Cribb's Indohya (WAM PSE180) Indohya cribbi Harvey & Burger
Fauna Portal species: 13743Diagnosis
(after Harvey et al. 2023): Indohya cribbi belongs to a group of Indohya species that have 12 setae on the carapace and no eyes. It differs from I. anastomosa, I. aquila and I. humphreysi by the presence of 4 setae on tergite I (only 2 setae in I. anastomosa, I. aquila and I. humphreysi). It differs from I. arnoldstrongi, I. cockingi and I. finitima by having numerous pointed teeth on the fixed chelal finger, and from all except I. lynbeazleyae by the granulate pedipalpal femur and patella (smooth or at most only partially granulate in the others). It differs from I. lynbeazleyae by the median setal row of the carapace being slightly recurved. It also differs from all other Indohya species for which sequence data are available by two synapomorphies in COI mtDNA: at base 209 there is a substitution to C; and at base 211 there is a substitution to T. The seven sequenced specimens differ from all other sequenced specimens of Indohya by 11.6–26.2%.
Status
- native
Linnean Holotype
Australia
- Western Australia
Fauna Portal Records
The map shows all records that have been verified as part of the Fauna Portal project and may not represent the true distribution of a species. Specifically, for described species, check the link to the Atlas of Living Australia on this page for potential wider distributions. Fauna Portal Reference specimens and Linnean types are shown in red. If you identified a specimen that exceeds the distribution of an undescribed species as illustrated here, please contact the Fauna Portal team who can assist with the lodgement of the specimen in a public institution and display on the map.
Publications
Harvey MS, Burger MAA, Abrams KM, Finston TL, Huey JA, Perina G (2023): The systematics of the pseudoscorpion genus Indohya (Pseudoscorpiones: Hyidae) in Australia. Zootaxa. 5342: 1 - 119DOI
AACTCTTTATTTTTTATTTGGAATTTGATCAGGTATAATAGGAATAAGATATAGAATAATCATTCGCCTTCAATTGTCCTCTCCGGGAGTTTTAATTTCTGAACACTCCTATAATGTTGTAGTAACAACCCATGCTTTTATTATAATTTTTTTCATGGTAATACCAATTATAATCGGAGGGTTTGGGAATTGACTTGTACCTTTGCTTATTGGAGCTCCTGATATAGCTTTCCCTCGTATAAATAACTTAAGATTTTGATTATTACCCCCTTCTTTAAGTTTAATAATACTATCTTCTTCTATAGAAATAGGATGTGGAACAGGTTGAACTCTTTATCCTCCTCTGGCTGGTATATCCGCTCATCCTGGCAGAGCTGTTGATTTAGTGATTTTCTCCCTTCACCTAGCAGGAGCATCTTCAATTTTGGGTGCTATTAACTTTATTACTACTATTTTCAATATACGAATAACAAGAATAAAATTTAAACAAGTACCCTTATTTGTTTGATCTATTTTAATTACTACTATTCTTCTCTTATTAGCAATCCCAGTATTAGCCGGGGCTATTACTATATTATTGACAGATCGTAATTTTAATACTTGCTTTTTCGTACCTTCGGGAGGAGGAGATCCTATTTTATTTCAACATTTATTT
AACTCTTTATTTCTTATTCGGAATTTGATCAGGTATAATAGGAATAAGATACAGAATAATCATTCGCCTTCAATTGTCCTCTCCAGGAGTTTTAATTTCAGAACATTCCTACAATGTTGTAGTAACAACTCATGCTTTTATTATAATTTTTTTTATAGTAATACCAATTATAATTGGAGGTTTCGGGAATTGATTAGTACCTTTGCTTATTGGAGCTCCTGATATAGCTTTCCCTCGTATAAATAACTTGAGATTTTGATTATTACCTCCTTCATTAAGTTTAATAATACTTTCTTCTTCTATAGAAATAGGATGTGGAACAGGTTGAACTCTATATCCCCCTCTGGCTGGAATATCTGCTCATCCTGGAAGAGCTGTTGACTTGGTGATTTTCTCTCTTCATCTAGCAGGAGCATCTTCAATTTTAGGAGCTATTAATTTTATTACTACTATTTTTAATATACGAATAACAAGAATAAAATTTAAACAAGTACCCCTGTTCGTATGATCTATTTTAATTACTACTATCCTTCTCTTATTAGCAATTCCAGTATTAGCCGGAGCTATTACTATATTATTGACAGATCGTAACTTTAATACTTGCTTTTTTGTACCCTCAGGTGGAGGAGATCCTATTTTATTCCAACATTTATTT
AACCCTTTATTTCTTATTTGGAATTTGATCAGGTATAATAGGAATAAGATACAGAATAATCATTCGTCTTCAATTGTCCTCTCCAGGGGTTTTAATTTCTGAACATTCCTACAATGTTGTAGTAACAACCCATGCTTTTATTATAATTTTTTTTATAGTAATACCAATTATAATTGGAGGTTTTGGGAATTGATTAGTACCTTTACTTATCGGAGCTCCTGATATAGCTTTCCCCCGTATAAATAACTTGAGATTTTGATTATTACCCCCTTCATTAAGTTTAATAATACTTTCCTCTTCCATAGAAATGGGATGTGGAACAGGTTGAACTCTGTATCCTCCTCTGGCTGGAATATCTGCCCATCCTGGAAGAGCTGTTGACTTAGTAATTTTCTCTCTTCACCTAGCAGGGGCATCTTCAATTTTGGGTGCTATTAATTTTATTACTACTATTTTCAATATACGAATAACAAGAATAAAATTTAAACAAGTACCTCTGTTTGTTTGATCTATTTTAATTACTACTATTCTTCTCTTATTAGCAATTCCAGTATTAGCTGGGGCTATTACTATATTATTGACAGATCGTAACTTTAATACTTGCTTTTTTGTACCCTCAGGAGGAGGGGACCCTATTTTATTCCAGCATTTATTT
AACTCTTTATTTTTTATTCGGAATTTGATCAGGTATAATAGGAATAAGATACAGAATAATCATTCGCCTTCAATTATCCTCTCCGGGAGTTTTAATTTCAGAACATTCCTACAATGTTGTAGTAACAACTCATGCTTTTATTATAATTTTTTTTATAGTAATACCAATTATAATTGGAGGTTTCGGGAATTGATTAGTACCTTTGCTTATTGGAGCTCCTGATATAGCTTTCCCTCGTATAAATAACTTGAGATTTTGATTATTACCTCCTTCATTAAGTTTAATAATACTTTCTTCTTCCATAGAAATAGGATGTGGAACAGGTTGAACTCTATATCCTCCTCTGGCTGGAATATCTGCTCATCCTGGAAGAGCTGTTGACTTGGTGATTTTTTCTCTCCATCTAGCAGGAGCATCTTCAATTTTAGGAGCTATTAATTTTATTACTACTATTTTTAATATACGAATAACAAGAATAAAATTTAAACAAGTACCCCTGTTCGTATGATCTATTTTAATTACTACTATCCTTCTCTTATTAGCAATTCCAGTATTAGCTGGGGCTATTACTATATTATTGACAGATCGTAACTTTAATACTTGCTTTTTTGTACCCTCAGGTGGGGGAGATCCTATTTTATTCCAACATCTATTT
AACTCTATATTTCTTATTTGGAATTTGATCAGGTATAATAGGAATAAGATACAGAATAATCATTCGTCTTCAATTGTCCTCTCCGGGAGTTTTAATTTCAGAACATTCTTACAATGTTGTAGTAACGACCCATGCTTTTATTATAATTTTTTTTATGGTAATACCAATTATAATTGGAGGTTTTGGGAATTGACTTGTACCTTTGCTTATTGGAGCTCCTGATATAGCTTTCCCTCGTATAAATAACTTGAGATTTTGATTATTACCCCCTTCATTAAGTTTAATAATACTATCTTCTTCCATAGAAATAGGATGTGGAACAGGTTGAACTCTATACCCCCCTCTGGCCGGAATATCCGCCCATCCTGGGAGAGCTGTTGATTTAGTGATTTTCTCTCTTCACCTAGCAGGGGCATCTTCAATTTTAGGTGCTATTAATTTTATTACTACTATTTTTAATATACGAATAACAAGAATGAAATTTAAACAAGTACCTTTGTTTGTTTGATCTATTTTGATTACTACTATTCTTCTCTTATTAGCAATTCCAGTATTAGCTGGAGCTATTACTATATTATTGACAGATCGTAATTTTAATACTTGCTTTTTCGTACCCTCAGGAGGGGGGGATCCTATTTTATTTCAGCATTTATTT
AACCCTTTATTTCTTATTTGGAATTTGATCAGGTATAATAGGAATAAGATACAGAATAATCATTCGTCTTCAATTGTCCTCTCCAGGGGTTTTAATTTCTGAACATTCCTACAATGTTGTAGTAACAACCCATGCTTTTATTATAATTTTTTTTATAGTAATACCAATTATAATTGGAGGTTTTGGGAATTGATTAGTACCTTTACTTATCGGAGCTCCTGATATAGCTTTCCCCCGTATAAATAACTTGAGATTTTGATTATTACCCCCTTCATTAAGTTTAATAATACTTTCCTCTTCCATAGAAATGGGATGTGGGACAGGTTGAACTCTGTATCCTCCTCTGGCTGGAATATCTGCCCATCCTGGAAGAGCTGTTGACTTAGTAATTTTCTCTCTTCACCTAGCAGGAGCATCTTCAATTTTGGGTGCTATTAATTTTATTACTACTATTTTCAATATACGAATAACAAGAATAAAATTTAAACAAGTACCTCTGTTTGTTTGATCTATTTTAATTACTACTATTCTTCTCTTATTAGCAATTCCAGTATTAGCTGGGGCTATTACTATATTATTGACAGATCGTAACTTTAATACTTGCTTTTTTGTACCCTCAGGAGGAGGGGATCCTATTTTATTCCAGCATTTATTT
AACTCTTTATTTCTTATTCGGAATTTGATCAGGTATAATAGGAATAAGATACAGAATAATCATTCGCCTTCAATTGTCCTCTCCAGGAGTTTTAATTTCAGAACATTCCTACAATGTTGTAGTAACAACTCATGCTTTTATTATAATTTTTTTTATAGTAATACCAATTATAATTGGAGGTTTCGGGAATTGATTAGTACCTTTGCTTATTGGAGCTCCTGATATAGCTTTCCCTCGTATAAATAACTTGAGATTTTGATTATTACCTCCTTCATTAAGTTTAATAATACTTTCTTCTTCTATAGAAATAGGATGTGGAACAGGTTGAACTCTATATCCCCCTCTGGCTGGAATATCTGCTCATCCTGGAAGAGCTGTTGACTTGGTGATTTTCTCTCTTCATCTAGCAGGAGCATCTTCAATTTTAGGAGCTATTAATTTTATTACTACTATTTTTAATATACGAATAACAAGAATAAAATTTAAACAAGTACCCCTGTTCGTATGATCTATTTTAATTACTACTATCCTTCTCTTATTAGCAATTCCAGTATTAGCCGGGGCTATTACTATATTATTGACAGATCGTAACTTTAATACTTGCTTTTTTGTACCCTCAGGTGGAGGAGATCCTATTTTATTCCAACATTTATTT