W. J.; Walker, Susan; Bosch, Jaime; Leech, Stacey; Marcus Rowcliffe, J.; Cunningham, Andrew A.; Fisher, Matthew C. (May 2009). "Life history tradeoffs influence mortality associated with the amphibian pathogen Batrachochytrium dendrobatidis". Oikos. 118 (5): 783–791. Bibcode:2009Oikos.118..783G. doi:10.1111/j.1600-0706.2008.17202.x.
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  11. "Chytrid Fungus." Archived 2011-12-17 at the Wayback Machine savethefrogs.com 2011. Web. 12 Dec. 2011.
  12. Carey, Cynthia; Corn, Paul Stephen; Jones, Mark S.; Livo, Lauren J.; Muths, Erin; Carey, Charles W. (2005-06-15), Lannoo, Michael (ed.), "Factors Limiting the Recovery of Boreal Toads (Bufo b. boreas)", Amphibian Declines, University of California Press, pp. 222–236, doi:10.1525/california/9780520235922.003.0031, ISBN   978-0-520-23592-2 , retrieved 2021-04-15
  13. Muths, Erin; Johnson, Therese L.; Corn, Paul Stephen (March 2001). "Experimental Repatriation of Boreal Toad (Bufo boreas) Eggs, Metamorphs, and Adults in Rocky Mountain National Park". The Southwestern Naturalist. 46 (1): 106. doi:10.2307/3672383. JSTOR   3672383.
  14. Thompson, Paul D. (2019-04-22). "Translocation of Boreal Toad (Anaxyrus boreas boreas) into Two Springs in the Grouse Creek Mountains, Utah, Including Demographic Observations". Western North American Naturalist. 79 (1): 24. doi:10.3398/064.079.0103. ISSN   1527-0904. S2CID   195420398.
  15. 1 2 "PHOTOS: Highly endangered high alpine Boreal Toads reintroduced in Colorado". The Denver Post. 2019-07-13. Retrieved 2021-04-15.
  16. Mosher, Brittany A.; Bailey, Larissa L.; Muths, Erin; Huyvaert, Kathryn P. (2018). "Host–pathogen metapopulation dynamics suggest high elevation refugia for boreal toads". Ecological Applications. 28 (4): 926–937. Bibcode:2018EcoAp..28..926M. doi:10.1002/eap.1699. ISSN   1939-5582. PMID   29430754.

Further reading

Carey, Cynthia, Judsen E. Bruzgul, Lauren J. Livo, Margie L. Walling, Kristin A. Kuehl, Brenner F. Dixon, Allan P. Pessier, Ross A. Alford, and Kevin B. Rogers. "Experimental Exposures of Boreal Toads (Bufo Boreas) to a Pathogenic Chytrid Fungus (Batrachochytrium Dendrobatidis)." EcoHealth 3.1 (2006): 5–21.