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Amphisbaena alba

December 13, 2023

Amphisbaena alba, also known as the red worm lizard[1] or less commonly as the white or white-bellied worm lizard, is a species of amphisbaenian in the reptilian order Squamata. Despite the large geographic range that this species covers, little is known about its ecology due to its secretive habits.[2] A. alba has a diverse diet ranging from plant material to small vertebrates[2] (such as lizards and their eggs, snakes, mice, and other rodents).[3][4] Numerically, beetles, ants, and spiders compose the majority of their diet; however, ants, insect larvae, beetles, cockroaches, hemipterans, mole crickets, crickets, grasshoppers, termites, spiders, scorpions, pseudoscorpions, and annelids are ingested to satisfy a larger volume.[2][3][5] The females are somewhat larger than the males, and can reach over 80 cm, which is quite large for an amphisbaenian. They are known to bury themselves in leafcutter ant nests and hide in the ants’ garbage dump areas to avoid irritating the ants into attacking, and to bury themselves to avoid predation in general.[6]

Amphisbaena alba
Scientific classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Class: Reptilia
Order: Squamata
Family: Amphisbaenidae
Genus: Amphisbaena
Species:
A. alba
Binomial name
Amphisbaena alba
Range of A. alba (in red) in South America

Geographic range edit

It occurs in South America from eastern Venezuela and the island of Trinidad through the entire Amazon Basin to northern Argentina.[1] Amphisbaena alba has the largest geographic range of all the amphisbaenians.[2]

Reproduction edit

Reproduction for this species occurs in the dry season of its geographical area.[2] Some evidence suggests that this species exploits the living space of the leaf-cutting ant and may even use the nests of these ants to deposit its eggs.[2] A. alba lays the greatest number of eggs at a time (8–16) in comparison to other amphisbaenians, which is possibly due to its large body size.[2] There is no sexual dimorphism in regard to snout-vent length, meristic, or morphometric characters for A. alba most likely due to functional constraints related to their burrowing nature.[2]

The ultrastructure of epididymal spermatozoa has been studied for A. alba.[7] Mature spermatozoa are filiform and are characterized by features such as a depression in the transverse section of the acrosome, a moderately long midpiece, columnar mitochondria, an elongated nucleus, and a fibrous sheath in the midpiece.[7]

Epidermal glands are located in the cloacal region of A. alba and are most likely used for reproduction and marking territory.[8] The openings of the glands are plugged with a solid, holocrine secretion that is removed when it moves through tunnels and leaves a secretion trail.[8]

Erythrocyte characteristics edit

The stages of ultrastructural changes of organelles in developing erythroid cells are similar to the developmental changes in other vertebrate groups.[9] The greatest difference is the periodical transverse alignment of hemoglobin molecules in the organelle matrix of the hemosomes.[9] The transformation of the erythroid cell organelles for hemoglobin biosynthesis occurs slowly.[10] This is due to the low metabolic rate of A. alba which is a result of the hypoxic environment where it lives.[10]

Defensive tactics edit

When Amphisbaena alba assumes a defensive posture it bends its body into the shape of a horseshoe and raises both the head and the tail.[11] The tail is made of tough collagen bundles that allows the tail to absorb mechanical pressure from a bite.[11] The body of A. alba is also covered with a flexible armor which makes other areas resistant to bites as well.[11]

See also edit

References edit

  1. ^ a b c Ibáñez, R.; Jaramillo, C.; Cacciali, P.; Carreira, S.; Avila-Pires, T.C.S.; Aparicio, J.; Gonzales, L.; Perez, P.; Schargel, W.; Rivas, G.; Murphy, J. (2019). "Amphisbaena alba". IUCN Red List of Threatened Species. 2019: e.T176224A1436233. doi:10.2305/IUCN.UK.2019-3.RLTS.T176224A1436233.en. Retrieved 20 November 2021.
  2. ^ a b c d e f g h Guarino R. Colli & Dario S. Zamboni (1999). "Ecology of the worm-lizard Amphisbaena alba in the Cerrado of central Brazil". Copeia. 1999 (3): 733–742. doi:10.2307/1447606. JSTOR 1447606.
  3. ^ a b "Amphisbaena alba (White Worm Lizard)" (PDF). Sta.uwi.edu. Retrieved 9 April 2022.
  4. ^ https://www.reptilesofecuador.com/amphisbaena_alba.html
  5. ^ https://www.reptilesofecuador.com/amphisbaena_alba.html
  6. ^ Vieira, Jose (2021). "White Worm-Lizard (Amphisbaena alba)". Reptiles of Ecuador: Life in the middle of the world. Tropical Herping. doi:10.47051/sjxo6764.
  7. ^ a b Ruscaia D. Teixeira; Guarino R. Colli; Sônia N. Báo (1999). "The ultrastructure of the spermatozoa of the worm lizard Amphisbaena alba (Squamata, Amphisbaenidae) and the phylogenetic relationships of amphisbaenians". Canadian Journal of Zoology. 77 (8): 1254–1264. doi:10.1139/z99-089.
  8. ^ a b C. Jared; M. M. Antoniazzi; J. R. M. C. Silva & E. Freymüller (1999). "Epidermal glands in Squamata: microscopical examination of precloacal glands in Amphisbaena alba (Amphisbaenia, Amphisbaenidae)". Journal of Morphology. 241 (3): 197–206. doi:10.1002/(SICI)1097-4687(199909)241:3<197::AID-JMOR2>3.0.CO;2-5. PMID 10461130.
  9. ^ a b C. Jared; M. M. Antoniazzi; I. S. Sano-Martins; A. Brunner Jr. (1995). "Ultrastructural cytology of maturing erythroid cells in a fossorial reptile (Amphisbaena alba) with reference to hemoglobin biosynthesis". Comparative Biochemistry and Physiology A. 112 (3–4): 487–494. doi:10.1016/0300-9629(95)02017-9.
  10. ^ a b D. D. Spadacci-Morena; C. Jared; M. M. Antoniazzi; O. Brunner; P. Morena; A. Brunner Jr (1998). "Comparative cytomorphology of maturing amphisbaenian (Amphisbaena alba) and snake (Waglerophis merremii) erythroid cells with regard to haemoglobin biosynthesis". Comparative Haematology International. 8 (1): 7–15. doi:10.1007/BF02628098.
  11. ^ a b c Carlos Jared; Marta Marta Antoniazzi; Edna Freymüller; Luiz Carlos Uchôa Junquerira (1998). "A possible advantage of displaying the tail: a comparison between the tail and body integument structure in Amphisbaena alba and Leposternon microcephalum (Squamata, Amphisbaenia)". Annales des Sciences Naturelles – Zoologie et Biologie Animale. 19 (2): 89–97. doi:10.1016/S0003-4339(98)80003-8.

Further reading edit

  • Boulenger GA (1885). Catalogue of the Lizards in the British Museum (Natural History). Second Edition. Volume II ... Amphisbænidæ. London: Trustees of the British Museum (Natural History). (Taylor and Francis, printers). xiii + 497 pp. + Plates I–XXIV. (Amphisbæna alba, pp. 438–439).
  • Linnaeus C (1758). Systema naturae per regna tria naturae, secundum clases, ordines, genera, species, cum characteribus, differentiis, synonymis, locis. Tomus I. Editio Decima, Reformata. Stockholm: L. Salvius. 824 pp. (Amphisbæna alba, new species, p. 229).

External links edit

  •   Media related to Amphisbaena alba at Wikimedia Commons

December 13, 2023
amphisbaena, alba, also, known, worm, lizard, less, commonly, white, white, bellied, worm, lizard, species, amphisbaenian, reptilian, order, squamata, despite, large, geographic, range, that, this, species, covers, little, known, about, ecology, secretive, hab. Amphisbaena alba also known as the red worm lizard 1 or less commonly as the white or white bellied worm lizard is a species of amphisbaenian in the reptilian order Squamata Despite the large geographic range that this species covers little is known about its ecology due to its secretive habits 2 A alba has a diverse diet ranging from plant material to small vertebrates 2 such as lizards and their eggs snakes mice and other rodents 3 4 Numerically beetles ants and spiders compose the majority of their diet however ants insect larvae beetles cockroaches hemipterans mole crickets crickets grasshoppers termites spiders scorpions pseudoscorpions and annelids are ingested to satisfy a larger volume 2 3 5 The females are somewhat larger than the males and can reach over 80 cm which is quite large for an amphisbaenian They are known to bury themselves in leafcutter ant nests and hide in the ants garbage dump areas to avoid irritating the ants into attacking and to bury themselves to avoid predation in general 6 Amphisbaena albaConservation statusLeast Concern IUCN 3 1 1 Scientific classificationDomain EukaryotaKingdom AnimaliaPhylum ChordataClass ReptiliaOrder SquamataFamily AmphisbaenidaeGenus AmphisbaenaSpecies A albaBinomial nameAmphisbaena albaLinnaeus 1758Range of A alba in red in South America Contents 1 Geographic range 2 Reproduction 3 Erythrocyte characteristics 4 Defensive tactics 5 See also 6 References 7 Further reading 8 External linksGeographic range editIt occurs in South America from eastern Venezuela and the island of Trinidad through the entire Amazon Basin to northern Argentina 1 Amphisbaena alba has the largest geographic range of all the amphisbaenians 2 Reproduction editReproduction for this species occurs in the dry season of its geographical area 2 Some evidence suggests that this species exploits the living space of the leaf cutting ant and may even use the nests of these ants to deposit its eggs 2 A alba lays the greatest number of eggs at a time 8 16 in comparison to other amphisbaenians which is possibly due to its large body size 2 There is no sexual dimorphism in regard to snout vent length meristic or morphometric characters for A alba most likely due to functional constraints related to their burrowing nature 2 The ultrastructure of epididymal spermatozoa has been studied for A alba 7 Mature spermatozoa are filiform and are characterized by features such as a depression in the transverse section of the acrosome a moderately long midpiece columnar mitochondria an elongated nucleus and a fibrous sheath in the midpiece 7 Epidermal glands are located in the cloacal region of A alba and are most likely used for reproduction and marking territory 8 The openings of the glands are plugged with a solid holocrine secretion that is removed when it moves through tunnels and leaves a secretion trail 8 Erythrocyte characteristics editThe stages of ultrastructural changes of organelles in developing erythroid cells are similar to the developmental changes in other vertebrate groups 9 The greatest difference is the periodical transverse alignment of hemoglobin molecules in the organelle matrix of the hemosomes 9 The transformation of the erythroid cell organelles for hemoglobin biosynthesis occurs slowly 10 This is due to the low metabolic rate of A alba which is a result of the hypoxic environment where it lives 10 Defensive tactics editWhen Amphisbaena alba assumes a defensive posture it bends its body into the shape of a horseshoe and raises both the head and the tail 11 The tail is made of tough collagen bundles that allows the tail to absorb mechanical pressure from a bite 11 The body of A alba is also covered with a flexible armor which makes other areas resistant to bites as well 11 See also editList of reptiles of BrazilReferences edit a b c Ibanez R Jaramillo C Cacciali P Carreira S Avila Pires T C S Aparicio J Gonzales L Perez P Schargel W Rivas G Murphy J 2019 Amphisbaena alba IUCN Red List of Threatened Species 2019 e T176224A1436233 doi 10 2305 IUCN UK 2019 3 RLTS T176224A1436233 en Retrieved 20 November 2021 a b c d e f g h Guarino R Colli amp Dario S Zamboni 1999 Ecology of the worm lizard Amphisbaena alba in the Cerrado of central Brazil Copeia 1999 3 733 742 doi 10 2307 1447606 JSTOR 1447606 a b Amphisbaena alba White Worm Lizard PDF Sta uwi edu Retrieved 9 April 2022 https www reptilesofecuador com amphisbaena alba html https www reptilesofecuador com amphisbaena alba html Vieira Jose 2021 White Worm Lizard Amphisbaena alba Reptiles of Ecuador Life in the middle of the world Tropical Herping doi 10 47051 sjxo6764 a b Ruscaia D Teixeira Guarino R Colli Sonia N Bao 1999 The ultrastructure of the spermatozoa of the worm lizard Amphisbaena alba Squamata Amphisbaenidae and the phylogenetic relationships of amphisbaenians Canadian Journal of Zoology 77 8 1254 1264 doi 10 1139 z99 089 a b C Jared M M Antoniazzi J R M C Silva amp E Freymuller 1999 Epidermal glands in Squamata microscopical examination of precloacal glands in Amphisbaena alba Amphisbaenia Amphisbaenidae Journal of Morphology 241 3 197 206 doi 10 1002 SICI 1097 4687 199909 241 3 lt 197 AID JMOR2 gt 3 0 CO 2 5 PMID 10461130 a b C Jared M M Antoniazzi I S Sano Martins A Brunner Jr 1995 Ultrastructural cytology of maturing erythroid cells in a fossorial reptile Amphisbaena alba with reference to hemoglobin biosynthesis Comparative Biochemistry and Physiology A 112 3 4 487 494 doi 10 1016 0300 9629 95 02017 9 a b D D Spadacci Morena C Jared M M Antoniazzi O Brunner P Morena A Brunner Jr 1998 Comparative cytomorphology of maturing amphisbaenian Amphisbaena alba and snake Waglerophis merremii erythroid cells with regard to haemoglobin biosynthesis Comparative Haematology International 8 1 7 15 doi 10 1007 BF02628098 a b c Carlos Jared Marta Marta Antoniazzi Edna Freymuller Luiz Carlos Uchoa Junquerira 1998 A possible advantage of displaying the tail a comparison between the tail and body integument structure in Amphisbaena alba and Leposternon microcephalum Squamata Amphisbaenia Annales des Sciences Naturelles Zoologie et Biologie Animale 19 2 89 97 doi 10 1016 S0003 4339 98 80003 8 Further reading editBoulenger GA 1885 Catalogue of the Lizards in the British Museum Natural History Second Edition Volume II Amphisbaenidae London Trustees of the British Museum Natural History Taylor and Francis printers xiii 497 pp Plates I XXIV Amphisbaena alba pp 438 439 Linnaeus C 1758 Systema naturae per regna tria naturae secundum clases ordines genera species cum characteribus differentiis synonymis locis Tomus I Editio Decima Reformata Stockholm L Salvius 824 pp Amphisbaena alba new species p 229 External links edit nbsp Media related to Amphisbaena alba at Wikimedia Commons Retrieved from https en wikipedia org w index php title Amphisbaena alba amp oldid 1188183075, wikipedia, wiki, book, books, library,

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