• Not Evaluated
    NE
  • No Alien Population
    NA
  • Data Deficient
    DD
  • Minimal Concern
    MC
  • Minor
    MN
  • Moderate
    MO
  • Major
    MR
  • Massive
    MV
  • General
  • Distribution
  • Impact
  • Management
  • Bibliography
  • Contact
Common name
Asian common toad (English)
Synonym
Bufo melanostictus ,Schneider, 1799
Similar species
Summary
The species Duttaphrynus melanostictus is one of the most widespread species in its genus across tropical Southeast Asia. The species prays on native insects and other small vertebrate species. It causes decile in population size of reptiles and amphibians through completion and is a risk to human health due to its toxicity. The species is listed in the IUCN Red List of Threatened Species as Least Concern (IUCN, 2018).
Species Description
The colour of D. melanostictus is greyish or reddish brown. The size adults range from 60 to 99mm The body size of females is slightly larger than the body size of males (Berry & Bullock, 1962). The head has elevated bony ridges, with long dark crests that border the eyelids and run down on either side of the eye. Tadpoles are black and small, up to 15 mm long (Csurhes, 2016). The species is widely spread in Southeast Asia. It commonly occurs in northern Pakistan through Bangladesh, India, Sri Lanka, southern China, Myanmar, Laos, Viet Nam, Thailand, Cambodia to Malaysia, Singapore and parts of Indonesia.
Notes
According to species distribution models the species is potentially invasive to Madagascar and Australia (Csurhes, 2016; Moore et al., 2015). Individuals have never been recorded on the Australian mainland. However few individuals have been detected on shipping containers by Australian Quarantine and Inspection Service (AQIS) (Trainor, 2009).
Lifecycle Stages
The larvae metamorphosis happens within 25 to 30 days. The length of the larvae varies from 34 to 90 days. The average life span is 4 to 10 years (Berry & Bullock, 1962).
Uses
The species is introduced unintentional and intentional. In Timor-Leste the species was introduced to control mosquito numbers (Trainor, 2009).
Habitat Description
The species occurs naturally in open habitats such as grasslands and deciduous dipterocarp savannah but also in the proximity of human habitation and cultivation (Berry & Bullock, 1962; Wogan et al., 2016). It occurs up to a sea level of 2000m in temperate, tropical and sub-tropical habitats. The species can tolerate a salinity level of up to 1% (McClelland et al, 2015).
Reproduction
The species is oviparous. The Asian common toad (D. melanostictus) breeds twice per year, most likely once per year, depending on rainfall and temperature. The breeding kates place in still water bodies or slowly moving river streams. The breeding season in semitropical regions in Asia dues from February to April (Huang et al., 1997). “Males congregate at breeding sites where they call to females. The call is a ‘creo-o-o’; cro-ro-ro-ro-ro-ro’ that is repeated in choruses rather monotonously. The calling males may be heard throughout the night during rain and sometimes on overcast days”, (Daniels 2005: in Csurhes, 2016). Approximately 40,000 eggs are laid per clutch.
Nutrition
D. melanostictus mainly feeds on insects within a size rage of 5.0 to 20.0 mm (Berry & Bullock, 1962).

Principal source: Csurhes, 2016. Berry & Bullock, 1962. Trainor, 2009.

Compiler:

Review:

Publication date:

Recommended citation: Global Invasive Species Database (2024) Species profile: Duttaphrynus melanostictus. Downloaded from http://iucngisd.org/gisd/species.php?sc=1904 on 04-12-2024.

General Impacts
The species has been introduced to Maluka, Papua and Sulawesi, reported in Timor Leste and Madagascar. The Asian common toad has been intercepted at Australian borders. Impact on human health: The species is toxic. Contact with the toxins in parotid glands on its back can cause allergic reactions, because of several bioactive compounds with lethal, hypotensive, hypertensive, neurotoxic, cardio toxic, hemolytic and sleep inducing factors (Das et al. 2000). In Timor-Leste the species became a public health issue, because villagers, who’s diet include native toads, have poisoned themselves eating the toxic alien toad species. The consumption of the species can cause serious illness and sometimes death (McCelland et al, 2015). In Laos the death of a 6 year old boy was reported after he had consumed a dish containing grilled Asian common toad. Several other cases were reported, where patients suffered from severe vomiting few hours after eating the species. Toad poisonning is serious impact on human heath in the rural area of Laos (Keomany et al., 2007). Impact on biodiversity: In Madagascar the Asian common toad is currently spreading rapidly. There are fears that it could have severe ecological impacts on amphibian prey species (van Dijk et al., 2004). In areas where the species established the species is impacting native species richness. Several native species populations declined after the arrival of D. melanostictus (Trainor, 2009). Small native species are impacted by direct toad predation. The species prays on populations of small isect groups, scincid lizards, geckos and land snails (Trainor, 2009). The impact of D. melanostictus on livestock is unknown.
Management Info
The spread of the species is influenced by climate, availability of wetland sites for breeding, daytime shelter and food. The population’s increse is positivley correlated to the rainfall (Trainor, 2009). Early detetction mesures: It is recommanded to implement quarantine procedures in all regions where the species could potentially invade(Trainor, 2009). Andreone (2014) recommands to use genetic analyses to identify the source of introduction and will screen toads for pathogens and parasites. Public education and awareness: It is of high impotance to increse the public awareness to ensure the identification of the species. Eradication actions need to be carefully considered in order to protect native tead populations in the same place (Mecke, 2014). Larvae of D. melanostictus, for example, survive in streams, puddles and brackish waters (Mecke, 2014).
Countries (or multi-country features) with distribution records for Duttaphrynus melanostictus
NATIVE RANGE
  • bangladesh
  • bhutan
  • cambodia
  • china
  • hong kong
  • india
  • lao people's democratic republic
  • macao
  • malaysia
  • myanmar
  • nepal
  • pakistan
  • singapore
  • sri lanka
  • taiwan
  • thailand
  • viet nam
Informations on Duttaphrynus melanostictus has been recorded for the following locations. Click on the name for additional informations.
Lorem Ipsum
Location Status Invasiveness Occurrence Source
Details of Duttaphrynus melanostictus in information
Status
Invasiveness
Arrival date
Occurrence
Source
Introduction
Species notes for this location
Location note
Management notes for this location
Impact
Mechanism:
Outcome:
Ecosystem services:
Impact information
The species has been introduced to Maluka, Papua and Sulawesi, reported in Timor Leste and Madagascar. The Asian common toad has been intercepted at Australian borders. Impact on human health: The species is toxic. Contact with the toxins in parotid glands on its back can cause allergic reactions, because of several bioactive compounds with lethal, hypotensive, hypertensive, neurotoxic, cardio toxic, hemolytic and sleep inducing factors (Das et al. 2000). In Timor-Leste the species became a public health issue, because villagers, who’s diet include native toads, have poisoned themselves eating the toxic alien toad species. The consumption of the species can cause serious illness and sometimes death (McCelland et al, 2015). In Laos the death of a 6 year old boy was reported after he had consumed a dish containing grilled Asian common toad. Several other cases were reported, where patients suffered from severe vomiting few hours after eating the species. Toad poisonning is serious impact on human heath in the rural area of Laos (Keomany et al., 2007). Impact on biodiversity: In Madagascar the Asian common toad is currently spreading rapidly. There are fears that it could have severe ecological impacts on amphibian prey species (van Dijk et al., 2004). In areas where the species established the species is impacting native species richness. Several native species populations declined after the arrival of D. melanostictus (Trainor, 2009). Small native species are impacted by direct toad predation. The species prays on populations of small isect groups, scincid lizards, geckos and land snails (Trainor, 2009). The impact of D. melanostictus on livestock is unknown.
Red List assessed species 3: LC = 3;
Locations
LAO PEOPLE'S DEMOCRATIC REPUBLIC
TIMOR-LESTE
Mechanism
[1] Competition
[1] Predation
[2] Poisoning/Toxicity
Outcomes
[1] Environmental Ecosystem - Habitat
  • [1] Reduction in native biodiversity
[1] Environmental Species - Population
  • [1] Population size decline
[2] Socio-Economic
  • [2] Human health
Management information
The spread of the species is influenced by climate, availability of wetland sites for breeding, daytime shelter and food. The population’s increse is positivley correlated to the rainfall (Trainor, 2009). Early detetction mesures: It is recommanded to implement quarantine procedures in all regions where the species could potentially invade(Trainor, 2009). Andreone (2014) recommands to use genetic analyses to identify the source of introduction and will screen toads for pathogens and parasites. Public education and awareness: It is of high impotance to increse the public awareness to ensure the identification of the species. Eradication actions need to be carefully considered in order to protect native tead populations in the same place (Mecke, 2014). Larvae of D. melanostictus, for example, survive in streams, puddles and brackish waters (Mecke, 2014).
Locations
Management Category
Prevention
Bibliography
17 references found for Duttaphrynus melanostictus

Management information
wa.gov.au (2017). https://www.agric.wa.gov.au/amphibians-and-reptiles/biosecurity-alert-asian-black-spined-toad?nopaging=1
Andreone, F. (2014). Madagascar: Risk review is under way for invasive toad. Nature, 512(7514), 253-253.
Keomany S, Mayxay M, Souvannasing P, Vilayhong C, Stuart BL, Srour L and Newton PN (2007) Toad poisoning in Laos. Am. J. Trop. Med. Hyg. 77(5):.850–853
McClelland, P., Reardon, J. T., Kraus, F., Raxworthy, C. J., & Randrianantoandro, C. (2015). Asian toad eradication feasibility report for Madagascar. Te Anau, New Zealand.
Mecke, S. (2014). Invasive species: review risks before eradicating toads. Nature, 511(7511), 534-534.
Moore M; Fidy JFSN; Edmonds D, 2015. The new toad in town: distribution of the Asian toad, Duttaphrynus melanostictus, in the Toamasina area of eastern Madagascar. Tropical Conservation Science, 8(2):440-455. http://tropicalconservationscience.mongabay.com/content/v8/tcs_v8i2_439-454_Moore.pdf
Trainor, C.R. 2009. Survey of a population of black-spined toad Bufo melanostictus in Timor-Leste: confirming identity, distribution, abundance and impacts of an invasive and toxic toad. Report by Charles Darwin University to AusAID, contract agreement 52294: 4
General information
Berry, P. Y., & Bullock, J. A. (1962). The food of the common Malayan toad, Bufo melanostictus Schneider. Copeia, 736-741. Chicago
Church, G. (1960). The invasion of Bali by Bufo melanostictus. Herpetologica, 16(1), 15-21.
Kaiser H; Lopes Carvalho V; Ceballos J; Freed P; Heacox S; Lester B; Richards SJ; Trainor CR; Sanchez C; O'Shea M, 2001. The herpetofauna of Timor-Leste: a first report. Zookeys, No. 109:19-86. https://doi.org/10.3897/zookeys.109.1439
DAISIE (Delivering Alien Invasive Species Inventories for Europe), 2018. http://www.europe-aliens.org/speciesFactsheet.do?speciesId=50028#
O'Shea M; Sanchez C; Kathriner A; Mecke S; Lopes Carvalho V; Varela Ribeiro A; Afranio Soares Z; Lemos Araujo L de; Kaiser H, 2015. Herpetological diversity of Timor-Leste: updates and a review of species distributions. Asian Herpetological Research, 6(2):73-131.
Wogan GOU; Stuart BL; Iskandar DT; McGuire JA, 2016. Deep genetic structure and ecological divergence in a widespread human commensal toad. Biology Letters, 12(1):20150807. http://rsbl.royalsocietypublishing.org/content/12/1/20150807
Contact
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MR
Duttaphrynus melanostictus
Asian common toad
Date assessed
2020-11-06
Year published
2021
Eicat category
MR (Major)
Justification for EICAT assessment


Populations of Ingerophrynus biporcatus have been dispaced and potententially eliminated in certain areas by Duttaphrynus melanostictus in Bali (Church 1960).
Confidence rating
Low
Mechanism(s) of maximum impact
Competition
Countries of most severe impact
Indonesia
Description of impacts
Competition - Duttaphrynus melanostictus displaced the native Ingerophrynus biporcatusin Bali, Indonesia through competition for habitat. Poisoning/toxicity - Due to its toxicity, the presence of Duttaphrynus melanostictus in Timor-Leste has been associated with the decline of native Trimesurus insularis, Varanus glauerti as well as native quail species.
Assessor
Carla Wagener; Giovanni Vimercati; Sabrina Kumschick
Contributors
John Measey; Mohlamatsane Mokhatla; James Baxter-Gilbert; Corey Thorp; Alexander D. Rebelo; Sarah J. Davies; F. André de Villiers; Nitya Prakash Mohanty; Khensani Nkuna
Reviewers
EICAT authority
Recommended citation
Carla Wagener, Giovanni Vimercati, Sabrina Kumschick (2024). Duttaphrynus melanostictus. IUCN Environmental Impact Classification for Alien Taxa (EICAT).