Desert froglet

Desert Froglet
Desert froglet
Scientific classification
Kingdom: Animalia
Phylum: Chordata
Class: Amphibia
Order: Anura
Family: Myobatrachidae
Genus: Crinia
Species: C. deserticola
Binomial name
Crinia deserticola
(Liem & Ingram, 1977)
Distribution of the desert froglet

The Desert Froglet (Crinia deserticola) is a species of frog in the Myobatrachidae family, endemic to Australia. The species is not under any threat of extinction (IUCN Least Concern). Desert froglets occur mainly in dry or moist savanna habitats, principally from the mid-western border of Northern Territory, south-east into western Queensland and New South Wales and the north-east corner of South Australia.[2] They can also be found along the Queensland coast where it has been recorded between Townsville and Cooktown,[3] and as far south as Hervey Bay (300 km north of Brisbane).

Taxonomy

General

The desert froglet is a member of the family Myobatrachidae. However debate exists about its scientific and common names. For instance, because comparative phylogeny studies of Crinia species are not comprehensive, there is debate over the taxonomic accuracy of its species groupings.[4] One exception is the synonymisation of the genus Ranidella with Crinia[5][6] based on morphological data and serum albumin similarities with R.signifera and C.signifera.[7] In addition, although the term 'froglet' may seem suited as a general descriptor of smaller species, further taxonomic research of Crinia species, such as the desert froglet, is needed to clarify the relevancy of this term.[8]

Genetic Records

Crinia deserticola isolate SAMAR45118 tRNA-Gln and tRNA-Met genes, complete sequence; and NADH dehydrogenase subunit 2 (ND2) gene, partial cds; mitochondrial

Crinia deserticola isolate SAMAR52124 tRNA-Gln and tRNA-Met genes, complete sequence; and NADH dehydrogenase subunit 2 (ND2) gene, partial cds; mitochondrial

Crinia deserticola 658 mitochondrial partial nadh4 gene for NADH dehydrogenase subunit 4

Crinia deserticola 658 mitochondrial partial 16S rRNA gene

Description

Queensland museum specimen
Hands of: (A) Arenophyrne rotunda which uses them for burrowing and (B) Crinia deserticolca which does not burrow.[9]

The desert froglet is a ground dwelling frog with skin colour, texture and pattern variation common to other Crinia species.[3] Generally the belly of adults is granular (not blotchy pink like the Tasmanian froglet). The male belly is uniformly white or grey in colour, and possibly flecked grey. Whereas the female belly is either white, speckled or boldly blotched with black or grey.[3][6][7]

The throat of adults lack a median white line, unlike the Wallum froglet; with throats of breeding males white or grey and the chin completely dark. Spots are either inconspicuous or absent on the chest of both genders.[7]

Also, adults have distinct dermal fringes on their toes and the hind side of their thighs lack the pink or red coloration of the Quacking Frog.[7] The tympanum is obscure but not hidden unlike the Remote froglet.[7] The length of the adult snout-vent is usually less than 18mm, which is shorter than the Eastern sign-bearing froglet, and is a pale brown colour or slightly patterned.[7] Additional diagnostic descriptors include: bluntly rounded snout, evenly rounded canthus rostralis, outwardly sloping loreal region, bluntly pointed head (dorsal view), lacks supratympanic fold, elongated tongue, lacks vomerine teeth, toothed upper jaw, vocal sac with slit-like openings on the floor of the mouth.[6]

Distal segment of fingers are blunt, not expanded, with roundish sub-articular tubercles (one on 1st and 2nd fingers; two on 3rd and 4th fingers), supernumerary tubercles are present on each palm, two metacarpal tubercles are present, webbing is absent as is the nuptial pad, and subcutaneous glands are present on the base of the 1st finger.[6]

Hind limbs are robust with blunt digital segmentation of toes with broad fringes and rounded metatarsal tubercles, supernumerary tubercles are absent indicating the desert froglet does not burrow.[6]

Males mature at about 13.0-18.0 cm in length whereas females grow slightly larger to 13.0-18.0 cm.[3]

Distribution and habitat

Desert froglets are found in arid regions, especially in areas of black soil, extending across the Australian continent from the Kimberley region to the north-west of New South Wales and much of Queensland.[3] The species is often associated with static, temporary or permanent water bodies where it shelters under leaves. They have also been located within artificial habitats such as farm dams, and sheltering under corrugated iron and timber piles.[3]

Reproduction

Advertisement call

The desert froglet is recognised by the 'melodious chirping' call of the adult male which sounds similar to a House Sparrow.[3][6] Each call consists of a repeating pattern: two pulses of 60 milliseconds each and 4000 hertz which is immediately followed by two additional double pulses of decreasing energy and quickening rate, and a brief pause.[6] Calls are distinct from the shorter creaking call of Sloane's froglet, stretched out call of the Eastern sign-bearing froglet, lower pitch of the Wallum froglet, and grating sounds of the Common eastern froglet.[6]

Calling males can be found either hiding under vegetation or exposed at water edges.

Life history

Spawns of small eggs are laid as submerged clumps either directly within the water or attached to submerged vegetation.[2][6] Eggs are black at the animal pole and cream at the vegetal.[6]

Tadpole appearance is the same as the Eastern sign-bearing froglet and Common eastern froglet: dark brown in colour, a dextral anal opening, sinistral spiracle, blunt tail, labial papillar row interrupted on anterior and posterior portions, and a labial tooth row pattern of I, 1/1, II.[6]

Threats

Although the desert froglet is not considered to be at threat of extinction,[1] alterations to inland waters have potential to impact their populations, especially when water bodies are isolated and individuals cannot disperse to additional sources.[10] Under these circumstances, any activity that negatively impacts these water bodies may cause species decline, including drinking, fouling and grazing by livestock and feral animals, road construction, non-native plants, groundwater extraction, pollution, tourism, mining, and long-term changes in weather patterns.[11]

References

  1. 1 2 Hero, J.; Horner, P. & Retallick, R. (2004). "Crinia deserticola". IUCN Red List of Threatened Species. Version 2013.2. International Union for Conservation of Nature. Retrieved 28 April 2016.
  2. 1 2 Barker, J.; Grigg, G.; Tyler, M. (1995). A Field Guide to Australian Frogs. Edition 2. Chipping Norton (Australia): Surrey Beatty & Sons. ISBN 0949324612.
  3. 1 2 3 4 5 6 7 Tyler, M; Knight, F. (2009). Field guide to the frogs of Australia. Collingwood (Australia): CSIRO Publishing. ISBN 9780643092440..
  4. Read, K; Keogh, J.; Scott, I.; Roberts, J.; Doughty, P. (2001). "Molecular phylogeny of the Australian frog genera Crinia, Geocrinia, and allied taxa (Anura: Myobatrachidae)". Molecular Phylogenetics & Evolution. 21 (2): 294–308. doi:10.1006/mpev.2001.1014. ISSN 1055-7903.
  5. Heyer, W.; Daugherty, C.; Maxson, L. (1982). "Systematic resolution of the genera of the Crinia complex (Amphibia: Anura: Myobatrachidae)". Proceedings of the Biological Society of Washington. 95: 423–427. ISSN 0006-324X.
  6. 1 2 3 4 5 6 7 8 9 10 11 Liem, D.; Ingram, G (1977). "Two new species of frogs (Anura: Myobatrachidae, Pelodryadidae) from Queensland and New South Wales". Victorian Naturalist. 94 (6): 255–62. ISSN 0042-5184.
  7. 1 2 3 4 5 6 Cogger, H (2000). Reptiles and Amphibians of Australia, Sixth Edition. New Holland, N.S.W.: New Holland. ISBN 1876334339.
  8. Reynolds, S. (2007). "Some common names for top end frogs". Northern Territory Naturalist. 19: 60–68. ISSN 0155-4093.
  9. Tyler, M (2000). Australian frogs: a natural history. Frenchs Forest, N.S.W: New Holland. p. 90. ISBN 1876334207.
  10. Hutchings, P; Ponder, W (1999). Ponder, W; Lunney, D, eds. Criteria for assessing and conserving threatened invertebrates. The other 99% : the conservation and biodiversity of invertebrates. Sydney, NSW: Royal Zoological Society of New South Wales. pp. 297–315. ISBN 0958608512.
  11. Box, J; Duguid, A; Read, R; Kimber, R; Knapton, A; Davis, J; Bowland, A (2008). "Central Australian waterbodies: the importance of permanence in a desert landscape". Journal of Arid Environments. 72 (8): 1395–1413. doi:10.1016/j.jaridenv.2008.02.022.
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