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Issue: Vol. 5408 No. 1: 9 Feb. 2024
Type: Monograph
Published: 2024-02-09
DOI: 10.11646/zootaxa.5408.1.1
Page range: 1-184
Abstract views: 80
PDF downloaded: 5

Taxonomic revision of the native bee subgenus Parasphecodes Smith 1853 in Australia (Hymenoptera: Halictidae: Halictini: Lasioglossum Curtis 1833)

Museums Victoria Research Institute; PO Box 666; Melbourne; Victoria 3001; Australia
Department of Agriculture; Water and the Environment; GPO Box 858; Canberra; ACT 2601; Australia
Hymenoptera Halictine bees new species new synonymies new statuses mite associations macrocephaly phenology New Guinea

Abstract

The Australian Lasioglossum Curtis 1833 subgenus Parasphecodes Smith 1853 is revised.

Currently, Parasphecodes has 92 named, described species. The monotypic Lasioglossum subgenus Pseudochilalictus Michener 1965 is synonymised with Parasphecodes and its species, L. imitator Michener 1965, is recombined into Parasphecodes. The single known species from New Guinea, L. (Parasphecodes) permetallicum Michener 1965, is included in this revision. Eighteen new species are erected, 69 names are placed into synonymy, 20 new sex associations made and three species currently placed in Parasphecodes are recombined into the Lasioglossum subgenus Ctenonomia Cameron 1903. This revision resolved there are 40 valid species for Parasphecodes.

Valid species for Lasioglossum (Parasphecodes) without synonymies are as follows: L. imitator, L. lichatus (Smith 1853), L. loweri (Cockerell 1905), L. olgae (Rayment 1935), L. permetallicum, L. turneri (Cockerell 1914d) and L. waterhousei (Cockerell 1915a).

New synonymies proposed for Lasioglossum (Parasphecodes) are as follows: Lasioglossum (Pseudochilalictus Michener 1965) new synonymy = Lasioglossum (Parasphecodes); L. cirriferum (Cockerell 1910) new synonymy, L. insigne (Meyer 1920) new synonymy and L. grande (Meyer 1920) new synonymy = L. altichus (Smith 1853); L. paramelaenum (Cockerell 1922) new synonymy = L. atronitens (Cockerell 1914a); L. bribiense (Cockerell 1916) new synonymy, L. bribiensiforme (Cockerell 1930a) new synonymy, L. butleri (Rayment 1935) new synonymy, L. frenchi (Rayment 1935) new synonymy, L. frenchellum Michener 1965 new synonymy, L. sordidulum (Cockerell 1914c) new synonymy and L. patongensis (Rayment 1948) new synonymy = L. bryotrichum (Cockerell 1912a); L. fumidicaudum (Cockerell 1914b) new synonymy and L. noachinum (Cockerell 1914b) new synonymy = L. carbonarium (Smith 1853); L. cervicale (Cockerell 1915b) new synonymy and L. zamelanum (Cockerell 1930a) new synonymy = L. dissimulator (Cockerell 1914b); L. wilmatae (Cockerell 1929c) new synonymy = L. excultum (Cockerell 1913b); L. arciferum (Cockerell 1914b) new synonymy, L. atrorufescens (Cockerell 1914b) new synonymy, L. fulviventre (Friese 1924) new synonymy, L. leptospermi (Cockerell 1916) new synonymy, L. lichatinum (Cockerell 1922) new synonymy, L. leucorhinum (Cockerell 1926) new synonymy, L. proximum (Rayment 1947) new synonymy, L. testaciventre (Rayment 1953) new synonymy, L. tilachus (Smith 1853) new synonymy, L. tilachiforme (Cockerell 1907) new synonymy, L. tuchilas (Smith 1853) new synonymy, L. anhybodinum (Cockerell 1930a) new synonymy, L. hybodinum (Cockerell 1912a) new synonymy, L. tripunctatum (Cockerell 1929c) new synonymy and L. warburtoni (Cockerell 1906) new synonymy = L. hilactus (Smith 1853); L. frenchi (Cockerell 1904) new synonymy, L. schomburgki (Cockerell 1910) new synonymy, L. speculiferum (Cockerell 1912a) new synonymy, L. sextum (Cockerell 1910) new synonymy, L. solis (Cockerell 1922) new synonymy, L. vermiculatum (Cockerell 1914b) new synonymy and L. vulneratum (Cockerell 1910) new synonymy = L. hiltacus (Smith 1853); L. hirtiventre (Cockerell 1922) new synonymy, L. niveorufum (Friese 1924) new synonymy, L. submeracum (Cockerell 1930a) new synonymy and L. froggatti (Cockerell 1905) new synonymy = L. lacthius (Smith 1853); L. basilautum (Cockerell 1910) new synonymy, L. doddi (Cockerell 1914c) new synonymy, L. paracolletinum (Cockerell 1910) new synonymy, L. pilicolle (Friese 1924) new synonymy, L. scutellatum (Friese 1924) new synonymy and L. vau (Cockerell 1910) new synonymy = L. leichardti (Cockerell 1906); L. annexum (Cockerell 1922) new synonymy, L. latissimum (Cockerell 1915b) new synonymy, L. microdontum (Cockerell 1912a) new synonymy, L. recessum (Cockerell 1914d) new synonymy, L. longmani (Cockerell 1922) new synonymy, L. recantans (Cockerell 1912a) new synonymy and L. rufotegulare (Cockerell 1914e) new synonymy = L. melbournense (Cockerell 1904); L. trimaculatum (Friese 1924) new synonymy = L. musicum (Cockerell 1913a); L. gentianae (Rayment 1951) new synonymy = L. subrussatum (Cockerell 1922); L. fultoni (Cockerell 1914b) new synonymy, L. gibbosum (Friese 1924) new synonymy, L. niveatum (Meyer 1920) new synonymy, L. punctatissimus (Meyer 1920) new synonymy, L. rhodopterum (Cockerell 1914e) new synonymy, L. rubriventre (Friese 1924) new synonymy, L. subfultoni (Cockerell 1930a) new synonymy, L. tepperi (Cockerell 1905) new synonymy, L. notescens (Cockerell 1930a) new synonymy and L. rufulum (Friese 1924) new synonymy = L. sulthica (Smith 1853); L. submoratum (Cockerell 1930a) new synonymy and L. perustum (Cockerell 1914d) new synonymy = L. taluchis (Smith 1853).

Eighteen new species are described as follows: L. acristum Walker & Sparks, L. altum Walker & Sparks, L. aspereticulum Walker & Sparks, L. atropum Walker & Sparks, L. bimelasmum Walker & Sparks, L. bipenicillum Walker & Sparks, L. bitrichum Walker & Sparks, L. blyscanatum Walker & Sparks, L. brevipectinatum Walker & Sparks, L. capronum Walker & Sparks, L. ferruginum Walker & Sparks, L. flexosum Walker & Sparks, L. laevidiscum Walker & Sparks, L. recavum Walker & Sparks, L. reticulum Walker & Sparks, L. rutrum Walker & Sparks, L. variegatum Walker & Sparks and L. wcisloi Walker & Sparks.

New subgeneric classifications are as follows: L. (Pseudochilalictus) imitator = L. (Parasphecodes) imitator new status, Halictus clarigaster Cockerell 1918 = L. (Ctenonomia) clarigaster new status, Halictus forresti Cockerell 1906 = L. (Ctenonomia) forresti new status, and Halictus tribuarius Rayment 1935 = L. (Ctenonomia) tribuarium new status.

These species names, all described by Smith 1853, are anagrams of “Halictus”. Therefore, they are nouns in apposition and should retain their original species designations as: Lasioglossum (Parasphecodes) altichus (Smith 1853), Lasioglossum (Parasphecodes) hilactus (Smith 1853), Lasioglossum (Parasphecodes) hiltacus (Smith 1853), Lasioglossum (Parasphecodes) lacthius (Smith 1853), Lasioglossum (Parasphecodes) lichatus (Smith 1853), Lasioglossum (Parasphecodes) sulthica (Smith 1853), Lasioglossum (Parasphecodes) talchius (Smith 1853), Lasioglossum (Parasphecodes) taluchis (Smith 1853), Lasioglossum (Parasphecodes) tilachus (Smith 1853) and Lasioglossum (Parasphecodes) tuchilas (Smith 1853).

All 40 valid Parasphecodes species, as well as the three species recombined to Ctenonomia, are redescribed. For the Parasphecodes species, keys to both sexes, character groups, taxonomy, citations, species diagnoses, comments, descriptions, scanning electron micrographs, colour montage images, distribution maps, male genitalia and S7–S8 line drawings are provided to assist with species identifications.

 

 

References

  1. ABRS (2023) Australian Biological Resources Study (ABRS) Australian Faunal Directory. Lasioglossum statistics. Australian Biological Resources Study, Canberra. Available from: https://biodiversity.org.au/afd/taxa/Lasioglossum/statistics (accessed 18 August 2023)
  2. ALAa (2023) Atlas of Living Australia. Lasioglossum, Homalictus and Ceylalictus distributions and statistics. Available from: https://bie.ala.org.au/search?q=Lasioglossum https://bie.ala.org.au/search?q=Homalictus https://bie.ala.org.au/search?q=Ceylalictus (accessed 6 March 2023)
  3. ALAb (2023) Atlas of Living Australia. Distribution of Lasioglossum (Parasphecodes) with annual precipitation GIS overlay. Available from: https://spatial.ala.org.au/?q=lsid:https:%2F%2Fbiodiversity.org.au%2Fafd%2Ftaxa%2F340d2d97-9e36-4a4d-9fe9-8d7f7e3bdcfe&qualityProfile=ALA (accessed 6 March 2023)
  4. ALAc (2023) Atlas of Living Australia. Distribution of Lasioglossum (Parasphecodes) with annual mean temperature GIS overlay. Available from: https://spatial.ala.org.au/?q=lsid:https:%2F%2Fbiodiversity.org.au%2Fafd%2Ftaxa%2F340d2d97-9e36-4a4d-9fe9-8d7f7e3bdcfe&qualityProfile=ALA (accessed 6 March 2023)
  5. ALAd (2023) Atlas of Living Australia. Distribution of Lasioglossum (Parasphecodes) with elevation GIS overlay. Available from: https://spatial.ala.org.au/?q=lsid:https:%2F%2Fbiodiversity.org.au%2Fafd%2Ftaxa%2F340d2d97-9e36-4a4d-9fe9-8d7f7e3bdcfe&qualityProfile=ALA (accessed 6 March 2023)
  6. ALAe (2023) Atlas of Living Australia. Distribution of Lasioglossum (Chilalictus) with annual precipitation GIS overlay. Available from: https://spatial.ala.org.au/?q=lsid:https:%2F%2Fbiodiversity.org.au%2Fafd%2Ftaxa%2Ffbefd706-72ea-4450-a2e9-7bb3f0ffe249&qualityProfile=ALA (accessed 4 October 2023)
  7. ALAf (2023) Atlas of Living Australia. Distribution of Lasioglossum (Chilalictus) with annual mean temperature GIS overlay. Available from: https://spatial.ala.org.au/?q=lsid:https:%2F%2Fbiodiversity.org.au%2Fafd%2Ftaxa%2Ffbefd706-72ea-4450-a2e9-7bb3f0ffe249&qualityProfile=ALA (accessed 4 October 2023)
  8. ALAg (2023) Atlas of Living Australia. Distribution of Homalictus with annual precipitation GIS overlay. Available from: https://spatial.ala.org.au/?q=lsid:https:%2F%2Fbiodiversity.org.au%2Fafd%2Ftaxa%2Feec58289-a47b-4279-97a9-9e6c4dc32188&qualityProfile=ALA (accessed 4 October 2023)
  9. ALAh (2023) Atlas of Living Australia. Distribution of Homalictus with annual mean temperature GIS overlay. Available from: https://spatial.ala.org.au/?q=lsid:https:%2F%2Fbiodiversity.org.au%2Fafd%2Ftaxa%2Feec58289-a47b-4279-97a9-9e6c4dc32188&qualityProfile=ALA (accessed 4 October 2023)
  10. Aguiar, A.P. & Gibson, G.A.P. (2010) The spatial complexity in describing leg surfaces of Hymenoptera (Insecta), the problem and a proposed solution. Zootaxa, 2415 (1), 54–62. https://doi.org/10.11646/zootaxa.2415.1.5
  11. Anderson, D. & Trueman, J.W.H. (2000) Varroa jacobsoni (Acari: Varroidae) is more than one species. Experimental & Applied Acarology, 24, 165–189. https://doi.org/10.1023/A:1006456720416
  12. Ascher, J.S. & Pickering, J. (2022) Discover Life bee species guide and world checklist (Hymenoptera: Apoidea: Anthophila). Available from: https://www.discoverlife.org/mp/20q?guide=Apoidea_species (accessed 15 November 2022)
  13. Benson, D. & McDougall, L. (1997) Ecology of Sydney Plant Species Part 5: Dicotyledon families Flacourtiaceae to Myrsinaceae. Cunninghamia, 5 (2), 330–538.
  14. Brady, S.G., Sipes, S., Pearson, A. & Danforth, B.N. (2006) Recent and simultaneous origins of eusociality in halictid bees. Proceedings of the Royal Society of London Series B–Biological Sciences, 273, 1643–1649. https://doi.org/10.1098/rspb.2006.3496
  15. Brothers, D.J. (1976) Modifications of the metapostnotum and origin of the ‘propodeal triangle’ in Hymenoptera Aculeata. Systematic Entomology, 1, 177–182. https://doi.org/10.1111/j.1365-3113.1976.tb00036.x
  16. Cameron, P. (1903) Descriptions of new genera and species of Hymenoptera taken by Mr. Robert Shelford at Sarawak, Borneo. Journal of the Straits Branch of the Royal Asiatic Society, 39, 89–181.
  17. Clemens, B. (1860) Contributions to American Lepidopterology. No. 4. Proceedings of the Academy of Natural Sciences, Philadelphia, 12, 156–174.
  18. Climate Council (2013) The Critical Decade 2013: Climate Change Science, Risks and Responses Available from: https://www.climatecouncil.org.au/uploads/b7e53b20a7d6573e1ab269d36bb9b07c.pdf (accessed 27 April 2023)
  19. Cockerell, T.D.A. (1904) The halictine bees of the Australian region. Annals and Magazine of Natural History, Series 7, 14 (81), 208–213. https://doi.org/10.1080/03745480409442995
  20. Cockerell, T.D.A. (1905) Descriptions and records of bees. II. Annals and Magazine of Natural History, Series 7, 16 (93), 292–301. https://doi.org/10.1080/03745480509442865
  21. Cockerell, T.D.A. (1906) New Australian bees in the collection of the British Museum. II, The Entomologist, 39, 56–60. https://doi.org/10.5962/bhl.part.1556
  22. Cockerell, T.D.A. (1907) On a collection of Australian and Asiatic bees. Bulletin of the American Museum of Natural History, 23, 221–236.
  23. Cockerell, T.D.A. (1910) New and little—known bees. Transactions of the American Entomological Society, 36, 199–249.
  24. Cockerell, T.D.A. (1912a) Descriptions and records of bees, XLII. Annals and Magazine of Natural History, Series 8, 9 (50), 220–229. https://doi.org/10.1080/00222931208693124
  25. Cockerell, T.D.A. (1912b) Descriptions and records of bees, XLVII. Annals and Magazine of Natural History, Series 8, 10 (59), 484–494. https://doi.org/10.1080/00222931208693263
  26. Cockerell, T.D.A. (1913a) Descriptions and records of bees. LII. Annals and Magazine of Natural History, Series 8, 11 (66), 530–542. https://doi.org/10.1080/00222931308693352
  27. Cockerell, T.D.A. (1931b) A small collection of bees from Tasmania. Proceedings of the Linnean Society of New South Wales, 37, 596–599. https://doi.org/10.5962/bhl.part.22361
  28. Cockerell, T.D.A. (1914a) Australian halictine bees. The Entomologist, 47, 242–244. https://doi.org/10.5962/bhl.part.15127
  29. Cockerell, T.D.A. (1914b) Descriptions and records of bees. LVI, Annals and Magazine of Natural History, Series 8, 13 (73), 136–146. https://doi.org/10.1080/00222931408693461
  30. Cockerell, T.D.A. (1914c) Descriptions and records of bees. LXIII, Annals and Magazine of Natural History, Series 8, 14 (83), 361–369. https://doi.org/10.1080/00222931408693586
  31. Cockerell, T.D.A. (1914d) Descriptions and records of bees. LXII. Annals and Magazine of Natural History, Series 8, 14 (79), 49–57. https://doi.org/10.1080/00222931408693541
  32. Cockerell, T.D.A. (1914e) Some Tasmanian bees. The Entomologist, 47, 305–308. https://doi.org/10.5962/bhl.part.15130
  33. Cockerell, T.D.A. (1915a) Descriptions and records of bees. LXVIII, Annals and Magazine of Natural History, Series 8, 16 (91), 1–9. https://doi.org/10.1080/00222931508693679
  34. Cockerell, T.D.A. (1915b) Descriptions and records of bees. LXIX, Annals and Magazine of Natural History, Series 8, 16 (92), 96–104. https://doi.org/10.1080/00222931508693693
  35. Cockerell, T.D.A. (1916) A collection of bees from Queensland. Memoirs of the Queensland Museum, 5, 197–204.
  36. Cockerell, T.D.A. (1918) Some bees collected in Queensland. Memoirs of the Queensland Museum, 6, 112–120.
  37. Cockerell, T.D.A. (1919) The metallic—coloured Halictine bees of the Philippine Islands. Philippine Journal of Science, 15, 9–13.
  38. Cockerell, T.D.A. (1921) Australian Bees in the Queensland Museum. Memoirs of the Queensland Museum, 7 (3), 81–279.
  39. Cockerell, T.D.A. (1922) Australian bees in the Queensland Museum. Memoirs of the Queensland Museum, 7 (3), 257–279.
  40. Cockerell, T.D.A. (1926) Descriptions and records of bees. CXII, Annals and Magazine of Natural History, Series 9, 18 (104), 216–227. https://doi.org/10.5962/bhl.part.11763
  41. Cockerell, T.D.A. (1929a) Bees, chiefly Australian species, described or determined by Dr. H. Friese. American Museum Novitates, 343, 1–20.
  42. Cockerell, T.D.A. (1929b) Descriptions and records of bees. CXV, Annals and Magazine of Natural History, Series 10, 3 (15), 354–360. https://doi.org/10.1080/00222932908672980
  43. Cockerell, T.D.A. (1929c) Bees from the Australian region. American Museum Novitates, 346, 1–18.
  44. Cockerell, T.D.A. (1929d) Bees in the Queensland Museum. Memoirs of the Queensland Museum, 9, 298–323.
  45. Cockerell, T.D.A. (1930a) New Australian bees. Memoirs of the Queensland Museum, 10, 37–50. https://doi.org/10.1155/1930/65105
  46. Cockerell, T.D.A. (1930b) Australian bees in the Museum of Comparative Zoology. Psyche, 36, 141–154. https://doi.org/10.1155/1930/65105
  47. Cockerell, T.D.A. (1932) The bees of Australia. The Australian Zoologist, 7, 206–218.
  48. Cockerell, T.D.A. (1933) The bees of Australia. The Australian Zoologist, 7, 291–324.
  49. Cross, E.A. (1965) The generic relationships of the family Pyemotidae Acarina: Trombidiformes. University of Kansas Science Bulletin, 45, 29–275.
  50. Curtis, J. (1833) British Entomology; being illustrations and descriptions of the genera of insects found in Great Britain and Ireland: containing coloured figures from nature of the most rare and beautiful species, and in many instances of the plants upon which they are found. Vol. 10. John Curtis, London, pls. 434–481.
  51. Dalla Torre, C.G. de (1896) Catalogus Hymenopterorum. Vol. 10. Apidae (Anthophila). Engelmann, Leipzig, viii + 643 pp.
  52. Danforth, B.N. (1990) Provisioning behavior and the estimation of investment ratios in a solitary bee, Calliopsis (Hypomacrotera) persimilis (Cockerell) (Hymenoptera: Andrenidae). Behavioral Ecology and Sociobiology, 27, 159–168. https://doi.org/10.1007/BF00180299
  53. Danforth, B.N. (1999) Phylogeny of the bee genus Lasioglossum (Hymenoptera: Halictidae) based on mitochondrial COI sequence data. Systematic Entomology, 24, 377–393. https://doi.org/10.1046/j.1365-3113.1999.00087.x
  54. Danforth, B.N. & Ji, S. (2001) Australian Lasioglossum + Homalictus form a monophyletic group: Resolving the “Australian Enigma”. Systematic Entomology, 50 (2), 268–283. https://doi.org/10.1080/713849618
  55. Danforth, B.N., Conway, L. & Ji, S. (2003) Phylogeny of eusocial Lasioglossum reveals multiple losses of eusociality within a primitively eusocial clade of bees (Hymenoptera: Halictidae). Systematic Biology, 52, 23–36. https://doi.org/10.1080/10635150390132687
  56. Danforth, B.N. & Almeida, E.A.B. (2008) Insights into bee evolution: a tribute to Charles D. Michener. Apidologie, 39, 1–2. https://doi.org/10.1051/apido:2008011
  57. Danforth, B.N., Minckley, R.L. & Neff, J.L. (2019) The Solitary Bees. Princeton University Press, Princeton, New Jersey, 472 pp. https://doi.org/10.1515/9780691189321
  58. Donovan, B.J., Munzinger, J., Pauly, A. & McPherson, G. (2013) Flower-visiting records of the Native bees of New Caledonia. Annals of the Missouri Botanical Garden, 99 (1), 19–43. https://doi.org/10.3417/2010076
  59. Dorey, J.B., Fagan-Jeffries, E.P., Stevens, M.I. & Schwarz, M.P. (2020) Morphometric comparisons and novel observations of diurnal and low-light-foraging bees. Journal of Hymenoptera Research, 79, 117–144. https://doi.org/10.3897/jhr.79.57308
  60. Dorey, J.B., Rebola, C.M., Davies, O.K., Prendergast, K.S., Parslow, B.A., Hogendoorn, K., Leijs, R., Hearn, L.R., Leitch, E.J., O’Reilly, R.L., Marsh, J., Woinarski, J.C. & Caddy-Retalic, S. (2021) Continental risk assessment for understudied taxa postcatastrophic wildfire indicates severe impacts on the Australian bee fauna. Global Change Biology, 27 (24), 6551–6567. https://doi.org/10.1111/gcb.15879
  61. Dujardin, F. (1842) Sous la nom d’Anoete (Anoetus), un petit animal articulé, roisin des Acariens. L’Institut. Section 1. Sciences mathématiques, physiques et naturelles, Paris, 454, 33–361.
  62. Eickwort, G.C. (1994) Evolution and life-history patterns of mite associations with bees. In: Houck, M.A. (Ed.), Mites: Ecological and Evolutionary Analyses of Life-History Patterns. Chapman & Hall, New York, New York, pp. 218–251. https://doi.org/10.1007/978-1-4615-2389-5_9
  63. Ember, A.W. (1978) Die Halictidae der Mandschurei. Bonner zoologische Beiträge: Herausgeber: Zoologisches Forschungsinstitut und Museum Alexander Koenig, Bonn, 29, 183–221.
  64. Encinas-Viso, F., Bovill, J., Albrecht, D.E., Florez-Fernandez, J., Lessard, B., Lumbers, J., Juanita Rodriguez, J., Schmidt-Lebuhn, A., Zwick, A. & Milla, L. (2021) Pollen DNA metabarcoding reveals cryptic diversity and high spatial turnover in alpine plant–pollinator networks. Molecular Ecology, 2022, 1–17. https://doi.org/10.1111/mec.16682
  65. Engel, M.S. (2015) The bibliography of and taxa proposed by Charles D. Michener. Journal of Melittology, 54, 1–109. https://doi.org/10.17161/jom.v0i54.5006
  66. Engel, M. (2018) Replacement names for sweat bees of the genus Lasioglossum (Hymenoptera: Halictidae). Entomologist’s Monthly Magazine, 154, 266–268. https://doi.org/10.31184/M00138908.1544.3955
  67. Engel, M.S. & Gonzalez, V.H. (2022) A new bee genus from the pampas of eastern Argentina, with appended notes on the classifcation of “paracolletines”. (Hymenoptera: Colletidae). Journal of Melittology, 109, 1–39. https://doi.org/10.17161/jom.i109.16424
  68. Fain, A. (1984) A new genus of mite (Acari: Acaridae) phoretic on bees (Ctenocolletes) in Australia. Records of the Western Australian Museum, 11, 77–86.
  69. Fisher, R.A. (1958) The Genetical Theory of Natural Selection. 2nd Revision Edition. Dover Publication, New York, 291 pp.
  70. Frohlich, D.R. & Tepedino, V.J. (1986) Sex ratio, parental investment, and interparent variability in nest success in a solitary bee. Evolution, 40 (1), 142–151. https://doi.org/10.2307/2408611
  71. Froggatt, W.W. (1892) Catalogue of described Hymenoptera of Australia. Part 11. Proceeding of the Linnean Society of New South Wales, 7, 205–248. https://doi.org/10.5962/bhl.part.26049
  72. Friese, H. (1924) Ueber die Bienen Australiens, Konowia, 3, 216–249.
  73. Gollan, J.R, Ashcroft, M.B. & Batley, M. (2011) Comparison of yellow and white pan traps in surveys of bee fauna in New South Wales, Australia (Hymenoptera: Apoidea: Anthophila). Australian Journal of Entomology, 50 (2), 174–178. https://doi.org/10.1111/j.1440-6055.2010.00797.x
  74. Gibbs, J., Ascher, J.S. & Packer, L. (2009) Case 3476 Dialictus Robertson, 1902 and Evylaeus Robertson, 1902 (Insecta, Hymenoptera): proposed precedence over Hemihalictus Cockerell, 1897, Sudila Cameron, 1898 and Sphecodogastra Ashmead, 1899. The Bulletin of Zoological Nomenclature, 66 (2), 147–158. https://doi.org/10.21805/bzn.v66i2.a4
  75. Gibbs, J. (2010) Revision of the metallic species of Lasioglossum (Dialictus) in Canada (Hymenoptera, Halictidae, Halictini). Zootaxa, 2591 (1), 1–382. https://doi.org/10.11646/zootaxa.2591.1.1
  76. Gibbs, J., Brady, S.G., Kanda, K. & Danforth, D.N. (2012) Phylogeny of halictine bees supports a shared origin of eusociality for Halictus and Lasioglossum (Apoidea: Anthophila: Halictidae). Molecular Phylogenetics and Evolution, 65 (3), 926–939. https://doi.org/10.1016/j.ympev.2012.08.013
  77. Gibbs, J., Packer, L., Dumesh, S. & Danforth, B.N. (2013) Revision and reclassification of Lasioglossum (Evylaeus), L. (Hemihalictus) and L. (Sphecodogastra) in eastern North America (Hymenoptera: Apoidea: Halictidae). Zootaxa, 3672 (1), 117. https://doi.org/10.11646/zootaxa.3672.1.1
  78. Gibbs, J., Bass, A. & Morgan, K. (2022) Habralictus and Lasioglossum of Saint Lucia and Saint Vincent and the Grenadines, Lesser Antilles (Hymenoptera, Apoidea, Halictidae). Zookeys, 1089, 125–167. https://doi.org/10.3897/zookeys.1089.72645
  79. Grossbeck, J. (1912) Types of Insects, except Lepidoptera and Formicidae, in the American Museum of Natural History additional to those previously listed. Bulletin of the American Museum of Natural History, 31, 353–379.
  80. Hacker, H. (1921) Catalogue of Australian bees. Memoirs of the Queensland Museum, 7, 99–163.
  81. Harris, R.A. (1979) A Glossary of Surface Sculpturing. Occasional Paper in Entomology, State of California, Department of Food and Agriculture, Division of Plant Industry—Laboratory Services, No. 28, 1–31.
  82. Henríquez-Piskulicha, P., Hugalla, A. & Devi Stuart-Fox, D. (2023) A supermatrix phylogeny of the world’s bees (Hymenoptera: Anthophila). bioRxiv preprint, 2023, 1–32. https://doi.org/10.1101/2023.06.16.545281
  83. Hogendoorn, K. & Keller, M. (2011) Development of native bees as pollinators of vegetable seed crops. Project Number: VG08179. Horticulture Australia Ltd., Sydney, 48 pp.
  84. Houston, T.F. (1987) The symbiosis of acarid mites, genus Ctenocolletacarus (Acarina: Acariformes), and stenotritid bees, genus Ctenocolletes (Insecta: Hymenoptera). Australian Journal of Zoology, 35, 459–468. https://doi.org/10.1071/ZO9870459
  85. Johanson, L.G., Hoffmann, A.A., Walker, K.L. & Nash, M.A. (2018) Bees of the Victorian Alps: Network structure and interactions of introduced species. Austral Ecology, 44 (2), 245–254. https://doi.org/10.1111/aec.12669
  86. Joharchi, O., Khopaparast, R. & Moghadam, S.G. (2016) First report of the genus Dinogamasus Kramer (Acari: Mesostigmata: Laelapidae) from the Middle East Region, with the description of a new species. Systematic & Applied Acarology, 21 (6), 791–799. https://doi.org/10.11158/saa.21.6.6
  87. Kirby, W. (1802) Monographia Apum Angliae. Vol. 1. J. Raw, Ipswich, xxii + 258 pp.
  88. Kramer, P. (1898) Gamasiden aus Deutsch Ostafrik, Zoologischer Anzeiger, 21, 416–418.
  89. Latreille P.A. (1802) Histoire naturelle, générale et particulière, des crustacés et des insectes. Tome Troisiéme. L’imprimerie de F. Dufart, Paris, 467 pp. https://doi.org/10.5962/bhl.title.15764
  90. Latreille, P.A. (1804) Tableau méthodique des insects. In: Nouveau Dictionnaire d’Histoire Nature lle. Vol. 24. Détereville, Paris, pp. 129–200
  91. LeVeque, N. (1930) Two new species of Dinogamasus, mites found on carpenter bees of the Oriental tropics. American Museum Novitates, 432, 1–6.
  92. Murao, R., Tadauchi, O. & Yamauchi, T. (2009) Taxonomic revision of the subgenus Ctenonomia of the genus Lasioglossum (Hymenoptera, Halictidae) in Japan. Esakia, 49, 75–94. https://doi.org/10.5109/16149
  93. Meyer, R. (1920) Apidae—Halictinae. I. Gatt. Parasphecodes Sm. Archiv für Naturgeschichte, 85 (A) (11), 112–137.
  94. Michener, C.D. (1965) A classification of the bees of the Australian and South Pacific regions, Bulletin of the American Museum of Natural History, 130, 1–362.
  95. Michener, C.D. (1974) The Social Behavior of the Bees. Belknap Press, Cambridge, Massachusetts, 404 pp.
  96. Michener, C.D. (1980) The large species of Homalictus and related Halictinae from the New Guinea area (Hymenoptera, Apoidea). American Museum Novitates, 2693, 1–21.
  97. Michener, C.D. (2007) The Bees of the World. 2nd Edition. The Johns Hopkins University Press, Baltimore, Maryland, xvi + 953 pp.
  98. National pest & disease outbreaks (2022) Varroa mite (Varroa destructor) Pest situation. Available from: https://www.outbreak.gov.au/current-responses-to-outbreaks/varroa-mite (accessed 2 March 2023)
  99. Nichols, S.W. (1989) Torre—Bueno glossary of entomology. New York Entomological Society, New York, xvii + 840 pp.
  100. Oudemans, A.C. (1916) Acari, verzameld bij Bonn. Entomologische Berichten, Amsterdam, 4 (88), 261–266. https://doi.org/10.5962/bhl.part.1131
  101. Packer, L. (2000) The biology of Thrincohalictus prognathus (Perez) (Hymenoptera: Halictidae: Halictini). Journal of Hymenoptera Research, 9, 53–61.
  102. Pauly, A. (1986) Les Abeilles de la Sous-Famille des Halictinae en Nouvelle-Guinée et dans l’ archipel Bismarck (Hymenoptera: Apoidea: Halictinae). Zoologische Verhandelingen, 227, 3–58.
  103. Pauly, A., Walker, K.L., Munzinger, J. & Donovan, B. (2013) Endémisme insulaire et cleptoparasitisme chez les Lasioglossum Curtis 1833 (Hymenoptera : Apoidea : Halictidae) de Nouvelle-Calédonie. International Journal of Entomology, 49 (2), 127–153. https://doi.org/10.1080/00379271.2013.815036
  104. Pauly, A. (2016) Le genre Lasioglossum, sous-genre Ctenonomia Cameron 1903. Available from: http://www.atlashymenopteRange.net/page.aspx??ID=89 (accessed 2 March 2023)
  105. Perkins, R.C. (1913) n.k. In: Poulton, E.B. (Ed.), The Hope Reports. Vol. VIII. Oxford University, Oxford, pp. 1–98.
  106. Peters, D.S. (1968) Phanokopierende Mibildungen des Flugelgeadens bei Akuleaten Hymenopteren. XIII International Congress of Entomology, Moscow, 1, 1–581.
  107. Rayment, T. (1935) A Cluster of Bees. Endeavour Press, Sydney, 752 pp., 101 figs.
  108. Rayment, T. (1939) Bees from the high lands of New South Wales and Victoria. The Australian Zoologist, 9, 263–294.
  109. Rayment, T. (1947) Biology and taxonomy of the solitary bee, Parasphecodes fulviventris (Friese). The Australian Zoologist, 11, 76–95.
  110. Rayment, T. (1948) Notes on remarkable wasps and bees with specific descriptions. The Australian Zoologist, 11, 238–254.
  111. Rayment, T. (1951) New bees and wasps—Part XV. Bees from two mountains, with description of a new species and notes on the biology of another. Victorian Naturalist, 68, 10–13.
  112. Rayment, T. (1953) Bees of the Portland district. Victoria. Portland Field Naturalist’s Club, Victoria, 39 pp.
  113. Rayment, T. (1954a) Incidence of acarid mites on the biology of bees. The Australian Zoologist, 12, 26–38.
  114. Rayment, T. (1954b). Remarkable bees from a rain forest. The Australian Zoologist, 12, 46–56.
  115. Rayment, T. (1955) Dimorphism and parthenogenesis in halictine bees. The Australian Zoologist, 12, 142–153.
  116. Sandhouse, G.A. (1943) The types of the genera and subgenera of bees. Proceedings of the United States National Museum, 92 (3156), 519–619. https://doi.org/10.5479/si.00963801.3156.519
  117. Sharp, D. (1904) The Zoological Record—Insecta Hymenoptera. Zoological Society of London, 41, 199–237.
  118. Sharp, D. (1905) The Zoological Record—Insecta Hymenoptera. Zoological Society of London, 42, 189–227.
  119. Sharp, D. (1907) The Zoological Record—Insecta Hymenoptera. Zoological Society of London, 44, 263–291.
  120. Sharp, D. (1911) The Zoological Record—Insecta Hymenoptera. Zoological Society of London, 48, 241–282.
  121. Sharp, D. (1912) The Zoological Record—Insecta Hymenoptera. Zoological Society of London, 49, 257–297.
  122. Sharp, D. (1913) The Zoological Record—Insecta Hymenoptera. Zoological Society of London, 50, 269–323.
  123. Sharp, D. (1915) The Zoological Record—Insecta Hymenoptera. Zoological Society of London, 52, 155–189.
  124. Sharp, D. (1916) The Zoological Record—Insecta Hymenoptera. Zoological Society of London, 53, 138–163.
  125. Smith, F. (1853) Catalogue of Hymenopterous Insects in the Collection of the British Museum. Part I. Andrenidae and Apidae. Part 1. British Museum, London, 198 pp. https://doi.org/10.5962/bhl.title.8766
  126. Smith, F. (1854) n.k. In: Catalogue of Hymenopterous Insects in the Collection of the British Museum. Part II. Andrenidae and Apidae. Part 2. British Museum, London, pp. 199–465.
  127. Strand, E. (1913) Apidae von Ceylon, gesammelt 1899 von Herrn Dr. W. Horn. Archiv für Naturgeschichte, 79 (A), 2, 135–150. https://doi.org/10.5962/bhl.part.11220
  128. Timmermann, K. & Kuhlmann, M. (2008) The biology of a Patellapis (s. str.) species (Hymenoptera: Apoidea: Halictidae): sociality described for the first time in this bee genus. Apidologie, 39, 189–197. https://doi.org/10.1051/apido:2008003
  129. Walker, K.L. (1986) Revision of the Australian species of the genus Homalictus Cockerell (Hymenoptera: Halictidae). Memoirs of Museum Victoria, 47, 105–200. https://doi.org/10.24199/j.mmv.1986.47.05
  130. Walker, K.L. (1995) Revision of the Australian native bee subgenus Lasioglossum (Chilalictus) Hymenoptera: Halictidae. Memoirs of the Museum of Victoria, 55 (Part 1 & 2), 1–214 & 215–423. https://doi.org/10.24199/j.mmv.1995.55.01 https://doi.org/10.24199/j.mmv.1995.55.02
  131. Walker, K.L. (2022a) Taxonomic revision of the Australian native bee subgenus Callalictus (Hymenoptera: Halictidae: Halictini: genus Lasioglossum). Australian Journal of Taxonomy, 7, 1–19. https://doi.org/10.54102/ajt.mk64x
  132. Walker, K.L. (2022b) Taxonomic revision of the Australian native bee subgenus Australictus (Hymenoptera: Halictidae: Halictini: genus Lasioglossum)—“Wood-Splitting Axe Bees”. Memoirs of Museum Victoria, 81, 135–162. https://doi.org/10.24199/j.mmv.2022.81.06
  133. Walter, D.E., Beard, J.J., Walker, K.L. & Sparks, K. (2002) Of mites and bees: A review of mite–bee associations in Australia and a revision of Raymentia Womersley Acari: Mesostigmata: Laelapidae), with the description of two new species of mites from Lasioglossum (Parasphecodes) spp. (Hymenoptera: Halictidae). Australian Journal of Entomology, 41 (2), 128–148. https://doi.org/10.1046/j.1440-6055.2002.00280.x
  134. Watmough, R.H. (1974) Biology and behaviour of carpenter bees in southern Africa. Journal of the Entomological Society of Southern Africa, 37, 261–81.
  135. Wcislo, W.T., Arneson, L., Roesch, K., Gonzalez, V., Smith, A. & Fernandez, H. (2004) The evolution of Noctural behaviour in sweat bees, Megalopta genalis and M. ecuadoria Hymenoptera: Halictidae): an escape from competitors and enemies? Biological Journal of the Linnean Society, 83, 377–387. https://doi.org/10.1111/j.1095-8312.2004.00399.x
  136. Wcislo, W.T. & Tierney, S. (2009) Behavioural environments and niche construction: the evolution of dim—light foraging in bees. Biological Reviews, 84, 19–37. https://doi.org/10.1111/j.1469-185X.2008.00059.x
  137. Williams, G. & Walker, K. (2003) Pollination of the wet forest herb Pollia crispata (Commelinaceae). Cunninghamia, 8 (1), 141–146.
  138. Womersley, H. (1956) On some new Acarina-Mesostigmata from Australia, New Zealand and New Guinea. Journal of the Linnean Society of London, Zoology, 42, 505–599. https://doi.org/10.1111/j.1096-3642.1956.tb02218.x
  139. Zhang, D., Niu, Z.-Q., Luo, A., Orr, M., Ferrari, R, Jin. J., Wu, Q., Zhang, F. & Zhu, C. (2022) Testing the systematic status of Homalictus and Rostrohalictus with weakened cross-vein groups within Halictini (Hymenoptera: Halictidae) using low-coverage whole-genome sequencing. Insect Science, 29 (6), 1819–1833. https://doi.org/10.1111/1744-7917.13034