Archaeidae

Figure 1.Habitus images of live Archaeidae from mid-eastern Australia: A–B, female Austrarchaea nodosa (Forster, 1956) from Binna Burra, Lamington National Park, Queensland; C–D, female A. mascordi sp. n. from Coolah Tops National Park, New South Wales; E–F, juvenile A. raveni sp. n. from Mount Glorious, Queensland. Images A–D by M. Rix; images E–F by Greg Anderson, used with permission.

Figure 9.Lateral ‘head’ profiles of females of species of Zephyrarchaea, showing variation in carapace shape as quantified by the post-ocular ratio (P.O. Ratio) and ratio of highest point of carapace relative to post-ocular length (HPC Ratio) (see Fig. 8): A, allotype Zephyrarchaea vichickmani sp. n.; B, allotype Zephyrarchaea marae sp. n.; C, holotype Zephyrarchaea grayi sp. n.; D, holotype Zephyrarchaea austini sp. n.; E, Zephyrarchaea mainae (Platnick, 1991b); F, allotype Zephyrarchaea janineae sp. n.; G, holotype Zephyrarchaea robinsi (Harvey, 2002a); H, allotype Zephyrarchaea melindae sp. n.; I, allotype Zephyrarchaea barrettae sp. n.

Figure 25. Summary distribution of the Austrarchaea daviesae species-group in tropical north-eastern Queensland, showing collections records for described species (labelled, with black circles) and unidentified juveniles or females (yellow circles) (see Table 1). Note the high proportion of unidentified specimens, especially within the Wet Tropics bioregion between Cooktown and Ingham.

Figure 9.Lateral ‘head’ profiles of males of species of Austrarchaea from New South Wales (excluding the Border Ranges), showing variation in carapace shape as quantified by the post-ocular ratio (P.O. Ratio) and ratio of highest point of carapace relative to post-ocular length (HPC Ratio): A, holotype A. monteithi sp. n.; B, holotype A. christopheri sp. n.; C, holotype A. platnickorum sp. n.; D, holotype A. binfordae sp. n.; E, holotype A. milledgei sp. n.; F, holotype A. mascordi sp. n.; G, holotype A. smithae sp. n.; H, holotype A. mcguiganae sp. n.; I, holotype A. helenae sp. n. Asterisks (*) denote concave depressions.

Figure 16.Zephyrarchaea vichickmani sp. n. A–B, Cephalothorax and abdomen, lateral view: A, allotype female (MV K11579) from Acheron Gap, Victoria; B, holotype male (MV K11578) from Acheron Gap, Victoria. C, Holotype male chelicerae, lateral view, showing accessory setae. D–F, Holotype male pedipalp: D–E, bulb, retrolateral view, with inset showing twisted apex of tegular sclerite 1 in retroventral view; F, detail of distal tegular sclerites, prolateral view. G, Allotype female internal genitalia, dorsal view. C1–2 = conductor sclerites 1–2; E = embolus; GP = genital plate; T = tegulum; (TS)1–3 = tegular sclerites 1–3. Scale bars: A–B = 1.0 mm; E = 0.2 mm.

Figure 25.Austrarchaea smithae sp. n. A–B, Cephalothorax and abdomen, lateral view: A, allotype female (AMS KS114979) from Blue Mountains National Park, New South Wales; B, holotype male (AMS KS114978) from Blue Mountains National Park, New South Wales. C, Holotype male chelicerae, lateral view, showing accessory setae. D–F, Holotype male pedipalp: D–E, bulb, retrolateral view; F, detail of distal tegular sclerites, prodistal view. G, Allotype female internal genitalia, dorsal view. C = conductor; E = embolus; Es = embolic sclerite; T = tegulum; (TS)1–3 = tegular sclerites 1–3. Scale bars: A–B = 1.0 mm; E = 0.2 mm.

Figure 26.Zephyrarchaea vichickmani sp. n., distribution and habitat: A, topographic map showing the known distribution of Archaeidae in Victoria and South Australia, with collection localities for Zephyrarchaea vichickmani highlighted in yellow; B, satellite image showing detail of inset (A); C, cool-temperate Nothofagus rainforest at the type locality – Acheron Gap, Yarra Ranges National Park, Victoria (March 2010). Image (C) by M. Rix.

Figure 43.Austrarchaea smithae sp. n., distribution and habitat: A, topographic map showing the known distribution of Archaeidae in south-eastern Queensland and eastern New South Wales, with collection localities for A. smithae highlighted in yellow (orange localities denote genotyped juvenile specimens of tentative identification); B, satellite image showing detail of inset (A); C, wet eucalypt forest at the type locality – Mount Wilson, Blue Mountains National Park, New South Wales (April 2010). Image (C) by M. Rix.

Figure 4.Diagnostic characters of Zephyrarchaea gen. n. and Austrarchaea Forster & Platnick. A–B, Cephalothorax, lateral view, showing differences in carapace height and the position of accessory setae on male chelicerae: A, male Austrarchaea harmsi Rix & Harvey; B, male Zephyrarchaea marki sp. n. C–D, Expanded male pedipalps, retro-ventral view, showing differences in the articulation and fusion of the conductor sclerites: C, Austrarchaea helenae Rix & Harvey; D, Zephyrarchaea marae sp. n. bH = basal haematodocha; C = conductor; C1–2 = conductor sclerites 1–2; Cy = cymbium; E = embolus; Es = embolic sclerite; H = distal haematodocha; T = tegulum; (TS)1–3 = tegular sclerites 1–3. Scale bars: C–D = 0.2 mm.

Figure 9.Lateral ‘head’ profiles of males of species of Austrarchaea from New South Wales (excluding the Border Ranges), showing variation in carapace shape as quantified by the post-ocular ratio (P.O. Ratio) and ratio of highest point of carapace relative to post-ocular length (HPC Ratio): A, holotype A. monteithi sp. n.; B, holotype A. christopheri sp. n.; C, holotype A. platnickorum sp. n.; D, holotype A. binfordae sp. n.; E, holotype A. milledgei sp. n.; F, holotype A. mascordi sp. n.; G, holotype A. smithae sp. n.; H, holotype A. mcguiganae sp. n.; I, holotype A. helenae sp. n. Asterisks (*) denote concave depressions.

Figure 5.Carapace morphology of Zephyrarchaea species. A–B, Zephyrarchaea mainae (Platnick): A, male pars cephalica, dorso-lateral view, showing accessory setae (AS) on and adjacent to proximal cheliceral bulge; B, female pars cephalica, antero-lateral view, showing cheliceral foramen (CF) and ocular bulge (OB). C–D, Zephyrarchaea marae sp. n.: C, male cephalothorax, antero-lateral view; D, male pars cephalica and chelicerae, frontal view, showing dorsal ‘head’ region and cheliceral foramen (CF). E, Cheliceraeof male Zephyrarchaea mainae, lateral view, showing proximal accessory setae (AS) and ectal stridulatory file (SF). F–G, Detail of carapace of male Zephyrarchaea marae, lateral view, showing granulate cuticle and setose tubercles (sT).

Figure 26.Austrarchaea helenae sp. n. A–D, Holotype male (AMS KS62774) from Macquarie Pass National Park, New South Wales: A, cephalothorax and abdomen, lateral view; B, chelicerae, lateral view, showing accessory setae; C–D, pedipalpal bulb (expanded), retro-ventral view. C = conductor; Cy = cymbium; E = embolus; eH = embolic portion of distal haematodocha; Es = embolic sclerite; pH = proximal portion of distal haematodocha; T = tegulum; (TS)1–3 = tegular sclerites 1–3. Scale bars: A = 1.0 mm; D = 0.2 mm.

Figure 6.Abdominal morphology of Zephyrarchaea species. A–B, Male abdomens, dorso-lateral view, showing dorsal scutes (S) and additional dorsal sclerites (ds) on hump-like tubercles: A, Zephyrarchaea mainae (Platnick); B, Zephyrarchaea marae sp. n. C, Female epigastric region of Zephyrarchaea mainae, ventral view, showing setose book lung covers (BL) and median genital plate (GP). D, Male epigastric region of Zephyrarchaea mainae, ventral view, showing fusion of epigastric sclerites. E, Abdominal cuticle of male Zephyrarchaea marae, lateral view, showing sclerotic spots (ss) surrounded by short setae. F, Spinnerets of female Zephyrarchaea mainae, posterior view (ventral side uppermost), showing anterior lateral (ALS) and posterior lateral (PLS) spinnerets anterior to anal tubercle (AT), and the absence of a colulus.

Figure 44.Austrarchaea helenae sp. n., distribution and habitat: A, topographic map showing the known distribution of Archaeidae in south-eastern Queensland and eastern New South Wales, with collection localities for A. helenae highlighted in yellow (red highlighted localities denote juvenile specimens of tentative identification); B, satellite image showing detail of inset (A); C, subtropical rainforest at the type locality – Macquarie Pass, Macquarie Pass National Park, New South Wales (April 2010). Image (C) by M. Rix.

Figure 8.Lateral ‘head’ profiles of males of species of Zephyrarchaea, showing variation in carapace shape as quantified by the post-ocular ratio (P.O. Ratio) and ratio of highest point of carapace relative to post-ocular length (HPC Ratio): A, holotype Zephyrarchaea marae sp. n., showing the derivation of morphometric ratios; B, holotype Zephyrarchaea vichickmani sp. n.; C, holotype Zephyrarchaea marae sp. n.; D, holotype Zephyrarchaea porchi sp. n.; E, holotype Zephyrarchaea melindae sp. n.; F, holotype Zephyrarchaea barrettae sp. n.; G, holotype Zephyrarchaea mainae (Platnick, 1991b); H, holotype Zephyrarchaea marki sp. n.; I, holotype Zephyrarchaea janineae sp. n.

Figure 7.Lateral ‘head’ profiles of females of species of Austrarchaea from mid-eastern Australia, showing variation in carapace shape as quantified by the post-ocular ratio (P.O. Ratio) and ratio of highest point of carapace relative to post-ocular length (HPC Ratio): A, allotype A. alani sp. n.; B, allotype A. aleenae sp. n.; C, allotype A. judyae sp. n.; D, allotype A. raveni sp. n.; E, allotype A. harmsi sp. n.; F, allotype A. monteithi sp. n.; G, allotype A. cunninghami sp. n.; H, allotype A. dianneae sp. n.; I, A. nodosa (Forster, 1956); J, allotype A. platnickorum sp. n.; K, allotype A. binfordae sp. n.; L, A. milledgei sp. n. (WAM T112568); M, allotype A. mascordi sp. n.; N, allotype A. smithae sp. n.; O, allotype A. mcguiganae sp. n. Asterisks (*) denote concave depressions.

Figure 9.Lateral ‘head’ profiles of females of species of Zephyrarchaea, showing variation in carapace shape as quantified by the post-ocular ratio (P.O. Ratio) and ratio of highest point of carapace relative to post-ocular length (HPC Ratio) (see Fig. 8): A, allotype Zephyrarchaea vichickmani sp. n.; B, allotype Zephyrarchaea marae sp. n.; C, holotype Zephyrarchaea grayi sp. n.; D, holotype Zephyrarchaea austini sp. n.; E, Zephyrarchaea mainae (Platnick, 1991b); F, allotype Zephyrarchaea janineae sp. n.; G, holotype Zephyrarchaea robinsi (Harvey, 2002a); H, allotype Zephyrarchaea melindae sp. n.; I, allotype Zephyrarchaea barrettae sp. n.

Figure 9.Lateral ‘head’ profiles of males of species of Austrarchaea from New South Wales (excluding the Border Ranges), showing variation in carapace shape as quantified by the post-ocular ratio (P.O. Ratio) and ratio of highest point of carapace relative to post-ocular length (HPC Ratio): A, holotype A. monteithi sp. n.; B, holotype A. christopheri sp. n.; C, holotype A. platnickorum sp. n.; D, holotype A. binfordae sp. n.; E, holotype A. milledgei sp. n.; F, holotype A. mascordi sp. n.; G, holotype A. smithae sp. n.; H, holotype A. mcguiganae sp. n.; I, holotype A. helenae sp. n. Asterisks (*) denote concave depressions.

Figure 17.Zephyrarchaea marae sp. n. A–B, Cephalothorax and abdomen, lateral view: A, allotype female (MV K5921) from Gunyah Rainforest State Reserve, Victoria; B, holotype male (MV K11580) from Tarra-Bulga National Park, Victoria. C, Holotype male chelicerae, lateral view, showing accessory setae. D–F, Holotype male pedipalp: D–E, bulb, retrolateral view, with inset showing twisted apex of tegular sclerite 1 in retroventral view; F, detail of distal tegular sclerites, prolateral view. G, Allotype female internal genitalia, dorsal view. C1–2 = conductor sclerites 1–2; E = embolus; GP = genital plate; T = tegulum; (TS)1–3 = tegular sclerites 1–3. Scale bars: A–B = 1.0 mm; E = 0.2 mm.

Figure 27.Austrarchaea mcguiganae sp. n. A–B, Cephalothorax and abdomen, lateral view: A, allotype female (AMS KS114975) from Monga National Park, New South Wales; B, holotype male (AMS KS62790) from Monga National Park, New South Wales. C, Holotype male chelicerae, lateral view, showing accessory setae. D–E, Holotype male pedipalpal bulb (fully expanded), retro-ventral view. G, Allotype female internal genitalia, dorsal view. bH = basal haematodocha; C = conductor; Cy = cymbium; E = embolus; eH = embolic portion of distal haematodocha; Es = embolic sclerite; pH = proximal portion of distal haematodocha; T = tegulum; (TS)1–3 = tegular sclerites 1–3. Scale bars: A–B = 1.0 mm; E = 0.2 mm.

Figure 27.Zephyrarchaea marae sp. n., distribution and habitat: A, topographic map showing the known distribution of Archaeidae in Victoria and South Australia, with collection localities for Zephyrarchaea marae highlighted in yellow; B, satellite image showing detail of inset (A); C, cool-temperate Nothofagus rainforest at the type locality – Tarra Valley, Tarra-Bulga National Park, Victoria (April 2010). Image (C) by M. Rix.

Figure 1.Habitus images of live Archaeidae from mid-eastern Australia: A–B, female Austrarchaea nodosa (Forster, 1956) from Binna Burra, Lamington National Park, Queensland; C–D, female A. mascordi sp. n. from Coolah Tops National Park, New South Wales; E–F, juvenile A. raveni sp. n. from Mount Glorious, Queensland. Images A–D by M. Rix; images E–F by Greg Anderson, used with permission.

Figure 8.Lateral ‘head’ profiles of males of species of Zephyrarchaea, showing variation in carapace shape as quantified by the post-ocular ratio (P.O. Ratio) and ratio of highest point of carapace relative to post-ocular length (HPC Ratio): A, holotype Zephyrarchaea marae sp. n., showing the derivation of morphometric ratios; B, holotype Zephyrarchaea vichickmani sp. n.; C, holotype Zephyrarchaea marae sp. n.; D, holotype Zephyrarchaea porchi sp. n.; E, holotype Zephyrarchaea melindae sp. n.; F, holotype Zephyrarchaea barrettae sp. n.; G, holotype Zephyrarchaea mainae (Platnick, 1991b); H, holotype Zephyrarchaea marki sp. n.; I, holotype Zephyrarchaea janineae sp. n.

Figure 7.Lateral ‘head’ profiles of females of species of Austrarchaea from mid-eastern Australia, showing variation in carapace shape as quantified by the post-ocular ratio (P.O. Ratio) and ratio of highest point of carapace relative to post-ocular length (HPC Ratio): A, allotype A. alani sp. n.; B, allotype A. aleenae sp. n.; C, allotype A. judyae sp. n.; D, allotype A. raveni sp. n.; E, allotype A. harmsi sp. n.; F, allotype A. monteithi sp. n.; G, allotype A. cunninghami sp. n.; H, allotype A. dianneae sp. n.; I, A. nodosa (Forster, 1956); J, allotype A. platnickorum sp. n.; K, allotype A. binfordae sp. n.; L, A. milledgei sp. n. (WAM T112568); M, allotype A. mascordi sp. n.; N, allotype A. smithae sp. n.; O, allotype A. mcguiganae sp. n. Asterisks (*) denote concave depressions.