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Electric ant

February 16, 2024

For the short story by Philip K. Dick or the ant with the similar name, see The Electric Ant and fire ant.

The little fire ant (Wasmannia auropunctata), also known as the electric ant, is a small (approx 1.5 mm (116 in) long), light to golden brown (ginger) social ant native to Central and South America, now spread to parts of Africa (including Gabon and Cameroon), Taiwan,[2] North America, Puerto Rico,[3] Israel,[4][5] Cuba, and six Pacific Island groups (including the Galápagos Islands, Hawaii, New Caledonia and the Solomon Islands) plus north-eastern Australia (Cairns).[6] It is a very harmful invasive species.

Electric ant
Worker
Scientific classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Arthropoda
Class: Insecta
Order: Hymenoptera
Family: Formicidae
Subfamily: Myrmicinae
Genus: Wasmannia
Species:
W. auropunctata
Binomial name
Wasmannia auropunctata
(Roger, 1863) [1]

The name, electric ant (or little fire ant), derives from the ant's painful sting relative to its size.[7]

W. auropunctata biting a human

Description edit

The ant is described as follows:[8]

Wasmannia auropunctata workers are monomorphic, which means they display no physical differentiation... The ants are typically small to medium-sized, with the workers ranging from 1-2mm ... [It] is light to golden brown in color. The gaster is often darker. The pedicel, between the thorax and gaster, has two segments; the petiole and postpetiole. The petiole is "hatchet-like", with a node that is almost rectangular in profile and higher than the postpetiole. The antennae have 11 segments, with the last two segments greatly enlarged into a distinct club. The antennal scape (the first segment) is received into a distinct groove (scrobe) that extends almost to the posterior border of the head. The thorax has long and sharp epinotal spines. The body is sparsely covered with long, erect hairs. This species is well-known for a painful sting, seemingly out of proportion to its size.

Reproduction edit

In Wasmannia auropunctata, queens produce more queens through parthenogenesis. Sterile workers usually are produced from eggs fertilized by males. In some of the eggs fertilized by males, however, the fertilization can cause the female genetic material to be ablated from the zygote. In this way, males pass on only their genes to become fertile male offspring. This is the first recognized example of an animal species where both females and males can reproduce clonally resulting in a complete separation of male and female gene pools.[9][10]

These ants get the benefits of both asexual and sexual reproduction[9][11] - the daughters who can reproduce (the queens) have all of the mother's genes, while the sterile workers whose physical strength and disease resistance are important are produced sexually.

Automixis edit

Parthenogenesis is a natural form of reproduction in which growth and development of embryos occur without fertilization. Thelytoky is a particular form of parthenogenesis in which the development of a female individual occurs from an unfertilized egg. Automixis is a form of thelytoky, but there are several kinds of automixis. The kind of automixis relevant here is one in which two haploid products from the same meiosis combine to form a diploid zygote.

 
Central fusion and terminal fusion automixis

W. auropunctata thelytokous queens from clonal populations can reproduce by automictic parthenogenesis involving central fusion of haploid meiotic products, a process that allows conservation of heterozygosity in progeny.[12] The same parthenogenic queens that produce progeny by automixis may also produce normally segregating meiotic oocytes, which upon fertilisation by males give rise to diploid workers.

The oocytes that undergo automixis display much lower rates of crossover recombination (by a factor of 45) than the oocytes produced by sexually reproducing queens that give rise to workers. These low recombination rates in automictic oocytes favor maintenance of heterozygosity, and allow only very low rates of transition from heterozygosity to homozygosity (0 to 2.8%).[12] The sharp decrease in recombination rates likely allows clonal queens using automixis to benefit from thelytoky (transmission of their entire genomes to individual progeny), while also avoiding the potential for inbreeding depression that would result from random fusion of meiotic products leading to loss of heterozygosity.

In general, parthenogenesis appears to be favored in recently disturbed habitats (such as produced by floods, fires and glaciers).[13] The clonal populations of W. auropunctata are mostly found in habitats disturbed by recent human activity.[12]

Ecology edit

The native range of the little fire ant is in almost all portions of South America and Central America, excluding colder climate regions. Little fire ants are habitat generalists that tend to colonize areas associated with humans in warmer regions. These habitats include forest edges, managed forests, agricultural fields and plantations.[14][15] Little fire ants are generalists that consume other insects, decaying vegetation, seeds, and plants. These ants also consume honeydew and engage in mutualistic symbiotic relationships with other herbivorous insects, such as aphids.[14][15] The little fire ants are effective predators that have a venomous sting that can subdue large insects and vertebrate prey.[16]

Little fire ants establish colonies under rocks and plant litter. These ants are also considered a residential pest as they establish colonies in furniture, food, and clothing in people's homes. Colony movement can be amplified after a heavy rainstorm.[17][18]

Invasive species edit

The little fire ant has been introduced on plantations in Gabon and Cameroon to be used as a biological control agent.[8] The species has been unintentionally transported from its native range to Africa, North America, Puerto Rico, Cuba, Israel, Taiwan,[2] and multiple Pacific Island groups.[15][17] Invading ants cannot survive in global regions that have cold environments. But, little fire ants are found in Canada and England where they find refuge in large human infrastructure and greenhouses.[19] Human disturbed landscapes – such as the practice of monocultures, and the deforestation of land – have caused an explosion in the little fire ant population in regions of Brazil and Colombia which have a prevalence of cocoa farms and sugarcane monocultures. In Colombia, research shows that high abundance little fire ant populations reduce other ant diversity in heavily deforested regions.[18]

The little fire ant preys on native insects, causing a decline in population densities, and they can also attack small to medium-sized vertebrates if the ant colonies are disturbed.[14] Throughout their invasive and native range, the little fire ant reduces native ant diversity when successfully colonized.[20] These ants successfully outcompete the other ants because they exploit a multitude of resources other species need to survive, including honeydew residues, nectar and refuges in vegetation.

Pets and large domestic animals (such as cats and dogs) stung around the eyes by this ant are known to develop blindness.[15] In the Galapagos Islands, the little fire ant is regarded as one of the most aggressive species introduced to this region. The ant has contributed to the decline in tortoise populations, as these ants eat the tortoise hatchlings and attack the eyes of adult tortoises. Furthermore, large population declines of scorpions, spiders, and native ants can be directly attributed to the invasive ant.[21][22][23]

When humans are encountered, these ants have a powerful sting in proportion to its size. The sting causes inch long welts that are itchy and painful. Some workers and farmers may have issues properly harvesting crops in high density little fire ant agricultural areas.[17]

Research shows that the ant can strip nutrients from agricultural plants, which increases crop susceptibility to disease and other herbivorous insect pests. As a result of the ant's presence in agricultural fields, crop yields diminish, and have a negative economic effect on any particular agricultural industry affected by the ant.[17]

Control strategies edit

There are several proposed control and prevention strategies that have been taken to help minimize or eradicate the little fire ant. The Pacific Ant Prevention Program is a proposal that illustrates prevention methods within the islands located throughout the Pacific region in Polynesia (such as Hawaii and Futuna) for invasive ant species including the little fire ant. The program was initiated to provide improved quarantine protocols for the Polynesian area, in addition to raising awareness of the possible impact of the little fire ant.[20] In 1999, the Hawaiian State Department of Agriculture proposed a 100% inspection policy on all plant material exported from the state to check for the ant so that it cannot spread to other regions.[15]

Generally, better agricultural land management—including the reduction of monocultures and lower crop production—can reduce little fire ant populations. In addition, proper land management plans can alleviate ant population spikes that occur in highly degraded areas. When first constructing an agricultural field, minimizing landscape changes—such a deforestation—can prevent or reduce the population density of the little fire ant.[18]

Chemicals and pesticides have been employed in smaller density ant populations in the Galapagos Islands. These little fire ant populations were no bigger than approximately 24 hectares.[23] Other control methods such as non-selective ant poisons, fire and vegetation clearing have been successful on small ant populations and small islands.

Keratopathy edit

There is a strong suspicion of a link between Florida keratopathy or tropical keratopathy and presence of W. auropunctata.[24]

References edit

  1. ^ "Wasmannia auropunctata". Integrated Taxonomic Information System.
  2. ^ a b Lee, C.-C.; Hsu, P.-W.; Hsu, F.-C.; Shih, C.-H.; Hsiao, Y.-C.; Yang, C.-C.; Lin, C.-C. (2021). "First Record of the Invasive Little Fire Ant (Wasmannia auropunctata) (Hymenoptera: Formicidae) in Taiwan: Invasion Status, Colony Structure, and Potential Threats". Formosan Entomologist (in Chinese (Taiwan)). 41 (3): 172–181. doi:10.6662/TESFE.202108_41(3).004. ISSN 2414-1194.
  3. ^ "El Yunque National Forest – Home".
  4. ^ Vonshak, Merav; T. Dayan; A. Ionescu-Hirsch; A. Freidberg; A. Hefetz (2009). "The little fire ant Wasmannia auropunctata: a new invasive species in the Middle East and its impact on the local arthropod fauna". Biological Invasions. 12 (6): 1825–1837. doi:10.1007/s10530-009-9593-2.
  5. ^ Foucaud, Julien; et al. (2010). "Worldwide invasion by the little fire ant: routes of introduction and eco-evolutionary pathways". Evolutionary Applications. 3 (4): 363–374. doi:10.1111/j.1752-4571.2010.00119.x. PMC 3352468. PMID 25567931.
  6. ^ Electric ant (Wasmannia auropunctata) webpage 2009-02-14 at the Wayback Machine Accessed 7 March 2009
  7. ^ Queensland Government Electric Ant: Warning 2011-02-18 at the Wayback Machine Accessed 7 March 2009
  8. ^ a b Global Invasive Species Database, 31 Oct 2009 (archived)
  9. ^ a b Fournier, Denis; Estoup, Arnaud; Orivel, Jérôme; Foucaud, Julien; Jourdan, Hervé; Breton, Julien Le; Keller, Laurent (2005). "Clonal reproduction by males and females in the little fire ant" (PDF). Nature. 435 (7046): 1230–4. doi:10.1038/nature03705. PMID 15988525.
  10. ^ Queller, David (2005). "Evolutionary Biology: Males from Mars". Nature. 435 (7046): 1167–8. doi:10.1038/4351167a. PMID 15988503.
  11. ^ Pearcy, M.; Aron, S; Doums, C; Keller, L (2004). "Conditional Use of Sex and Parthenogenesis for Worker and Queen Production in Ants". Science. 306 (5702): 1780–3. doi:10.1126/science.1105453. PMID 15576621.
  12. ^ a b c Rey O, Loiseau A, Facon B, Foucaud J, Orivel J, Cornuet JM, Robert S, Dobigny G, Delabie JH, Mariano Cdos S, Estoup A (2011). "Meiotic recombination dramatically decreased in thelytokous queens of the little fire ant and their sexually produced workers". Mol. Biol. Evol. 28 (9): 2591–601. doi:10.1093/molbev/msr082. PMID 21459760.
  13. ^ Bernstein H, Byerly HC, Hopf FA, Michod RE (1985). "Sex and the emergence of species". J. Theor. Biol. 117 (4): 665–90. Bibcode:1985JThBi.117..665B. doi:10.1016/S0022-5193(85)80246-0. PMID 4094459.
  14. ^ a b c Ness, J. H.; Bronstein, J. L. (2004-01-01). "The effects of invasive ants on prospective ant mutualists". Biological Invasions. 6 (4): 445–461. doi:10.1023/B:BINV.0000041556.88920.dd. ISSN 1387-3547.
  15. ^ a b c d e "MIME Attachment ViewInvasion Biology Introduced Species Summary Project – Columbia University". www.columbia.edu. Retrieved 2017-05-05.
  16. ^ Holway, D.A. (2002). "The Causes and Consequences of Ant Invasions". Annual Review of Ecology and Systematics. 33: 181–233. doi:10.1146/annurev.ecolsys.33.010802.150444. S2CID 16691880.
  17. ^ a b c d "little fire ant – Wasmannia auropunctata (Roger)". entnemdept.ufl.edu. Retrieved 2017-05-05.
  18. ^ a b c Armbrecht, I.; Ulloa-Chacón, P. (2003). "The Little Fire ant Wasmannia auropunctata (Roger) (Hymenoptera: Formicidae) as a Diversity Indicator of Ants in Tropical Dry Forest Fragments of Colombia". Environmental Entomology. 32 (3): 542–547. doi:10.1603/0046-225x-32.3.542.
  19. ^ Wetterer, JK; Porter, SD (2003). "The little fire ant, Wasmannia auropunctata: distribution, impact, and control". Sociobiology. 42: 1–41.
  20. ^ a b www.upane.it, Upane -. "GISD". www.iucngisd.org. Retrieved 2017-05-05.
  21. ^ Lubin, Yael D. (1984-01-01). "Changes in the native fauna of the Galápagos Islands following invasion by the little red fire ant, Wasmannia auropunctata". Biological Journal of the Linnean Society. 21 (1–2): 229–242. doi:10.1111/j.1095-8312.1984.tb02064.x. ISSN 1095-8312.
  22. ^ Clark; et al. (1982). "The tramp ant Wasmannia auropunctata: Autecology and effects on ant diversity and distribution on Santa Cruz Island, Galapagos". Biotropica. 14 (3): 196–207. doi:10.2307/2388026. JSTOR 2388026.
  23. ^ a b Roque-Albelo, L; Causton, C (1999). "El Nino and Introduced Insects in the Galapagos Islands: Different Dispersal Strategies, Similar Effects". Noticias de Galápagos. 60: 30–36.
  24. ^ Theron, Leonard (2005). "Wasmannia auropunctata linked keratopathy Hypothesis – The Polynesian Case". Doctorate in Veterinary Medicine Master. hdl:2268/652.

External links edit

 
Wikimedia Commons has media related to Wasmannia auropunctata.
 
Wikispecies has information related to Wasmannia auropunctata.
  • University of Hawaii Alert: "Identifying the little Fire Ant" (includes photo)Accessed 8 March 2009
  • Australian Pests and Diseases: Wasmannia auropunctata (images & description)
  • "Little Fire Ants in Hawaiʻi". Spot the Ant and Stop the Ant. Hawaii Department of Agriculture. 2021-10-01. Retrieved 2021-10-03.

February 16, 2024
electric, short, story, philip, dick, with, similar, name, electric, fire, little, fire, wasmannia, auropunctata, also, known, electric, small, approx, long, light, golden, brown, ginger, social, native, central, south, america, spread, parts, africa, includin. For the short story by Philip K Dick or the ant with the similar name see The Electric Ant and fire ant The little fire ant Wasmannia auropunctata also known as the electric ant is a small approx 1 5 mm 1 16 in long light to golden brown ginger social ant native to Central and South America now spread to parts of Africa including Gabon and Cameroon Taiwan 2 North America Puerto Rico 3 Israel 4 5 Cuba and six Pacific Island groups including the Galapagos Islands Hawaii New Caledonia and the Solomon Islands plus north eastern Australia Cairns 6 It is a very harmful invasive species Electric antWorkerScientific classificationDomain EukaryotaKingdom AnimaliaPhylum ArthropodaClass InsectaOrder HymenopteraFamily FormicidaeSubfamily MyrmicinaeGenus WasmanniaSpecies W auropunctataBinomial nameWasmannia auropunctata Roger 1863 1 The name electric ant or little fire ant derives from the ant s painful sting relative to its size 7 W auropunctata biting a humanContents 1 Description 2 Reproduction 3 Automixis 4 Ecology 5 Invasive species 6 Control strategies 7 Keratopathy 8 References 9 External linksDescription editThe ant is described as follows 8 Wasmannia auropunctata workers are monomorphic which means they display no physical differentiation The ants are typically small to medium sized with the workers ranging from 1 2mm It is light to golden brown in color The gaster is often darker The pedicel between the thorax and gaster has two segments the petiole and postpetiole The petiole is hatchet like with a node that is almost rectangular in profile and higher than the postpetiole The antennae have 11 segments with the last two segments greatly enlarged into a distinct club The antennal scape the first segment is received into a distinct groove scrobe that extends almost to the posterior border of the head The thorax has long and sharp epinotal spines The body is sparsely covered with long erect hairs This species is well known for a painful sting seemingly out of proportion to its size Reproduction editIn Wasmannia auropunctata queens produce more queens through parthenogenesis Sterile workers usually are produced from eggs fertilized by males In some of the eggs fertilized by males however the fertilization can cause the female genetic material to be ablated from the zygote In this way males pass on only their genes to become fertile male offspring This is the first recognized example of an animal species where both females and males can reproduce clonally resulting in a complete separation of male and female gene pools 9 10 These ants get the benefits of both asexual and sexual reproduction 9 11 the daughters who can reproduce the queens have all of the mother s genes while the sterile workers whose physical strength and disease resistance are important are produced sexually Automixis editThis section may be too technical for most readers to understand Please help improve it to make it understandable to non experts without removing the technical details December 2022 Learn how and when to remove this template message Parthenogenesis is a natural form of reproduction in which growth and development of embryos occur without fertilization Thelytoky is a particular form of parthenogenesis in which the development of a female individual occurs from an unfertilized egg Automixis is a form of thelytoky but there are several kinds of automixis The kind of automixis relevant here is one in which two haploid products from the same meiosis combine to form a diploid zygote nbsp Central fusion and terminal fusion automixisW auropunctata thelytokous queens from clonal populations can reproduce by automictic parthenogenesis involving central fusion of haploid meiotic products a process that allows conservation of heterozygosity in progeny 12 The same parthenogenic queens that produce progeny by automixis may also produce normally segregating meiotic oocytes which upon fertilisation by males give rise to diploid workers The oocytes that undergo automixis display much lower rates of crossover recombination by a factor of 45 than the oocytes produced by sexually reproducing queens that give rise to workers These low recombination rates in automictic oocytes favor maintenance of heterozygosity and allow only very low rates of transition from heterozygosity to homozygosity 0 to 2 8 12 The sharp decrease in recombination rates likely allows clonal queens using automixis to benefit from thelytoky transmission of their entire genomes to individual progeny while also avoiding the potential for inbreeding depression that would result from random fusion of meiotic products leading to loss of heterozygosity In general parthenogenesis appears to be favored in recently disturbed habitats such as produced by floods fires and glaciers 13 The clonal populations of W auropunctata are mostly found in habitats disturbed by recent human activity 12 Ecology editThe native range of the little fire ant is in almost all portions of South America and Central America excluding colder climate regions Little fire ants are habitat generalists that tend to colonize areas associated with humans in warmer regions These habitats include forest edges managed forests agricultural fields and plantations 14 15 Little fire ants are generalists that consume other insects decaying vegetation seeds and plants These ants also consume honeydew and engage in mutualistic symbiotic relationships with other herbivorous insects such as aphids 14 15 The little fire ants are effective predators that have a venomous sting that can subdue large insects and vertebrate prey 16 Little fire ants establish colonies under rocks and plant litter These ants are also considered a residential pest as they establish colonies in furniture food and clothing in people s homes Colony movement can be amplified after a heavy rainstorm 17 18 Invasive species editThe little fire ant has been introduced on plantations in Gabon and Cameroon to be used as a biological control agent 8 The species has been unintentionally transported from its native range to Africa North America Puerto Rico Cuba Israel Taiwan 2 and multiple Pacific Island groups 15 17 Invading ants cannot survive in global regions that have cold environments But little fire ants are found in Canada and England where they find refuge in large human infrastructure and greenhouses 19 Human disturbed landscapes such as the practice of monocultures and the deforestation of land have caused an explosion in the little fire ant population in regions of Brazil and Colombia which have a prevalence of cocoa farms and sugarcane monocultures In Colombia research shows that high abundance little fire ant populations reduce other ant diversity in heavily deforested regions 18 The little fire ant preys on native insects causing a decline in population densities and they can also attack small to medium sized vertebrates if the ant colonies are disturbed 14 Throughout their invasive and native range the little fire ant reduces native ant diversity when successfully colonized 20 These ants successfully outcompete the other ants because they exploit a multitude of resources other species need to survive including honeydew residues nectar and refuges in vegetation Pets and large domestic animals such as cats and dogs stung around the eyes by this ant are known to develop blindness 15 In the Galapagos Islands the little fire ant is regarded as one of the most aggressive species introduced to this region The ant has contributed to the decline in tortoise populations as these ants eat the tortoise hatchlings and attack the eyes of adult tortoises Furthermore large population declines of scorpions spiders and native ants can be directly attributed to the invasive ant 21 22 23 When humans are encountered these ants have a powerful sting in proportion to its size The sting causes inch long welts that are itchy and painful Some workers and farmers may have issues properly harvesting crops in high density little fire ant agricultural areas 17 Research shows that the ant can strip nutrients from agricultural plants which increases crop susceptibility to disease and other herbivorous insect pests As a result of the ant s presence in agricultural fields crop yields diminish and have a negative economic effect on any particular agricultural industry affected by the ant 17 Control strategies editThere are several proposed control and prevention strategies that have been taken to help minimize or eradicate the little fire ant The Pacific Ant Prevention Program is a proposal that illustrates prevention methods within the islands located throughout the Pacific region in Polynesia such as Hawaii and Futuna for invasive ant species including the little fire ant The program was initiated to provide improved quarantine protocols for the Polynesian area in addition to raising awareness of the possible impact of the little fire ant 20 In 1999 the Hawaiian State Department of Agriculture proposed a 100 inspection policy on all plant material exported from the state to check for the ant so that it cannot spread to other regions 15 Generally better agricultural land management including the reduction of monocultures and lower crop production can reduce little fire ant populations In addition proper land management plans can alleviate ant population spikes that occur in highly degraded areas When first constructing an agricultural field minimizing landscape changes such a deforestation can prevent or reduce the population density of the little fire ant 18 Chemicals and pesticides have been employed in smaller density ant populations in the Galapagos Islands These little fire ant populations were no bigger than approximately 24 hectares 23 Other control methods such as non selective ant poisons fire and vegetation clearing have been successful on small ant populations and small islands Keratopathy editThis section relies excessively on references to primary sources Please improve this section by adding secondary or tertiary sources Find sources Electric ant news newspapers books scholar JSTOR February 2017 Learn how and when to remove this template message There is a strong suspicion of a link between Florida keratopathy or tropical keratopathy and presence of W auropunctata 24 References edit Wasmannia auropunctata Integrated Taxonomic Information System a b Lee C C Hsu P W Hsu F C Shih C H Hsiao Y C Yang C C Lin C C 2021 First Record of the Invasive Little Fire Ant Wasmannia auropunctata Hymenoptera Formicidae in Taiwan Invasion Status Colony Structure and Potential Threats Formosan Entomologist in Chinese Taiwan 41 3 172 181 doi 10 6662 TESFE 202108 41 3 004 ISSN 2414 1194 El Yunque National Forest Home Vonshak Merav T Dayan A Ionescu Hirsch A Freidberg A Hefetz 2009 The little fire ant Wasmannia auropunctata a new invasive species in the Middle East and its impact on the local arthropod fauna Biological Invasions 12 6 1825 1837 doi 10 1007 s10530 009 9593 2 Foucaud Julien et al 2010 Worldwide invasion by the little fire ant routes of introduction and eco evolutionary pathways Evolutionary Applications 3 4 363 374 doi 10 1111 j 1752 4571 2010 00119 x PMC 3352468 PMID 25567931 Electric ant Wasmannia auropunctata webpage Archived 2009 02 14 at the Wayback Machine Accessed 7 March 2009 Queensland Government Electric Ant Warning Archived 2011 02 18 at the Wayback Machine Accessed 7 March 2009 a b Wasmannia auropunctata Global Invasive Species Database 31 Oct 2009 archived a b Fournier Denis Estoup Arnaud Orivel Jerome Foucaud Julien Jourdan Herve Breton Julien Le Keller Laurent 2005 Clonal reproduction by males and females in the little fire ant PDF Nature 435 7046 1230 4 doi 10 1038 nature03705 PMID 15988525 Queller David 2005 Evolutionary Biology Males from Mars Nature 435 7046 1167 8 doi 10 1038 4351167a PMID 15988503 Pearcy M Aron S Doums C Keller L 2004 Conditional Use of Sex and Parthenogenesis for Worker and Queen Production in Ants Science 306 5702 1780 3 doi 10 1126 science 1105453 PMID 15576621 a b c Rey O Loiseau A Facon B Foucaud J Orivel J Cornuet JM Robert S Dobigny G Delabie JH Mariano Cdos S Estoup A 2011 Meiotic recombination dramatically decreased in thelytokous queens of the little fire ant and their sexually produced workers Mol Biol Evol 28 9 2591 601 doi 10 1093 molbev msr082 PMID 21459760 Bernstein H Byerly HC Hopf FA Michod RE 1985 Sex and the emergence of species J Theor Biol 117 4 665 90 Bibcode 1985JThBi 117 665B doi 10 1016 S0022 5193 85 80246 0 PMID 4094459 a b c Ness J H Bronstein J L 2004 01 01 The effects of invasive ants on prospective ant mutualists Biological Invasions 6 4 445 461 doi 10 1023 B BINV 0000041556 88920 dd ISSN 1387 3547 a b c d e MIME Attachment ViewInvasion Biology Introduced Species Summary Project Columbia University www columbia edu Retrieved 2017 05 05 Holway D A 2002 The Causes and Consequences of Ant Invasions Annual Review of Ecology and Systematics 33 181 233 doi 10 1146 annurev ecolsys 33 010802 150444 S2CID 16691880 a b c d little fire ant Wasmannia auropunctata Roger entnemdept ufl edu Retrieved 2017 05 05 a b c Armbrecht I Ulloa Chacon P 2003 The Little Fire ant Wasmannia auropunctata Roger Hymenoptera Formicidae as a Diversity Indicator of Ants in Tropical Dry Forest Fragments of Colombia Environmental Entomology 32 3 542 547 doi 10 1603 0046 225x 32 3 542 Wetterer JK Porter SD 2003 The little fire ant Wasmannia auropunctata distribution impact and control Sociobiology 42 1 41 a b www upane it Upane GISD www iucngisd org Retrieved 2017 05 05 Lubin Yael D 1984 01 01 Changes in the native fauna of the Galapagos Islands following invasion by the little red fire ant Wasmannia auropunctata Biological Journal of the Linnean Society 21 1 2 229 242 doi 10 1111 j 1095 8312 1984 tb02064 x ISSN 1095 8312 Clark et al 1982 The tramp ant Wasmannia auropunctata Autecology and effects on ant diversity and distribution on Santa Cruz Island Galapagos Biotropica 14 3 196 207 doi 10 2307 2388026 JSTOR 2388026 a b Roque Albelo L Causton C 1999 El Nino and Introduced Insects in the Galapagos Islands Different Dispersal Strategies Similar Effects Noticias de Galapagos 60 30 36 Theron Leonard 2005 Wasmannia auropunctata linked keratopathy Hypothesis The Polynesian Case Doctorate in Veterinary Medicine Master hdl 2268 652 External links edit nbsp Wikimedia Commons has media related to Wasmannia auropunctata nbsp Wikispecies has information related to Wasmannia auropunctata University of Hawaii Alert Identifying the little Fire Ant includes photo Accessed 8 March 2009 little Fire Ant in French Polynesia Australian Pests and Diseases Wasmannia auropunctata images amp description Little Fire Ants in Hawaiʻi Spot the Ant and Stop the Ant Hawaii Department of Agriculture 2021 10 01 Retrieved 2021 10 03 Retrieved from https en wikipedia org w index php title Electric ant amp oldid 1160351209, wikipedia, wiki, book, books, library,

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