fbpx
Wikipedia

Gamergate (ant)

December 14, 2023

For other uses, see Gamergate (disambiguation).

A gamergate (/ˈɡæmərˌɡt/ GAMM-ər-gayt) is a mated worker ant that can reproduce sexually, i.e., lay fertilized eggs that will develop as females. In the vast majority of ant species, workers are sterile and gamergates are restricted to taxa where the workers have a functional sperm reservoir ('spermatheca'). In some species, gamergates reproduce in addition to winged queens (usually upon the death of the original foundress), while in other species the queen caste has been completely replaced by gamergates. In gamergate species, all workers in a colony have similar reproductive potentials, but as a result of physical interactions, a dominance hierarchy is formed and only one or a few top-ranking workers can mate (usually with foreign males) and produce eggs. Subsequently however, aggression is no longer needed as gamergates secrete chemical signals that inform the other workers of their reproductive status in the colony.

Lateral view of an Ophthalmopone berthoudi worker, the ant for which the term "gamergate" was originally coined[note 1]

Depending on the species, there can be one gamergate per colony (monogyny) or several gamergates (polygyny). Most gamergate species have colonies with a few hundred or fewer workers.

Etymology edit

"Gamergate" derives from the Greek words γάμος (gámos) and ἐργάτης (ergátēs) and means "married worker". It was coined in 1983 by geneticist William Louis Brown[1] and was first used in scientific literature by entomologists Christian Peeters and Robin Crewe in a 1984 paper published in Naturwissenschaften.[2] The definition typically found in entomological dictionaries is "mated, egg-laying worker",[3][4] and is drawn from the glossary of Bert Hölldobler and E. O. Wilson's 1990 book, The Ants.[3]

Description edit

There are 100–200 different species in which gamergates reproduce (roughly 1% of all ants), most of which fall within the poneromorph subfamilies. Whereas workers (which are all females) in most ant species are morphologically incapable of storing sperm, in gamergate species one or several workers mate and have active ovaries.[5] Gamergate lifespan is short compared to queens in queenright colonies, but gamergates can be replaced by other dominant workers in the colony without risking colony survival. Reproductive investment in gamergate females is thus optimized because non-differentiated gamergates (i.e. reproductively inactive workers) function as laborers.[6]

Caste structure edit

 
Dorsal view of a nonreproductive female Diacamma australe worker, lacking anterior thoracic gemmae (buds).

Within gamergate colonies, all workers are born reproductively viable and are thus potential gamergates. Prior to differentiation as a gamergate, a dominant worker must physically inhibit its sisters. For example, in the case of Diacamma australe, the first female to become reproductively active will clip off the thoracic gemmae of her sisters, thus greatly reducing their sexual attractiveness. In other genera, persistent domination of worker females by gamergates via physical aggression all but ensure that they will not produce male offspring.[7] In Diacamma nilgiri, gamergates use dominance interactions to monopolize reproduction without mutilation of sister workers.[8] The same is true for Streblognathus peetersi, which engage in non-injurious aggression to determine dominance.[2] For most gamergate species, the start of ovarian activity eliminates the need to physically dominate nestmate workers. Instead newly produced pheromones or signaling chemicals ensure that workers remain nonreproductive. Although it is unknown to what degree these chemicals act as pheromones or as signals, support for the signaling hypothesis can be found in the loss of reproductive inhibition of workers as the gamergate grows older and her fecundity diminishes.[7]

Mechanisms of gamergate replacement vary among monogynous and polygynous species. When a gamergate dies, it is usually replaced by a formerly submissive worker who proceeds to mate and begins ovarian activity. A new gamergate often originates from a younger cohort. For example, when the original founding queen dies in a Harpegnathos saltator colony, younger workers begin to fight for dominance and some become the next reproductives.[9] Because reproductively inactive workers are able to activate their ovaries after the death of the gamergate, some gamergate species can be considered cooperative breeders rather than truly eusocial insects.[10]

In colonies with both queens and gamergates, the latter function as secondary reproductives.[5] Research on Amblyoponinae species has shown that there is a fecundity-based hierarchy among gamergates. In Stigmatomma reclinatum, it was found that higher-ranked gamergates had more fully developed oocytes than low-ranked gamergates.[11] In Streblognathus peetersi, only the alpha worker mates and becomes the gamergate; younger workers await a chance to reproduce when the current gamergate exhibits decreased fecundity or dies.[2] Challenges to gamergates from subordinate workers are risky because the gamergate in species like Dinoponera quadriceps may mark the challenger by rubbing special chemicals produced only by the gamergate. These chemicals signal to other workers to immobilize the challenger by biting her appendages and immobilizing her for a few days until her hormonal levels return to normal.[12] Subordinate workers play an important policing role in the selection of future gamergates and are thus able to increase their indirect fitness.[5]

Social structure variation and ecology edit

There is much variation in the social structure of ant colonies with gamergates. Some species such as Harpegnathos saltator,[13] Pseudoneoponera tridentata, Gnamptogenys menadensis, and Rhytidoponera confusa have a winged alate queen caste as well as gamergates.[14] Queenless species with only gamergates and workers may have a monogynous structure with a single gamergate or they may have a polygynous structure with multiple gamergates. Examples of monogynous queenless species include Pachycondyla krugeri, P. sublaevis, Diacamma australe, D. rugosum, Dinoponera quadriceps, Platythyrea lamellosa, and Streblognathus aethiopicus.[15] Examples of polygynous queenless species include Ophthalmopone berthoudi, O. hottentota,[16] and all known queenless species of Rhytidoponera.[15] In the queenless Ophthalmopone berthoudi, foreign males visit underground nests to mate with young workers.[17]

Ecologically, gamergate species from different tribes and genera often tend to share certain characteristics. Many gamergate species are solitary generalist foragers living in arid environments.[6] Similar to species with ergatoid queens, the evolution of gamergate reproduction is hypothesized to be associated with a shift to colonial fission. Myrmecologists Christian Peeters and Fuminori Ito have also suggested that "the evolution of gamergate reproduction appears strongly associated with the adaptive benefits of secondary polygyny (e.g. increased colony lifespan and resource inheritance), and it is the preferred option in species having workers able to store sperm."[14]

Classification dispute edit

The utility of "gamergate" as a morphological designation is not without critics. Within the field of myrmecology it is a matter of dispute whether caste should be defined primarily by reproductive role or by physical morphology. Notably, Alfred Buschinger has argued that the term "worker" should be applied only to those ants who make up the non-reproductive caste and "queen" should be applied only to reproductively viable female ants regardless of their physical appearance. Hölldobler and Wilson suggest that the two positions can be semantically resolved and that the most fruitful approach would be to keep classification "somewhat loose, incorporating either anatomy or roles in a manner that maximizes convenience, precision, and clarity of expression."[18]

Genera with gamergates edit

This list may be incomplete and may require expansion:

See also edit

Notes edit

  1. ^ In the original Naturwissenschaften paper where the term "gamergate" was first used, O. berthoudi is referred to by the synonym Pachycondyla berthoudi.
  2. ^ Throughout Ito's 1993 paper for the Journal of Natural History, he refers not to Stigmatomma but to Amblyopone. At the time Stigmatomma was considered to be a synonym of Amblyopone.

References edit

  1. ^ Peeters, Christian; Crewe, Robin (1984). "Insemination Controls the Reproductive Division of Labour in a Ponerine Ant". Naturwissenschaften. 71 (1): 50–51. Bibcode:1984NW.....71...50P. doi:10.1007/BF00365989. ISSN 0028-1042. S2CID 43871631.
  2. ^ a b c Véron, Géraldine (February 2005). . Le Journal du CNRS (181): 50–51. ISSN 0994-7647. Archived from the original on 10 February 2005. Retrieved 9 September 2014.
  3. ^ a b Barrows, Edward M. (2011). "Caste – Gamergate". Animal Behavior Desk Reference: A Dictionary of Animal Behavior, Ecology, and Evolution (Third ed.). CRC Press. p. 75. ISBN 9781439836514.
  4. ^ Gordh, Gordon (2011). "Gamergate". A Dictionary of Entomology. CABI. p. 608. ISBN 9781845935429.
  5. ^ a b c Noël, Carine (6 September 2002). (Press release). Paris: CNRS. Archived from the original on 2 March 2003. Retrieved 10 September 2014.
  6. ^ a b Choe, Jae C.; Crespi, Bernard J. (1997). "Morphologically 'Primitive' Ants". The Evolution of Social Behaviour in Insects and Arachnids. Cambridge University Press. p. 385. ISBN 9780521589772.
  7. ^ a b Bourke, Andrew F. G. (1995). "7 – Kin Conflict: Reproduction (Part 2 – Queen Policing, Queen Control, and Queen Signaling)". Social Evolution in Ants: Monographs in behavior and ecology. Princeton University Press. pp. 239–240. ISBN 9780691044262.
  8. ^ Cournault, Laurent; Peeters, Christian (2012). "Aggression regulates monogyny in non-mutilating Diacamma ants". Insectes Sociaux. 59 (4): 533–539. doi:10.1007/s00040-012-0251-9. S2CID 16179257.
  9. ^ Gorman, James (27 May 2014). "The Ant Queen Is Dead. Let the Battles Begin". The New York Times. ISSN 0362-4331. Retrieved 12 August 2014.
  10. ^ Crespi, Bernard J. (1996). "9 – Comparative Analysis of the Origins and Losses of Eusociality: Causal Mosaics and Historical Uniqueness (Part 6 – Formicidae)". In Martins, Emília P. (ed.). Phylogenies and the Comparative Method in Animal Behavior. Oxford University Press. p. 272. ISBN 9780195092103.
  11. ^ a b Ito, Fuminori (1993). "Social organization in a primitive ponerine ant: queenless reproduction, dominance hierarchy and functional polygyny in Amblyopone sp. (reclinata group) (Hymenoptera: Formicidae: Ponerinae)". Journal of Natural History. 27 (6): 1315–1324. doi:10.1080/00222939300770751. ISSN 0022-2933.
  12. ^ Monnin, Thibaud; Ratnieks, Francis L. W.; Jones, Graeme R.; Beard, Richard (5 September 2002). "Pretender punishment induced by chemical signalling in a queenless ant" (PDF). Nature. 419 (6902): 61–65. Bibcode:2002Natur.419...61M. doi:10.1038/nature00932. ISSN 0028-0836. PMID 12214231. S2CID 4372841.
  13. ^ Peeters, Christian; Hölldobler, Bert (November 1995). "Reproductive cooperation between queens and their mated workers: The complex life history of an ant with a valuable nest". Proceedings of the National Academy of Sciences of the United States of America. 92 (24): 10977–10979. Bibcode:1995PNAS...9210977P. doi:10.1073/pnas.92.24.10977. ISSN 0027-8424. PMC 40553. PMID 11607589.
  14. ^ a b Peeters, Christian; Ito, Fuminori (2001). "Colony Dispersal and the Evolution of Queen Morphology in Social Hymenoptera". Annual Review of Entomology. 46: 601–30. CiteSeerX 10.1.1.562.7031. doi:10.1146/annurev.ento.46.1.601. ISSN 0066-4170. PMID 11112181.
  15. ^ a b Peeters, Christian P. (1991). Veeresh, G. K.; Mallik, B. (eds.). Social Insects and the Environment: Proceedings of the 11th International Congress of IUSSI, 1990 (International Union for the Study of Social Insects). Brill Academic Pub. p. 234. ISBN 978-9004093164. Retrieved 12 August 2014.
  16. ^ Peetere, C. P.; Crewe, R. M. (1985). "Queenlessness and reproductive differentiation in Ophthalmopone hottentota". South African Journal of Zoology. 20 (4): 268. doi:10.1080/02541858.1985.11447948.
  17. ^ "Species: Pachycondyla berthoudi". antweb.org. AntWeb. Retrieved 12 August 2014.
  18. ^ Hölldobler, Bert; Wilson, E. O. (1990). "Caste and Division of Labor". The Ants. Harvard University Press. pp. 301 & 305. ISBN 9780674040755.
  19. ^ Gobin, B.; Peeters, C.; Billen, J. (September 1998). (PDF). Physiological Entomology. 23 (4): 329–336. doi:10.1046/j.1365-3032.1998.234102.x. S2CID 83569093. Archived from the original (PDF) on 27 August 2016. Retrieved 26 August 2016.
  20. ^ Peeters, Christian P. (1987). "The Reproductive Division of Labour in the Queenless Ponerine Ant Rhytidoponera sp. 12". Insectes Sociaux. 34 (2): 75–86. doi:10.1007/BF02223826. ISSN 0020-1812. S2CID 26116621.
  21. ^ a b c d e f g h i j k Schmidt, C. A; Shattuck, S. O. (2014). "The Higher Classification of the Ant Subfamily Ponerinae (Hymenoptera: Formicidae), with a Review of Ponerine Ecology and Behavior". Zootaxa. 3817 (1): 1–242. doi:10.11646/zootaxa.3817.1.1. PMID 24943802. S2CID 4540972.
  22. ^ "Genus: Diacamma". antweb.org. AntWeb. Retrieved 12 August 2014.
  23. ^ Haskins, Caryl Parker; Zahl, P. A. (1971). "The reproductive pattern of Dinoponera grandis Roger (Hymenoptera, Ponerinae) with notes on the ethology of the species". Psyche. 78 (1–2): 1–11. doi:10.1155/1971/914147. ISSN 0033-2615.
  24. ^ Peeters, C.; Fisher, B.L. (14 March 2016). "Gamergates (mated egg-laying workers) and queens both reproduce in Euponera sikorae ants from Madagascar" (PDF). African Entomology. 24 (1): 180–187. doi:10.4001/003.024.0180. S2CID 51851380. Retrieved 26 August 2016.
  25. ^ Peeters, Christian; Hölldobler, Bert (2000). "Sexual reproduction by both queens and workers in the ponerine ant Harpegnathos saltator". Insectes Sociaux. 47 (4): 325–332. doi:10.1007/PL00001724. ISSN 0020-1812. S2CID 8728206.
  26. ^ Peeters, Christian; Crewe, Robin M. (1985). "Worker reproduction in the ponerine ant Ophthalmopone berthoudi: an alternative form of eusocial organization". Behavioral Ecology and Sociobiology. 18 (1): 29–37. doi:10.1007/BF00299235. ISSN 0340-5443. S2CID 20041163.
  27. ^ Schilder, Klaus; Heinze, Jürgen; Hölldobler, Bert (January 1999). "Colony structure and reproduction in the thelytokous parthenogenetic ant Platythyrea punctata (F. Smith) (Hymenoptera, Formicidae)". Insectes Sociaux. 46 (2): 150–158. doi:10.1007/s000400050126. ISSN 0020-1812. S2CID 13729041.
  28. ^ "Genus: Streblognathus". antweb.org. AntWeb. Retrieved 12 August 2014.
  29. ^ Dietemann, V.; Peeters, C; Hölldobler, B. (2004). "Gamergates in the Australian ant subfamily Myrmeciinae". Naturwissenschaften. 91 (9): 432–435. Bibcode:2004NW.....91..432D. doi:10.1007/s00114-004-0549-1. ISSN 0028-1042. PMID 15278223. S2CID 26161972.
  30. ^ Hölldobler, Bert; Liebig, Jürgen; Alpert, Gary (2002). "Gamergates in the myrmicine genus Metapone (Hymenoptera:Formicidae)". Naturwissenschaften. 89 (7): 305–307. Bibcode:2002NW.....89..305H. doi:10.1007/s00114-002-0329-8. PMID 12216860. S2CID 6945541.

December 14, 2023
gamergate, other, uses, gamergate, disambiguation, gamergate, gamm, gayt, mated, worker, that, reproduce, sexually, fertilized, eggs, that, will, develop, females, vast, majority, species, workers, sterile, gamergates, restricted, taxa, where, workers, have, f. For other uses see Gamergate disambiguation A gamergate ˈ ɡ ae m er ˌ ɡ eɪ t GAMM er gayt is a mated worker ant that can reproduce sexually i e lay fertilized eggs that will develop as females In the vast majority of ant species workers are sterile and gamergates are restricted to taxa where the workers have a functional sperm reservoir spermatheca In some species gamergates reproduce in addition to winged queens usually upon the death of the original foundress while in other species the queen caste has been completely replaced by gamergates In gamergate species all workers in a colony have similar reproductive potentials but as a result of physical interactions a dominance hierarchy is formed and only one or a few top ranking workers can mate usually with foreign males and produce eggs Subsequently however aggression is no longer needed as gamergates secrete chemical signals that inform the other workers of their reproductive status in the colony Lateral view of an Ophthalmopone berthoudi worker the ant for which the term gamergate was originally coined note 1 Depending on the species there can be one gamergate per colony monogyny or several gamergates polygyny Most gamergate species have colonies with a few hundred or fewer workers Contents 1 Etymology 2 Description 2 1 Caste structure 2 2 Social structure variation and ecology 3 Classification dispute 4 Genera with gamergates 5 See also 6 Notes 7 ReferencesEtymology edit Gamergate derives from the Greek words gamos gamos and ἐrgaths ergates and means married worker It was coined in 1983 by geneticist William Louis Brown 1 and was first used in scientific literature by entomologists Christian Peeters and Robin Crewe in a 1984 paper published in Naturwissenschaften 2 The definition typically found in entomological dictionaries is mated egg laying worker 3 4 and is drawn from the glossary of Bert Holldobler and E O Wilson s 1990 book The Ants 3 Description editThere are 100 200 different species in which gamergates reproduce roughly 1 of all ants most of which fall within the poneromorph subfamilies Whereas workers which are all females in most ant species are morphologically incapable of storing sperm in gamergate species one or several workers mate and have active ovaries 5 Gamergate lifespan is short compared to queens in queenright colonies but gamergates can be replaced by other dominant workers in the colony without risking colony survival Reproductive investment in gamergate females is thus optimized because non differentiated gamergates i e reproductively inactive workers function as laborers 6 Caste structure edit nbsp Dorsal view of a nonreproductive female Diacamma australe worker lacking anterior thoracic gemmae buds Within gamergate colonies all workers are born reproductively viable and are thus potential gamergates Prior to differentiation as a gamergate a dominant worker must physically inhibit its sisters For example in the case of Diacamma australe the first female to become reproductively active will clip off the thoracic gemmae of her sisters thus greatly reducing their sexual attractiveness In other genera persistent domination of worker females by gamergates via physical aggression all but ensure that they will not produce male offspring 7 In Diacamma nilgiri gamergates use dominance interactions to monopolize reproduction without mutilation of sister workers 8 The same is true for Streblognathus peetersi which engage in non injurious aggression to determine dominance 2 For most gamergate species the start of ovarian activity eliminates the need to physically dominate nestmate workers Instead newly produced pheromones or signaling chemicals ensure that workers remain nonreproductive Although it is unknown to what degree these chemicals act as pheromones or as signals support for the signaling hypothesis can be found in the loss of reproductive inhibition of workers as the gamergate grows older and her fecundity diminishes 7 Mechanisms of gamergate replacement vary among monogynous and polygynous species When a gamergate dies it is usually replaced by a formerly submissive worker who proceeds to mate and begins ovarian activity A new gamergate often originates from a younger cohort For example when the original founding queen dies in a Harpegnathos saltator colony younger workers begin to fight for dominance and some become the next reproductives 9 Because reproductively inactive workers are able to activate their ovaries after the death of the gamergate some gamergate species can be considered cooperative breeders rather than truly eusocial insects 10 In colonies with both queens and gamergates the latter function as secondary reproductives 5 Research on Amblyoponinae species has shown that there is a fecundity based hierarchy among gamergates In Stigmatomma reclinatum it was found that higher ranked gamergates had more fully developed oocytes than low ranked gamergates 11 In Streblognathus peetersi only the alpha worker mates and becomes the gamergate younger workers await a chance to reproduce when the current gamergate exhibits decreased fecundity or dies 2 Challenges to gamergates from subordinate workers are risky because the gamergate in species like Dinoponera quadriceps may mark the challenger by rubbing special chemicals produced only by the gamergate These chemicals signal to other workers to immobilize the challenger by biting her appendages and immobilizing her for a few days until her hormonal levels return to normal 12 Subordinate workers play an important policing role in the selection of future gamergates and are thus able to increase their indirect fitness 5 Social structure variation and ecology edit There is much variation in the social structure of ant colonies with gamergates Some species such as Harpegnathos saltator 13 Pseudoneoponera tridentata Gnamptogenys menadensis and Rhytidoponera confusa have a winged alate queen caste as well as gamergates 14 Queenless species with only gamergates and workers may have a monogynous structure with a single gamergate or they may have a polygynous structure with multiple gamergates Examples of monogynous queenless species include Pachycondyla krugeri P sublaevis Diacamma australe D rugosum Dinoponera quadriceps Platythyrea lamellosa and Streblognathus aethiopicus 15 Examples of polygynous queenless species include Ophthalmopone berthoudi O hottentota 16 and all known queenless species of Rhytidoponera 15 In the queenless Ophthalmopone berthoudi foreign males visit underground nests to mate with young workers 17 Ecologically gamergate species from different tribes and genera often tend to share certain characteristics Many gamergate species are solitary generalist foragers living in arid environments 6 Similar to species with ergatoid queens the evolution of gamergate reproduction is hypothesized to be associated with a shift to colonial fission Myrmecologists Christian Peeters and Fuminori Ito have also suggested that the evolution of gamergate reproduction appears strongly associated with the adaptive benefits of secondary polygyny e g increased colony lifespan and resource inheritance and it is the preferred option in species having workers able to store sperm 14 Classification dispute editThe utility of gamergate as a morphological designation is not without critics Within the field of myrmecology it is a matter of dispute whether caste should be defined primarily by reproductive role or by physical morphology Notably Alfred Buschinger has argued that the term worker should be applied only to those ants who make up the non reproductive caste and queen should be applied only to reproductively viable female ants regardless of their physical appearance Holldobler and Wilson suggest that the two positions can be semantically resolved and that the most fruitful approach would be to keep classification somewhat loose incorporating either anatomy or roles in a manner that maximizes convenience precision and clarity of expression 18 Genera with gamergates editThis list may be incomplete and may require expansion Poneromorph subfamilies Amblyoponinae Stigmatomma 11 note 2 Ectatomminae Gnamptogenys 19 Rhytidoponera 20 Ponerinae Bothroponera 21 Diacamma 21 22 Dinoponera 21 23 Euponera 24 Hagensia 21 Harpegnathos 21 25 Leptogenys 21 Ophthalmopone 21 26 Platythyrea 21 27 Pseudoneoponera 21 Streblognathus 21 28 Thaumatomyrmex 21 MyrmeciinaeMyrmecia 29 dd MyrmicinaeMetapone 30 dd See also editLaying worker bee Mermithergate Parthenogenetic reproduction in insects Worker policingNotes edit In the original Naturwissenschaften paper where the term gamergate was first used O berthoudi is referred to by the synonym Pachycondyla berthoudi Throughout Ito s 1993 paper for the Journal of Natural History he refers not to Stigmatomma but to Amblyopone At the time Stigmatomma was considered to be a synonym of Amblyopone References edit Peeters Christian Crewe Robin 1984 Insemination Controls the Reproductive Division of Labour in a Ponerine Ant Naturwissenschaften 71 1 50 51 Bibcode 1984NW 71 50P doi 10 1007 BF00365989 ISSN 0028 1042 S2CID 43871631 a b c Veron Geraldine February 2005 La reine des fourmis couronnee au combat Le Journal du CNRS 181 50 51 ISSN 0994 7647 Archived from the original on 10 February 2005 Retrieved 9 September 2014 a b Barrows Edward M 2011 Caste Gamergate Animal Behavior Desk Reference A Dictionary of Animal Behavior Ecology and Evolution Third ed CRC Press p 75 ISBN 9781439836514 Gordh Gordon 2011 Gamergate A Dictionary of Entomology CABI p 608 ISBN 9781845935429 a b c Noel Carine 6 September 2002 How queenless ants regulate their conflicts Press release Paris CNRS Archived from the original on 2 March 2003 Retrieved 10 September 2014 a b Choe Jae C Crespi Bernard J 1997 Morphologically Primitive Ants The Evolution of Social Behaviour in Insects and Arachnids Cambridge University Press p 385 ISBN 9780521589772 a b Bourke Andrew F G 1995 7 Kin Conflict Reproduction Part 2 Queen Policing Queen Control and Queen Signaling Social Evolution in Ants Monographs in behavior and ecology Princeton University Press pp 239 240 ISBN 9780691044262 Cournault Laurent Peeters Christian 2012 Aggression regulates monogyny in non mutilating Diacamma ants Insectes Sociaux 59 4 533 539 doi 10 1007 s00040 012 0251 9 S2CID 16179257 Gorman James 27 May 2014 The Ant Queen Is Dead Let the Battles Begin The New York Times ISSN 0362 4331 Retrieved 12 August 2014 Crespi Bernard J 1996 9 Comparative Analysis of the Origins and Losses of Eusociality Causal Mosaics and Historical Uniqueness Part 6 Formicidae In Martins Emilia P ed Phylogenies and the Comparative Method in Animal Behavior Oxford University Press p 272 ISBN 9780195092103 a b Ito Fuminori 1993 Social organization in a primitive ponerine ant queenless reproduction dominance hierarchy and functional polygyny in Amblyopone sp reclinata group Hymenoptera Formicidae Ponerinae Journal of Natural History 27 6 1315 1324 doi 10 1080 00222939300770751 ISSN 0022 2933 Monnin Thibaud Ratnieks Francis L W Jones Graeme R Beard Richard 5 September 2002 Pretender punishment induced by chemical signalling in a queenless ant PDF Nature 419 6902 61 65 Bibcode 2002Natur 419 61M doi 10 1038 nature00932 ISSN 0028 0836 PMID 12214231 S2CID 4372841 Peeters Christian Holldobler Bert November 1995 Reproductive cooperation between queens and their mated workers The complex life history of an ant with a valuable nest Proceedings of the National Academy of Sciences of the United States of America 92 24 10977 10979 Bibcode 1995PNAS 9210977P doi 10 1073 pnas 92 24 10977 ISSN 0027 8424 PMC 40553 PMID 11607589 a b Peeters Christian Ito Fuminori 2001 Colony Dispersal and the Evolution of Queen Morphology in Social Hymenoptera Annual Review of Entomology 46 601 30 CiteSeerX 10 1 1 562 7031 doi 10 1146 annurev ento 46 1 601 ISSN 0066 4170 PMID 11112181 a b Peeters Christian P 1991 Veeresh G K Mallik B eds Social Insects and the Environment Proceedings of the 11th International Congress of IUSSI 1990 International Union for the Study of Social Insects Brill Academic Pub p 234 ISBN 978 9004093164 Retrieved 12 August 2014 Peetere C P Crewe R M 1985 Queenlessness and reproductive differentiation in Ophthalmopone hottentota South African Journal of Zoology 20 4 268 doi 10 1080 02541858 1985 11447948 Species Pachycondyla berthoudi antweb org AntWeb Retrieved 12 August 2014 Holldobler Bert Wilson E O 1990 Caste and Division of Labor The Ants Harvard University Press pp 301 amp 305 ISBN 9780674040755 Gobin B Peeters C Billen J September 1998 Production of trophic eggs by virgin workers in the ponerine ant Gnamptogenys menadensis PDF Physiological Entomology 23 4 329 336 doi 10 1046 j 1365 3032 1998 234102 x S2CID 83569093 Archived from the original PDF on 27 August 2016 Retrieved 26 August 2016 Peeters Christian P 1987 The Reproductive Division of Labour in the Queenless Ponerine Ant Rhytidoponera sp 12 Insectes Sociaux 34 2 75 86 doi 10 1007 BF02223826 ISSN 0020 1812 S2CID 26116621 a b c d e f g h i j k Schmidt C A Shattuck S O 2014 The Higher Classification of the Ant Subfamily Ponerinae Hymenoptera Formicidae with a Review of Ponerine Ecology and Behavior Zootaxa 3817 1 1 242 doi 10 11646 zootaxa 3817 1 1 PMID 24943802 S2CID 4540972 Genus Diacamma antweb org AntWeb Retrieved 12 August 2014 Haskins Caryl Parker Zahl P A 1971 The reproductive pattern of Dinoponera grandis Roger Hymenoptera Ponerinae with notes on the ethology of the species Psyche 78 1 2 1 11 doi 10 1155 1971 914147 ISSN 0033 2615 Peeters C Fisher B L 14 March 2016 Gamergates mated egg laying workers and queens both reproduce in Euponera sikorae ants from Madagascar PDF African Entomology 24 1 180 187 doi 10 4001 003 024 0180 S2CID 51851380 Retrieved 26 August 2016 Peeters Christian Holldobler Bert 2000 Sexual reproduction by both queens and workers in the ponerine ant Harpegnathos saltator Insectes Sociaux 47 4 325 332 doi 10 1007 PL00001724 ISSN 0020 1812 S2CID 8728206 Peeters Christian Crewe Robin M 1985 Worker reproduction in the ponerine ant Ophthalmopone berthoudi an alternative form of eusocial organization Behavioral Ecology and Sociobiology 18 1 29 37 doi 10 1007 BF00299235 ISSN 0340 5443 S2CID 20041163 Schilder Klaus Heinze Jurgen Holldobler Bert January 1999 Colony structure and reproduction in the thelytokous parthenogenetic ant Platythyrea punctata F Smith Hymenoptera Formicidae Insectes Sociaux 46 2 150 158 doi 10 1007 s000400050126 ISSN 0020 1812 S2CID 13729041 Genus Streblognathus antweb org AntWeb Retrieved 12 August 2014 Dietemann V Peeters C Holldobler B 2004 Gamergates in the Australian ant subfamily Myrmeciinae Naturwissenschaften 91 9 432 435 Bibcode 2004NW 91 432D doi 10 1007 s00114 004 0549 1 ISSN 0028 1042 PMID 15278223 S2CID 26161972 Holldobler Bert Liebig Jurgen Alpert Gary 2002 Gamergates in the myrmicine genus Metapone Hymenoptera Formicidae Naturwissenschaften 89 7 305 307 Bibcode 2002NW 89 305H doi 10 1007 s00114 002 0329 8 PMID 12216860 S2CID 6945541 Retrieved from https en wikipedia org w index php title Gamergate ant amp oldid 1181555246, wikipedia, wiki, book, books, library,

article

, read, download, free, free download, mp3, video, mp4, 3gp, jpg, jpeg, gif, png, picture, music, song, movie, book, game, games.