taxonID	type	format	identifier	references	title	description	created	creator	contributor	publisher	audience	source	license	rightsHolder	datasetID
9F07878AA866CD601888DE649C175E02.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/291923/files/figure.png	https://doi.org/10.5281/zenodo.291923	Fig. 5. Morphological characteristics of the two nominal species of the genus Tylonycteris Peters, 1872. A. T. pachypus (Temminck, 1840) (corrected taxon name is T. fulvida (Blyth, 1859 )), IEBR-VN 11 - 0 0 15. B. T. robustula Thomas, 1915 (corrected taxon name is T. tonkinensis Tu, Csorba, Ruedi & Hassanin sp. nov.), holotype, IEBR-VN 11 - 0055. Head profiles, ventral and dorsal views, fleshy pads at the base of the thumb and on the sole of the foot, and different views of the skull (dorsal, ventral and lateral). Scale = 10 mm.	Fig. 5. Morphological characteristics of the two nominal species of the genus Tylonycteris Peters, 1872. A. T. pachypus (Temminck, 1840) (corrected taxon name is T. fulvida (Blyth, 1859 )), IEBR-VN 11 - 0 0 15. B. T. robustula Thomas, 1915 (corrected taxon name is T. tonkinensis Tu, Csorba, Ruedi & Hassanin sp. nov.), holotype, IEBR-VN 11 - 0055. Head profiles, ventral and dorsal views, fleshy pads at the base of the thumb and on the sole of the foot, and different views of the skull (dorsal, ventral and lateral). Scale = 10 mm.	2017-02-09	Tu, Vuong Tan;Csorba, Gábor;Ruedi, Manuel;Furey, Neil M.;Son, Nguyen Truong;Thong, Vu Dinh;Bonillo, Céline;Hassanin, Alexandre		Zenodo	biologists	Tu, Vuong Tan;Csorba, Gábor;Ruedi, Manuel;Furey, Neil M.;Son, Nguyen Truong;Thong, Vu Dinh;Bonillo, Céline;Hassanin, Alexandre			
9F07878AA866CD601888DE649C175E02.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/291920/files/figure.png	https://doi.org/10.5281/zenodo.291920	Fig. 1. A – B. Maps of Asia showing the distribution range (shaded) and type localities of described subspecies of T. pachypus (Temminck, 1840) and T. robustula Thomas, 1915 (Bates et al. 2008 a, 2008 b). C. Localities of Tylonycteris specimens included in this study. Triangles and circles refer to T. pachypus and T. robustula, respectively; the colours indicate the mtDNA haplogroups found in the Bayesian analyses of COI and Cytb sequences (see Fig. 2 for details).	Fig. 1. A – B. Maps of Asia showing the distribution range (shaded) and type localities of described subspecies of T. pachypus (Temminck, 1840) and T. robustula Thomas, 1915 (Bates et al. 2008 a, 2008 b). C. Localities of Tylonycteris specimens included in this study. Triangles and circles refer to T. pachypus and T. robustula, respectively; the colours indicate the mtDNA haplogroups found in the Bayesian analyses of COI and Cytb sequences (see Fig. 2 for details).	2017-02-09	Tu, Vuong Tan;Csorba, Gábor;Ruedi, Manuel;Furey, Neil M.;Son, Nguyen Truong;Thong, Vu Dinh;Bonillo, Céline;Hassanin, Alexandre		Zenodo	biologists	Tu, Vuong Tan;Csorba, Gábor;Ruedi, Manuel;Furey, Neil M.;Son, Nguyen Truong;Thong, Vu Dinh;Bonillo, Céline;Hassanin, Alexandre			
9F07878AA866CD601888DE649C175E02.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/291922/files/figure.png	https://doi.org/10.5281/zenodo.291922	Fig. 4. Scatter plots obtained from morphological analyses of Tylonycteris spp. A. Range of GLS measurements of specimens within each group of Tylonycteris spp. B. Range of PC * 1 scores of specimens of Tylonycteris spp. obtained from PCA of log-transformed raw data of craniodental measurements. C. Plot of PC 1 against PC 2 obtained from PCA on log-transformed standardized data. Triangles and circles refer to T. pachypus s. lat. and T. robustula s. lat., respectively. Colour patterns indicate the mtDNA haplogroups: green for Tp 3 and Tr 3 (northern Indochina); blue for Tp 2 and Tr 2 (other regions of the Southeast Asian mainland); red for Tp 1 and Tr 1 (Sundaland).	Fig. 4. Scatter plots obtained from morphological analyses of Tylonycteris spp. A. Range of GLS measurements of specimens within each group of Tylonycteris spp. B. Range of PC * 1 scores of specimens of Tylonycteris spp. obtained from PCA of log-transformed raw data of craniodental measurements. C. Plot of PC 1 against PC 2 obtained from PCA on log-transformed standardized data. Triangles and circles refer to T. pachypus s. lat. and T. robustula s. lat., respectively. Colour patterns indicate the mtDNA haplogroups: green for Tp 3 and Tr 3 (northern Indochina); blue for Tp 2 and Tr 2 (other regions of the Southeast Asian mainland); red for Tp 1 and Tr 1 (Sundaland).	2017-02-09	Tu, Vuong Tan;Csorba, Gábor;Ruedi, Manuel;Furey, Neil M.;Son, Nguyen Truong;Thong, Vu Dinh;Bonillo, Céline;Hassanin, Alexandre		Zenodo	biologists	Tu, Vuong Tan;Csorba, Gábor;Ruedi, Manuel;Furey, Neil M.;Son, Nguyen Truong;Thong, Vu Dinh;Bonillo, Céline;Hassanin, Alexandre			
9F07878AA865CD7C19AADC599BAE5B55.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/292720/files/figure.svg	https://doi.org/10.5281/zenodo.292720	Fig. 2. Bayesian tree obtained from the analyses of COI and Cytb genes. The values on the nodes indicate posterior probabilities (PP). In the COI tree, PPs were calculated from two DNA alignments of CO 1 sequences (728 nt or 291 nt; see text for details). The sequence HM 914921 was obtained from a specimen originally identified as T. robustula. In the Cytb tree, the sequence EU 521635 was obtained from a specimen originally identified as T. robustula.	Fig. 2. Bayesian tree obtained from the analyses of COI and Cytb genes. The values on the nodes indicate posterior probabilities (PP). In the COI tree, PPs were calculated from two DNA alignments of CO 1 sequences (728 nt or 291 nt; see text for details). The sequence HM 914921 was obtained from a specimen originally identified as T. robustula. In the Cytb tree, the sequence EU 521635 was obtained from a specimen originally identified as T. robustula.	2017-02-09	Tu, Vuong Tan;Csorba, Gábor;Ruedi, Manuel;Furey, Neil M.;Son, Nguyen Truong;Thong, Vu Dinh;Bonillo, Céline;Hassanin, Alexandre		Zenodo	biologists	Tu, Vuong Tan;Csorba, Gábor;Ruedi, Manuel;Furey, Neil M.;Son, Nguyen Truong;Thong, Vu Dinh;Bonillo, Céline;Hassanin, Alexandre			
9F07878AA865CD7C19AADC599BAE5B55.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14385280/files/figure.png	https://doi.org/10.5281/zenodo.14385280	Appendix 8. Bayesian trees reconstructed from the separate analyses of the eight independent datasets (mtDNA [COI + Cytb], CHPF 2, HDAC 1, HDAC 2, PABPN 1, RIOK 3, TUFM and ZFYVE 27).	Appendix 8. Bayesian trees reconstructed from the separate analyses of the eight independent datasets (mtDNA [COI + Cytb], CHPF 2, HDAC 1, HDAC 2, PABPN 1, RIOK 3, TUFM and ZFYVE 27).	2017-02-09	Tu, Vuong Tan;Csorba, Gábor;Ruedi, Manuel;Furey, Neil M.;Son, Nguyen Truong;Thong, Vu Dinh;Bonillo, Céline;Hassanin, Alexandre		Zenodo	biologists	Tu, Vuong Tan;Csorba, Gábor;Ruedi, Manuel;Furey, Neil M.;Son, Nguyen Truong;Thong, Vu Dinh;Bonillo, Céline;Hassanin, Alexandre			
9F07878AA865CD7C19AADC599BAE5B55.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/14385266/files/figure.png	https://doi.org/10.5281/zenodo.14385266	Fig. 3. Bayesian tree reconstructed from the analysis of the seven concatenated nuDNA introns. The seven independent markers are CHPF 2 (858 nt), HDAC 1 (1128 nt), HDAC 2 (639 nt), PABPNI (677 nt), RIOK 3 (915 nt), TUFM (655 nt) and ZFYVE 27 (732 nt). The values indicated on the branches are the Bayesian posterior probabilities (PP and PP supermatrix), maximum likelihood bootstrap (BP), Supertree nuDNA Bootstrap percentage (SBP), Mean posterior probability (MPP) and Reproducibility index (Rep). An asterisk indicates that the node was supported by maximal values of robustness (PP nuDNA = PP supermatrix = 1; BP = 100). The letter ‘‘ X’ ’ indicates that the node was not found in the analysis. The position and nature of all diagnostic indels (i: insertion; d: deletion) shared by at least two taxa in the alignments of nuclear genes are indicated in boxes.	Fig. 3. Bayesian tree reconstructed from the analysis of the seven concatenated nuDNA introns. The seven independent markers are CHPF 2 (858 nt), HDAC 1 (1128 nt), HDAC 2 (639 nt), PABPNI (677 nt), RIOK 3 (915 nt), TUFM (655 nt) and ZFYVE 27 (732 nt). The values indicated on the branches are the Bayesian posterior probabilities (PP and PP supermatrix), maximum likelihood bootstrap (BP), Supertree nuDNA Bootstrap percentage (SBP), Mean posterior probability (MPP) and Reproducibility index (Rep). An asterisk indicates that the node was supported by maximal values of robustness (PP nuDNA = PP supermatrix = 1; BP = 100). The letter ‘‘ X’ ’ indicates that the node was not found in the analysis. The position and nature of all diagnostic indels (i: insertion; d: deletion) shared by at least two taxa in the alignments of nuclear genes are indicated in boxes.	2017-02-09	Tu, Vuong Tan;Csorba, Gábor;Ruedi, Manuel;Furey, Neil M.;Son, Nguyen Truong;Thong, Vu Dinh;Bonillo, Céline;Hassanin, Alexandre		Zenodo	biologists	Tu, Vuong Tan;Csorba, Gábor;Ruedi, Manuel;Furey, Neil M.;Son, Nguyen Truong;Thong, Vu Dinh;Bonillo, Céline;Hassanin, Alexandre			
9F07878AA865CD7C19AADC599BAE5B55.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/291924/files/figure.png	https://doi.org/10.5281/zenodo.291924	Fig. 6. Distribution and species richness for the eight genera of woody bamboo forests currently found in Asia (adapted and modified from Bystriakova et al. 2003 b) and putative geographic range areas of the species of Tylonycteris. During glacial periods of the Pleistocene, the highlighted biogeographic regions may have acted as bamboo refugia for Tylonycteris spp. Moreover, sea level falls (at around 120 m below present) exposed land bridges, such as the entire Sunda Shelf (adapted from Voris 2000), connecting the islands to the continent.	Fig. 6. Distribution and species richness for the eight genera of woody bamboo forests currently found in Asia (adapted and modified from Bystriakova et al. 2003 b) and putative geographic range areas of the species of Tylonycteris. During glacial periods of the Pleistocene, the highlighted biogeographic regions may have acted as bamboo refugia for Tylonycteris spp. Moreover, sea level falls (at around 120 m below present) exposed land bridges, such as the entire Sunda Shelf (adapted from Voris 2000), connecting the islands to the continent.	2017-02-09	Tu, Vuong Tan;Csorba, Gábor;Ruedi, Manuel;Furey, Neil M.;Son, Nguyen Truong;Thong, Vu Dinh;Bonillo, Céline;Hassanin, Alexandre		Zenodo	biologists	Tu, Vuong Tan;Csorba, Gábor;Ruedi, Manuel;Furey, Neil M.;Son, Nguyen Truong;Thong, Vu Dinh;Bonillo, Céline;Hassanin, Alexandre			
9F07878AA865CD7C19AADC599BAE5B55.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/291920/files/figure.png	https://doi.org/10.5281/zenodo.291920	Fig. 1. A – B. Maps of Asia showing the distribution range (shaded) and type localities of described subspecies of T. pachypus (Temminck, 1840) and T. robustula Thomas, 1915 (Bates et al. 2008 a, 2008 b). C. Localities of Tylonycteris specimens included in this study. Triangles and circles refer to T. pachypus and T. robustula, respectively; the colours indicate the mtDNA haplogroups found in the Bayesian analyses of COI and Cytb sequences (see Fig. 2 for details).	Fig. 1. A – B. Maps of Asia showing the distribution range (shaded) and type localities of described subspecies of T. pachypus (Temminck, 1840) and T. robustula Thomas, 1915 (Bates et al. 2008 a, 2008 b). C. Localities of Tylonycteris specimens included in this study. Triangles and circles refer to T. pachypus and T. robustula, respectively; the colours indicate the mtDNA haplogroups found in the Bayesian analyses of COI and Cytb sequences (see Fig. 2 for details).	2017-02-09	Tu, Vuong Tan;Csorba, Gábor;Ruedi, Manuel;Furey, Neil M.;Son, Nguyen Truong;Thong, Vu Dinh;Bonillo, Céline;Hassanin, Alexandre		Zenodo	biologists	Tu, Vuong Tan;Csorba, Gábor;Ruedi, Manuel;Furey, Neil M.;Son, Nguyen Truong;Thong, Vu Dinh;Bonillo, Céline;Hassanin, Alexandre			
