Bothrops neuwiedi
{{Short description|Species of snake}}
{{Speciesbox
| image = Bothropoides neuwiedi - Jardim Zoológico de Brasília - DSC09973.JPG
| status = LC
| status_system = IUCN3.1
| genus = Bothrops
| species = neuwiedi
| authority = Wagler, 1824
| synonyms = * Bothrops Neuwiedi
{{small|Wagler, 1824}}
- Lachesis neuwiedii
{{small|— Boulenger, 1896}} - Lachesis neuwiedi
{{small|— Berg, 1898}} - Bothrops neuwiedii neuwiedii
{{small|— Amaral, 1925}} - Trimeresurus neuwiedii
{{small|— Pope, 1944}} - Bothrops neuwiedi neuwiedi
{{small|— Hoge, 1966}}McDiarmid RW, Campbell JA, Touré TA (1999). Snake Species of the World: A Taxonomic and Geographic Reference, Volume 1. Washington, District of Columbia: Herpetologists' League. 511 pp. {{ISBN|1-893777-00-6}} (series). {{ISBN|1-893777-01-4}} (volume). - Bothropoides neuwiedi
{{small|— Fenwick et al., 2009}}"Bothrops neuwiedi ". The Reptile Database. www.reptile-database.org.
}}
:Common names: Neuwied's lancehead,Silva VX da (2004). "The Bothrops neuwiedi complex". In: Campbell JA, Lamar WW (2004). The Venomous Reptiles of the Western Hemisphere. Ithaca and London: Comstock Publishing Associates. 870 pp. 1,500 plates. {{ISBN|0-8014-4141-2}}. jararaca pintada.U.S. Navy (1991). Poisonous Snakes of the World. New York: United States Government/Dover Publications Inc. 203 pp. {{ISBN|0-486-26629-X}}.
Bothrops neuwiedi is a highly venomous pit viper species endemic to South America. This relatively small snake has a wide range and is a major source of snakebite in Argentina. It was named after German naturalist Prince Maximilian of Wied-Neuwied (1782-1867), who made important collections in Brazil (1815-1817).Beolens, Bo; Watkins, Michael; Grayson, Michael (2011). The Eponym Dictionary of Reptiles. Baltimore: Johns Hopkins University Press. xiii + 296 pp. {{ISBN|978-1-4214-0135-5}}. (Bothrops neuwiedi, p. 189; "Maximilian", p. 171). Seven subspecies are currently recognized, including the nominate subspecies described here.{{ITIS|id=634876|taxon=Bothrops neuwiedi |accessdate=24 July 2008}}
Description
Adults of B. neuwiedi average {{convert|60|–|70|cm|in|frac=2}} in total length (including tail), but may grow to as much as {{convert|100|cm|in|frac=2|abbr=on}}.
Head scalation includes 7-11 keeled intrasupraoculars (rarely 12 or as few as five), 9-13 sublabials (usually 10–11) and seven to eight supralabials (rarely seven or 10), the second of which is not fused with and usually separated from the prelacunal. Two rows of small scales usually separate the subocular and fourth supralabial scales. At midbody the 22-29 (usually 25–27) rows of dorsal scales are strongly keeled. The ventral scales number 158-179 and 164–185 in males and females, respectively, while the subcaudal scales are divided and number 39-56 or 34–51 in males or females.
The color pattern consists of a brown or dark-brown ground color overlaid with a series of 16-27 dark brown or black dorsolateral blotches. The blotches are edged in white and may be trapezoidal, triangular, subtriangular, or headphone-shaped and oppose each other middorsally. The belly is white or yellow with gray speckling. Juveniles have a white tail tip.
Geographic range
The species B. neuwiedi is found in South America east of the Andes and south of approx. 5°S, including Brazil (southern Maranhão, Piauí, Ceará, Bahia, Goiás, Mato Grosso, an isolated population in Amazonas, Rondônia and all southern states), Bolivia, Paraguay, Argentina (Catamarca, Córdoba, Corrientes, Chaco, Entre Ríos, Formosa, Jujuy, La Pampa, La Rioja, Mendoza, Misiones, Salta, San Juan, San Luis, Santa Fe, Santiago del Estero and Tucumán) and Uruguay. According to Vanzolini (1981), the type locality given is "provincia Bahiae" (Bahia province, Brazil).
Habitat
Bothrops neuwiedi inhabits tropical and semitropical deciduous forest, as well as temperate forest and Atlantic Coast restingas, and is associated with dry or semiarid rocky areas in almost all cases.
Venom
Bothrops neuwiedi is one of the main causes of snakebite in Argentina: between 1960 and 1975, according to Esteso (1985), 80% of the approximately 500 cases reported each year were attributed to B. n. diporus.Warrell DA (2004). "Snakebites in Central and South America: Epidemiology, Clinical Features, and Clinical Management". In Campbell JA, Lamar WW (2004). The Venomous Reptiles of the Western Hemisphere. Ithaca and London: Comstock Publishing Associates. 870 pp. 1,500 plates. {{ISBN|0-8014-4141-2}}.
In a review of the symptoms in all 18 bite cases for this species admitted to the hospital in São Paulo between 1975 and 1992, Jorge and Ribeiro (2000) found all suffered pain, 83% had swelling, 50% had bruising, 17% had necrosis, 12% developed coagulopathy and 5% had abscesses, can also cause high blood pressure and collapse. In a case in Germany, a 36-year-old snake keeper was bitten on the finger and developed hemorrhagic "necrosis" of the afflicted digit and swelling that extended onto the hand. Five hours after being bitten, his blood had a normal platelet count, but was incoagulable with a reduced fibrinogen concentration, elevated fibrin degradation products and D-dimer. B. neuwiedi venom directly activates factor II and factor X, but doesn't activate factor XIII. At low venom concentrations clotting is initiated by the activation of prothrombin by the venom either directly or via factor X activation. Treatment with heparin might be beneficial in coagulopathy secondary to snake bite by reducing the circulating active thrombin. The venom has thrombin-like proteases which causes slow clotting fibrinogen, and plasmin-like components causing further proteolysis of fibrinogen and fibrin.{{Cite journal|last1=Dempfle|first1=C. E.|last2=Kohl|first2=R.|last3=Harenberg|first3=J.|last4=Kirschstein|first4=W.|last5=Schlauch|first5=D.|last6=Heene|first6=D. L.|date=December 1990|title=Coagulopathy after snake bite by Bothrops neuwiedi: case report and results of in vitro experiments |url=https://pubmed.ncbi.nlm.nih.gov/2291986/|journal=Blut|volume=61|issue=6|pages=369–374 |doi=10.1007/BF01738552|issn=0006-5242|pmid=2291986|s2cid=23144305 }} The average venom yield ranges from {{cvt |25|to|40|mg}} (dry weight).{{Cite web |title=WCH Clinical Toxinology Resources |url=http://www.toxinology.com/fusebox.cfm?fuseaction=main.snakes.display&id=SN0408 |access-date=2022-06-15 |website=www.toxinology.com}}
Three different antivenins, Soro Antibotropico-Crotalico, Soro Antibotropico-Laquetico and Soro Botropico, can be used to treat bites from this species. All three are manufactured by the Instituto Butantan in Brazil and contain specific antibodies to counteract the effects of the venom.{{cite web |url=http://www.toxinfo.org/antivenoms/indication/BOTHROPS_NEUWIEDI.html|title= Bothrops neuwiedi |website= Munich AntiVenom INdex (MAVIN) | access-date= 24 July 2008}}
Subspecies
| cellspacing=0 cellpadding=2 border=1 style="border-collapse: collapse;"
!bgcolor="#f0f0f0"|Taxon author !bgcolor="#f0f0f0"|Common name !bgcolor="#f0f0f0"|Geographic range |
| B. n. bolivianus
|Amaral, 1927 | |style="width:40%"| |
| B. n. goyazensis
|Amaral, 1925 | | |
| B. n. meridionalis
|F. Müller, 1885 | | |
| B. n. neuwiedi
|Wagler, 1824 |Neuwied's lancehead | |
| B. n. paramanensis
|Amaral, 1925 | | |
| B. n. piauhyensis
|Amaral, 1925 | | |
| B. n. urutu
|Orejas-Miranda, 1970 | | |
Taxonomy
Formerly twelve subspecies were recognized by Peters and Orejas-Miranda (1970), Campbell and Lamar (1989), and Golay et al. (1993). A revision by Silva (2000) elevated five taxa to full species: B. diporus, B. lutzi, B. mattogrossensis, B. pauloensis, B. pubescens; and identified one unnamed new species. In some cases, intergradation may occur. Together, these are referred to as the Bothrops neuwiedi complex.
References
{{Reflist}}
Further reading
External links
- {{NRDB species|genus=Bothrops|species=neuwiedi|date=3 November|year=2012}}
{{Bothrops}}
{{Taxonbar|from=Q2606164}}