taxonID	type	format	identifier	references	title	description	created	creator	contributor	publisher	audience	source	license	rightsHolder	datasetID
386587D4E036FFA29BFFFA67FBBFF86F.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14703426/files/figure.png	https://doi.org/10.5281/zenodo.14703426	FIGURE 6. Images of cranium and mandible of Acrobates via 3D reconstructions from Micro-CT scans. A–E) A. frontalis ANWC CM29876 Julatten Qld, F–J) A. pygmaeus ANWC CM3745 Bondo NSW, K–O) Distoechurus pennatus AMS M14752 Mt Karimui, South Simbu Province, PNG, in dorsal, ventral, lateral cranial views and buccal and occlusal mandible views. The crania, mandibles and teeth of the two Acrobates species are very similar (also see Supplementary Fig. S2 for illustration of variation within each species). Acrobates differs from Distoechurus cranially in having a proportionally larger and more inflated neurocranium, a proportionally shorter and deeper rostrum, a narrower mandibular angular process. See the text for a more extensive description.	FIGURE 6. Images of cranium and mandible of Acrobates via 3D reconstructions from Micro-CT scans. A–E) A. frontalis ANWC CM29876 Julatten Qld, F–J) A. pygmaeus ANWC CM3745 Bondo NSW, K–O) Distoechurus pennatus AMS M14752 Mt Karimui, South Simbu Province, PNG, in dorsal, ventral, lateral cranial views and buccal and occlusal mandible views. The crania, mandibles and teeth of the two Acrobates species are very similar (also see Supplementary Fig. S2 for illustration of variation within each species). Acrobates differs from Distoechurus cranially in having a proportionally larger and more inflated neurocranium, a proportionally shorter and deeper rostrum, a narrower mandibular angular process. See the text for a more extensive description.	2025-01-09	P. Aplin, Kenneth;N. Armstrong, Kyle;M. Aplin, Lucy;Jenkins, Paula;Ingleby, Sandra;Donnellan, Stephen C.		Zenodo	biologists	P. Aplin, Kenneth;N. Armstrong, Kyle;M. Aplin, Lucy;Jenkins, Paula;Ingleby, Sandra;Donnellan, Stephen C.			
386587D4E037FFBA9BFFF9B2FE1EF8BA.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14703416/files/figure.png	https://doi.org/10.5281/zenodo.14703416	FIGURE 3. Comparison of the morphology of ventral tail tip A, B) and pads of pedal digits C, D) in Acrobates. The extent of naked tail tip and relative degree of fur density at tip differs between A) Acrobates pygmaeus, and B) A. frontalis. Pedal digit morphology in C) A. pygmaeus (ANWC M24072)—terminal pads of pedal digits 4 and 5 rounded, subequal in length and width, and with narrow distal groove (black arrows); base of hallux with two distinct raised pads (blue arrows); and D) A. frontalis (ANWC M30739)—terminal pads of pedal digits 4 and 5 broadly heart-shaped, much wider than long and with broad distal groove (black arrows); base of hallux with a single raised pad (blue arrow). Note the syndactylous toes 2 and 3 in C, D).	FIGURE 3. Comparison of the morphology of ventral tail tip A, B) and pads of pedal digits C, D) in Acrobates. The extent of naked tail tip and relative degree of fur density at tip differs between A) Acrobates pygmaeus, and B) A. frontalis. Pedal digit morphology in C) A. pygmaeus (ANWC M24072)—terminal pads of pedal digits 4 and 5 rounded, subequal in length and width, and with narrow distal groove (black arrows); base of hallux with two distinct raised pads (blue arrows); and D) A. frontalis (ANWC M30739)—terminal pads of pedal digits 4 and 5 broadly heart-shaped, much wider than long and with broad distal groove (black arrows); base of hallux with a single raised pad (blue arrow). Note the syndactylous toes 2 and 3 in C, D).	2025-01-09	P. Aplin, Kenneth;N. Armstrong, Kyle;M. Aplin, Lucy;Jenkins, Paula;Ingleby, Sandra;Donnellan, Stephen C.		Zenodo	biologists	P. Aplin, Kenneth;N. Armstrong, Kyle;M. Aplin, Lucy;Jenkins, Paula;Ingleby, Sandra;Donnellan, Stephen C.			
386587D4E037FFBA9BFFF9B2FE1EF8BA.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14703418/files/figure.png	https://doi.org/10.5281/zenodo.14703418	FIGURE 4. Ventral and dorsal pelage colour in Acrobates. Acrobates frontalis—A) AMS M1370 Belltrees, Scone, NSW; B) AMS M3001 Belltrees, Scone, NSW; C) AMS M860 Hornsby, NSW; D) AMS M8326, Maraylya, NSW; E) AMS M8326, Maraylya, NSW dorsal view; Acrobates pygmaeus—F) AMS M3048 Newnes Forest, via Newnes Junction NSW; G) AMS M5060 Arandale, Burragate, NSW; H) AMS M3295, Cox’s River, Lithgow, NSW; I) AMS M3723, Portland, NSW; J) AMS M3723, Portland, NSW dorsal. Images for AMS M3723 and M8326 by Ron Lovatt © Australian Museum DigiVol. Scale bars are 1 cm.	FIGURE 4. Ventral and dorsal pelage colour in Acrobates. Acrobates frontalis—A) AMS M1370 Belltrees, Scone, NSW; B) AMS M3001 Belltrees, Scone, NSW; C) AMS M860 Hornsby, NSW; D) AMS M8326, Maraylya, NSW; E) AMS M8326, Maraylya, NSW dorsal view; Acrobates pygmaeus—F) AMS M3048 Newnes Forest, via Newnes Junction NSW; G) AMS M5060 Arandale, Burragate, NSW; H) AMS M3295, Cox’s River, Lithgow, NSW; I) AMS M3723, Portland, NSW; J) AMS M3723, Portland, NSW dorsal. Images for AMS M3723 and M8326 by Ron Lovatt © Australian Museum DigiVol. Scale bars are 1 cm.	2025-01-09	P. Aplin, Kenneth;N. Armstrong, Kyle;M. Aplin, Lucy;Jenkins, Paula;Ingleby, Sandra;Donnellan, Stephen C.		Zenodo	biologists	P. Aplin, Kenneth;N. Armstrong, Kyle;M. Aplin, Lucy;Jenkins, Paula;Ingleby, Sandra;Donnellan, Stephen C.			
386587D4E037FFBA9BFFF9B2FE1EF8BA.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14703422/files/figure.png	https://doi.org/10.5281/zenodo.14703422	FIGURE 5. Ear canal disc morphology in acrobatid possums—external (left) and internal (right) views for each pair of images via 3D reconstructions from Micro-CT scans of A–E) A. pygmaeus, A) ANWC M3745 Bondo NSW, B) ANWC M3912 Michelago ACT, C) ANWC M10812 Coolangubra State Forest, Bombala NSW, D) ANWC M24072 Nadgee Nature Reserve NSW, E) ANWC M24706 Mongarlowe River, 3 m S Mongarlowe NSW; and F–I) A. frontalis, F) ANWC M183 Mt Brown, Richmond Range State Forest NSW, G) ANWC M29876 Julatten Qld, H) ANWC M30739 Dalmeny Qld, I) Coonabarabran; and J) Distoechurus ANWC M12247 Mt Moiba, near Opanabu, Milne Bay Province, PNG. K) Lateral view of an Acrobates skull showing position of the ear canal disc.In external view, the disc occupies between 60 and 70% of the width of the tympanic canal in A. pygmaeus, versus 70 and 90% in A. frontalis. In the internal view, the disc lacks sculpturing in A. pygmaeus versus sculpturing that emphasises the raised margin in A. frontalis. In A. frontalis in external view, the interior of the disc is depressed so that the margin appears raised. The disc morphology in Distoechurus pennatus most closely resembles that of A. pygmaeus.	FIGURE 5. Ear canal disc morphology in acrobatid possums—external (left) and internal (right) views for each pair of images via 3D reconstructions from Micro-CT scans of A–E) A. pygmaeus, A) ANWC M3745 Bondo NSW, B) ANWC M3912 Michelago ACT, C) ANWC M10812 Coolangubra State Forest, Bombala NSW, D) ANWC M24072 Nadgee Nature Reserve NSW, E) ANWC M24706 Mongarlowe River, 3 m S Mongarlowe NSW; and F–I) A. frontalis, F) ANWC M183 Mt Brown, Richmond Range State Forest NSW, G) ANWC M29876 Julatten Qld, H) ANWC M30739 Dalmeny Qld, I) Coonabarabran; and J) Distoechurus ANWC M12247 Mt Moiba, near Opanabu, Milne Bay Province, PNG. K) Lateral view of an Acrobates skull showing position of the ear canal disc.In external view, the disc occupies between 60 and 70% of the width of the tympanic canal in A. pygmaeus, versus 70 and 90% in A. frontalis. In the internal view, the disc lacks sculpturing in A. pygmaeus versus sculpturing that emphasises the raised margin in A. frontalis. In A. frontalis in external view, the interior of the disc is depressed so that the margin appears raised. The disc morphology in Distoechurus pennatus most closely resembles that of A. pygmaeus.	2025-01-09	P. Aplin, Kenneth;N. Armstrong, Kyle;M. Aplin, Lucy;Jenkins, Paula;Ingleby, Sandra;Donnellan, Stephen C.		Zenodo	biologists	P. Aplin, Kenneth;N. Armstrong, Kyle;M. Aplin, Lucy;Jenkins, Paula;Ingleby, Sandra;Donnellan, Stephen C.			
386587D4E037FFBA9BFFF9B2FE1EF8BA.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14703426/files/figure.png	https://doi.org/10.5281/zenodo.14703426	FIGURE 6. Images of cranium and mandible of Acrobates via 3D reconstructions from Micro-CT scans. A–E) A. frontalis ANWC CM29876 Julatten Qld, F–J) A. pygmaeus ANWC CM3745 Bondo NSW, K–O) Distoechurus pennatus AMS M14752 Mt Karimui, South Simbu Province, PNG, in dorsal, ventral, lateral cranial views and buccal and occlusal mandible views. The crania, mandibles and teeth of the two Acrobates species are very similar (also see Supplementary Fig. S2 for illustration of variation within each species). Acrobates differs from Distoechurus cranially in having a proportionally larger and more inflated neurocranium, a proportionally shorter and deeper rostrum, a narrower mandibular angular process. See the text for a more extensive description.	FIGURE 6. Images of cranium and mandible of Acrobates via 3D reconstructions from Micro-CT scans. A–E) A. frontalis ANWC CM29876 Julatten Qld, F–J) A. pygmaeus ANWC CM3745 Bondo NSW, K–O) Distoechurus pennatus AMS M14752 Mt Karimui, South Simbu Province, PNG, in dorsal, ventral, lateral cranial views and buccal and occlusal mandible views. The crania, mandibles and teeth of the two Acrobates species are very similar (also see Supplementary Fig. S2 for illustration of variation within each species). Acrobates differs from Distoechurus cranially in having a proportionally larger and more inflated neurocranium, a proportionally shorter and deeper rostrum, a narrower mandibular angular process. See the text for a more extensive description.	2025-01-09	P. Aplin, Kenneth;N. Armstrong, Kyle;M. Aplin, Lucy;Jenkins, Paula;Ingleby, Sandra;Donnellan, Stephen C.		Zenodo	biologists	P. Aplin, Kenneth;N. Armstrong, Kyle;M. Aplin, Lucy;Jenkins, Paula;Ingleby, Sandra;Donnellan, Stephen C.			
386587D4E037FFBA9BFFF9B2FE1EF8BA.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14703414/files/figure.png	https://doi.org/10.5281/zenodo.14703414	FIGURE 2. Phylogenetic relationships among Acrobates based on: A) mitochondrial ND2 gene; B); a 96 bp segment of the mitochondrial 12S rRNA gene (Bayesian tree); and C) a 148 bp segment of the BRCA1 gene (ML tree). ML bootstrap proportions from 100 pseudoreplicates (left) and Bayesian posterior probabilities (right) indicated at nodes.	FIGURE 2. Phylogenetic relationships among Acrobates based on: A) mitochondrial ND2 gene; B); a 96 bp segment of the mitochondrial 12S rRNA gene (Bayesian tree); and C) a 148 bp segment of the BRCA1 gene (ML tree). ML bootstrap proportions from 100 pseudoreplicates (left) and Bayesian posterior probabilities (right) indicated at nodes.	2025-01-09	P. Aplin, Kenneth;N. Armstrong, Kyle;M. Aplin, Lucy;Jenkins, Paula;Ingleby, Sandra;Donnellan, Stephen C.		Zenodo	biologists	P. Aplin, Kenneth;N. Armstrong, Kyle;M. Aplin, Lucy;Jenkins, Paula;Ingleby, Sandra;Donnellan, Stephen C.			
386587D4E037FFBA9BFFF9B2FE1EF8BA.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14703428/files/figure.png	https://doi.org/10.5281/zenodo.14703428	FIGURE 7. Map showing distribution records of Acrobates based on identified vouchers (Supplementary Table S1). A) A. frontalis—blue squares; B) A. pygmaeus—red circles.	FIGURE 7. Map showing distribution records of Acrobates based on identified vouchers (Supplementary Table S1). A) A. frontalis—blue squares; B) A. pygmaeus—red circles.	2025-01-09	P. Aplin, Kenneth;N. Armstrong, Kyle;M. Aplin, Lucy;Jenkins, Paula;Ingleby, Sandra;Donnellan, Stephen C.		Zenodo	biologists	P. Aplin, Kenneth;N. Armstrong, Kyle;M. Aplin, Lucy;Jenkins, Paula;Ingleby, Sandra;Donnellan, Stephen C.			
386587D4E02FFFBC9BFFFD53FE41FB67.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14703416/files/figure.png	https://doi.org/10.5281/zenodo.14703416	FIGURE 3. Comparison of the morphology of ventral tail tip A, B) and pads of pedal digits C, D) in Acrobates. The extent of naked tail tip and relative degree of fur density at tip differs between A) Acrobates pygmaeus, and B) A. frontalis. Pedal digit morphology in C) A. pygmaeus (ANWC M24072)—terminal pads of pedal digits 4 and 5 rounded, subequal in length and width, and with narrow distal groove (black arrows); base of hallux with two distinct raised pads (blue arrows); and D) A. frontalis (ANWC M30739)—terminal pads of pedal digits 4 and 5 broadly heart-shaped, much wider than long and with broad distal groove (black arrows); base of hallux with a single raised pad (blue arrow). Note the syndactylous toes 2 and 3 in C, D).	FIGURE 3. Comparison of the morphology of ventral tail tip A, B) and pads of pedal digits C, D) in Acrobates. The extent of naked tail tip and relative degree of fur density at tip differs between A) Acrobates pygmaeus, and B) A. frontalis. Pedal digit morphology in C) A. pygmaeus (ANWC M24072)—terminal pads of pedal digits 4 and 5 rounded, subequal in length and width, and with narrow distal groove (black arrows); base of hallux with two distinct raised pads (blue arrows); and D) A. frontalis (ANWC M30739)—terminal pads of pedal digits 4 and 5 broadly heart-shaped, much wider than long and with broad distal groove (black arrows); base of hallux with a single raised pad (blue arrow). Note the syndactylous toes 2 and 3 in C, D).	2025-01-09	P. Aplin, Kenneth;N. Armstrong, Kyle;M. Aplin, Lucy;Jenkins, Paula;Ingleby, Sandra;Donnellan, Stephen C.		Zenodo	biologists	P. Aplin, Kenneth;N. Armstrong, Kyle;M. Aplin, Lucy;Jenkins, Paula;Ingleby, Sandra;Donnellan, Stephen C.			
386587D4E02FFFBC9BFFFD53FE41FB67.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14703418/files/figure.png	https://doi.org/10.5281/zenodo.14703418	FIGURE 4. Ventral and dorsal pelage colour in Acrobates. Acrobates frontalis—A) AMS M1370 Belltrees, Scone, NSW; B) AMS M3001 Belltrees, Scone, NSW; C) AMS M860 Hornsby, NSW; D) AMS M8326, Maraylya, NSW; E) AMS M8326, Maraylya, NSW dorsal view; Acrobates pygmaeus—F) AMS M3048 Newnes Forest, via Newnes Junction NSW; G) AMS M5060 Arandale, Burragate, NSW; H) AMS M3295, Cox’s River, Lithgow, NSW; I) AMS M3723, Portland, NSW; J) AMS M3723, Portland, NSW dorsal. Images for AMS M3723 and M8326 by Ron Lovatt © Australian Museum DigiVol. Scale bars are 1 cm.	FIGURE 4. Ventral and dorsal pelage colour in Acrobates. Acrobates frontalis—A) AMS M1370 Belltrees, Scone, NSW; B) AMS M3001 Belltrees, Scone, NSW; C) AMS M860 Hornsby, NSW; D) AMS M8326, Maraylya, NSW; E) AMS M8326, Maraylya, NSW dorsal view; Acrobates pygmaeus—F) AMS M3048 Newnes Forest, via Newnes Junction NSW; G) AMS M5060 Arandale, Burragate, NSW; H) AMS M3295, Cox’s River, Lithgow, NSW; I) AMS M3723, Portland, NSW; J) AMS M3723, Portland, NSW dorsal. Images for AMS M3723 and M8326 by Ron Lovatt © Australian Museum DigiVol. Scale bars are 1 cm.	2025-01-09	P. Aplin, Kenneth;N. Armstrong, Kyle;M. Aplin, Lucy;Jenkins, Paula;Ingleby, Sandra;Donnellan, Stephen C.		Zenodo	biologists	P. Aplin, Kenneth;N. Armstrong, Kyle;M. Aplin, Lucy;Jenkins, Paula;Ingleby, Sandra;Donnellan, Stephen C.			
386587D4E02FFFBC9BFFFD53FE41FB67.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14703422/files/figure.png	https://doi.org/10.5281/zenodo.14703422	FIGURE 5. Ear canal disc morphology in acrobatid possums—external (left) and internal (right) views for each pair of images via 3D reconstructions from Micro-CT scans of A–E) A. pygmaeus, A) ANWC M3745 Bondo NSW, B) ANWC M3912 Michelago ACT, C) ANWC M10812 Coolangubra State Forest, Bombala NSW, D) ANWC M24072 Nadgee Nature Reserve NSW, E) ANWC M24706 Mongarlowe River, 3 m S Mongarlowe NSW; and F–I) A. frontalis, F) ANWC M183 Mt Brown, Richmond Range State Forest NSW, G) ANWC M29876 Julatten Qld, H) ANWC M30739 Dalmeny Qld, I) Coonabarabran; and J) Distoechurus ANWC M12247 Mt Moiba, near Opanabu, Milne Bay Province, PNG. K) Lateral view of an Acrobates skull showing position of the ear canal disc.In external view, the disc occupies between 60 and 70% of the width of the tympanic canal in A. pygmaeus, versus 70 and 90% in A. frontalis. In the internal view, the disc lacks sculpturing in A. pygmaeus versus sculpturing that emphasises the raised margin in A. frontalis. In A. frontalis in external view, the interior of the disc is depressed so that the margin appears raised. The disc morphology in Distoechurus pennatus most closely resembles that of A. pygmaeus.	FIGURE 5. Ear canal disc morphology in acrobatid possums—external (left) and internal (right) views for each pair of images via 3D reconstructions from Micro-CT scans of A–E) A. pygmaeus, A) ANWC M3745 Bondo NSW, B) ANWC M3912 Michelago ACT, C) ANWC M10812 Coolangubra State Forest, Bombala NSW, D) ANWC M24072 Nadgee Nature Reserve NSW, E) ANWC M24706 Mongarlowe River, 3 m S Mongarlowe NSW; and F–I) A. frontalis, F) ANWC M183 Mt Brown, Richmond Range State Forest NSW, G) ANWC M29876 Julatten Qld, H) ANWC M30739 Dalmeny Qld, I) Coonabarabran; and J) Distoechurus ANWC M12247 Mt Moiba, near Opanabu, Milne Bay Province, PNG. K) Lateral view of an Acrobates skull showing position of the ear canal disc.In external view, the disc occupies between 60 and 70% of the width of the tympanic canal in A. pygmaeus, versus 70 and 90% in A. frontalis. In the internal view, the disc lacks sculpturing in A. pygmaeus versus sculpturing that emphasises the raised margin in A. frontalis. In A. frontalis in external view, the interior of the disc is depressed so that the margin appears raised. The disc morphology in Distoechurus pennatus most closely resembles that of A. pygmaeus.	2025-01-09	P. Aplin, Kenneth;N. Armstrong, Kyle;M. Aplin, Lucy;Jenkins, Paula;Ingleby, Sandra;Donnellan, Stephen C.		Zenodo	biologists	P. Aplin, Kenneth;N. Armstrong, Kyle;M. Aplin, Lucy;Jenkins, Paula;Ingleby, Sandra;Donnellan, Stephen C.			
386587D4E02FFFBC9BFFFD53FE41FB67.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14703426/files/figure.png	https://doi.org/10.5281/zenodo.14703426	FIGURE 6. Images of cranium and mandible of Acrobates via 3D reconstructions from Micro-CT scans. A–E) A. frontalis ANWC CM29876 Julatten Qld, F–J) A. pygmaeus ANWC CM3745 Bondo NSW, K–O) Distoechurus pennatus AMS M14752 Mt Karimui, South Simbu Province, PNG, in dorsal, ventral, lateral cranial views and buccal and occlusal mandible views. The crania, mandibles and teeth of the two Acrobates species are very similar (also see Supplementary Fig. S2 for illustration of variation within each species). Acrobates differs from Distoechurus cranially in having a proportionally larger and more inflated neurocranium, a proportionally shorter and deeper rostrum, a narrower mandibular angular process. See the text for a more extensive description.	FIGURE 6. Images of cranium and mandible of Acrobates via 3D reconstructions from Micro-CT scans. A–E) A. frontalis ANWC CM29876 Julatten Qld, F–J) A. pygmaeus ANWC CM3745 Bondo NSW, K–O) Distoechurus pennatus AMS M14752 Mt Karimui, South Simbu Province, PNG, in dorsal, ventral, lateral cranial views and buccal and occlusal mandible views. The crania, mandibles and teeth of the two Acrobates species are very similar (also see Supplementary Fig. S2 for illustration of variation within each species). Acrobates differs from Distoechurus cranially in having a proportionally larger and more inflated neurocranium, a proportionally shorter and deeper rostrum, a narrower mandibular angular process. See the text for a more extensive description.	2025-01-09	P. Aplin, Kenneth;N. Armstrong, Kyle;M. Aplin, Lucy;Jenkins, Paula;Ingleby, Sandra;Donnellan, Stephen C.		Zenodo	biologists	P. Aplin, Kenneth;N. Armstrong, Kyle;M. Aplin, Lucy;Jenkins, Paula;Ingleby, Sandra;Donnellan, Stephen C.			
386587D4E02FFFBC9BFFFD53FE41FB67.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14703414/files/figure.png	https://doi.org/10.5281/zenodo.14703414	FIGURE 2. Phylogenetic relationships among Acrobates based on: A) mitochondrial ND2 gene; B); a 96 bp segment of the mitochondrial 12S rRNA gene (Bayesian tree); and C) a 148 bp segment of the BRCA1 gene (ML tree). ML bootstrap proportions from 100 pseudoreplicates (left) and Bayesian posterior probabilities (right) indicated at nodes.	FIGURE 2. Phylogenetic relationships among Acrobates based on: A) mitochondrial ND2 gene; B); a 96 bp segment of the mitochondrial 12S rRNA gene (Bayesian tree); and C) a 148 bp segment of the BRCA1 gene (ML tree). ML bootstrap proportions from 100 pseudoreplicates (left) and Bayesian posterior probabilities (right) indicated at nodes.	2025-01-09	P. Aplin, Kenneth;N. Armstrong, Kyle;M. Aplin, Lucy;Jenkins, Paula;Ingleby, Sandra;Donnellan, Stephen C.		Zenodo	biologists	P. Aplin, Kenneth;N. Armstrong, Kyle;M. Aplin, Lucy;Jenkins, Paula;Ingleby, Sandra;Donnellan, Stephen C.			
386587D4E02FFFBC9BFFFD53FE41FB67.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14703428/files/figure.png	https://doi.org/10.5281/zenodo.14703428	FIGURE 7. Map showing distribution records of Acrobates based on identified vouchers (Supplementary Table S1). A) A. frontalis—blue squares; B) A. pygmaeus—red circles.	FIGURE 7. Map showing distribution records of Acrobates based on identified vouchers (Supplementary Table S1). A) A. frontalis—blue squares; B) A. pygmaeus—red circles.	2025-01-09	P. Aplin, Kenneth;N. Armstrong, Kyle;M. Aplin, Lucy;Jenkins, Paula;Ingleby, Sandra;Donnellan, Stephen C.		Zenodo	biologists	P. Aplin, Kenneth;N. Armstrong, Kyle;M. Aplin, Lucy;Jenkins, Paula;Ingleby, Sandra;Donnellan, Stephen C.			
