taxonID	type	format	identifier	references	title	description	created	creator	contributor	publisher	audience	source	license	rightsHolder	datasetID
03CB87C4FFF57E2386887BF4FBC5FC53.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/17006068/files/figure.png	https://doi.org/10.5281/zenodo.17006068	Figure 3. Genetic relationships of Oligoryzomys mattogrossae based on (A) maximum likelihood (ML) tree using cytochrome b (mt-Cytb) sequence data considering the HKY+G + I model. Nodal support indices are indicated at the node (ML/BI). (B) Phylogenetic TCS parsimony network reconstruction. Missing haplotypes are indicated by dashes and black circles. The size of the coloured circles is proportional to the number of individuals for each haplotype. (C) Map showing the two main hydrographic basins (pink and green areas) where the sequenced specimens were collected. The colours of the sample sites match the lineages identified by ML and TCS; the triangle is Águas Emendadas Ecological Station (ESECAE) (this study); and the numbers refer to the localities in Table 1 and Supplementary material I. BI: Bayesian inference, ML: Maximum likelihood.	Figure 3. Genetic relationships of Oligoryzomys mattogrossae based on (A) maximum likelihood (ML) tree using cytochrome b (mt-Cytb) sequence data considering the HKY+G + I model. Nodal support indices are indicated at the node (ML/BI). (B) Phylogenetic TCS parsimony network reconstruction. Missing haplotypes are indicated by dashes and black circles. The size of the coloured circles is proportional to the number of individuals for each haplotype. (C) Map showing the two main hydrographic basins (pink and green areas) where the sequenced specimens were collected. The colours of the sample sites match the lineages identified by ML and TCS; the triangle is Águas Emendadas Ecological Station (ESECAE) (this study); and the numbers refer to the localities in Table 1 and Supplementary material I. BI: Bayesian inference, ML: Maximum likelihood.	2025-04-11	Bezerra, Alexandra Maria Ramos;Bonvicino, Cibele Rodrigues;Oliveira, Leony Dias de;Castiglia, Riccardo;Lazar, Ana		Zenodo	biologists	Bezerra, Alexandra Maria Ramos;Bonvicino, Cibele Rodrigues;Oliveira, Leony Dias de;Castiglia, Riccardo;Lazar, Ana			
03CB87C4FFF57E2386887BF4FBC5FC53.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/17006078/files/figure.png	https://doi.org/10.5281/zenodo.17006078	Figure 7. Gross stomach morphology of Oxymycterus itapeby. Specimen ARB 874/MPEG 46617 in (A) ventral external view with contents, and (B) ventral internal view without contents. The frontal section shows the glandular epithelium confined in a diverticulum (= pouch) (after Carleton 1973). Abbreviations: di: diverticulum (= pouch); o: ostium. Scale bar: 10 mm.	Figure 7. Gross stomach morphology of Oxymycterus itapeby. Specimen ARB 874/MPEG 46617 in (A) ventral external view with contents, and (B) ventral internal view without contents. The frontal section shows the glandular epithelium confined in a diverticulum (= pouch) (after Carleton 1973). Abbreviations: di: diverticulum (= pouch); o: ostium. Scale bar: 10 mm.	2025-04-11	Bezerra, Alexandra Maria Ramos;Bonvicino, Cibele Rodrigues;Oliveira, Leony Dias de;Castiglia, Riccardo;Lazar, Ana		Zenodo	biologists	Bezerra, Alexandra Maria Ramos;Bonvicino, Cibele Rodrigues;Oliveira, Leony Dias de;Castiglia, Riccardo;Lazar, Ana			
03CB87C4FFFA7E23868878AFFEC1FAA3.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/17006070/files/figure.png	https://doi.org/10.5281/zenodo.17006070	Figure 4. Genetic relationships of Oxymycterus itapeby based on (A) a maximum likelihood (ML) tree using cytochrome b (mt-Cytb) sequence data considering the HKY +G + I model. Nodal support indices are indicated at the node (ML/BI). Terminal labels include GenBank accession numbers for the sequences downloaded from GenBank or specimen catalogue numbers for those sequences obtained in this study.The sequences of the new specimens from Águas Emendadas Ecological Station (ESECAE) are recovered well nested in the clade of O. itapeby; the holotype (GenBank sequence number MK331135; MHNCI 3595) is indicated with a red line. (B) Phylogenetic TCS parsimony network reconstruction including sequences of O. amazonicus (green dots and line), O. delator (blue dots and line), and O. itapeby (orange dots and line; the red dot is haplotype from holotype, and the violet dot represents haplotypes from the new specimens collected in the ESECAE). Missing haplotypes are indicated by dashes and black circles. The size of the coloured circles is proportional to the number of individuals for each haplotype.	Figure 4. Genetic relationships of Oxymycterus itapeby based on (A) a maximum likelihood (ML) tree using cytochrome b (mt-Cytb) sequence data considering the HKY +G + I model. Nodal support indices are indicated at the node (ML/BI). Terminal labels include GenBank accession numbers for the sequences downloaded from GenBank or specimen catalogue numbers for those sequences obtained in this study.The sequences of the new specimens from Águas Emendadas Ecological Station (ESECAE) are recovered well nested in the clade of O. itapeby; the holotype (GenBank sequence number MK331135; MHNCI 3595) is indicated with a red line. (B) Phylogenetic TCS parsimony network reconstruction including sequences of O. amazonicus (green dots and line), O. delator (blue dots and line), and O. itapeby (orange dots and line; the red dot is haplotype from holotype, and the violet dot represents haplotypes from the new specimens collected in the ESECAE). Missing haplotypes are indicated by dashes and black circles. The size of the coloured circles is proportional to the number of individuals for each haplotype.	2025-04-11	Bezerra, Alexandra Maria Ramos;Bonvicino, Cibele Rodrigues;Oliveira, Leony Dias de;Castiglia, Riccardo;Lazar, Ana		Zenodo	biologists	Bezerra, Alexandra Maria Ramos;Bonvicino, Cibele Rodrigues;Oliveira, Leony Dias de;Castiglia, Riccardo;Lazar, Ana			
03CB87C4FFFA7E2186887EBFFDDBFB95.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/17006072/files/figure.png	https://doi.org/10.5281/zenodo.17006072	Figure 5. Map showing the original distribution of the Brazilian endemic Oxymycterus itapeby based on Peçanha et al. (2019) and Capella (2023), from the transitional Atlantic Forest–Cerrado region in south–south-eastern Brazil, and the new records extending the distribution to Águas Emendadas Ecological Station (ESECAE), Planaltina, Federal District, in the core area of the Cerrado domain.	Figure 5. Map showing the original distribution of the Brazilian endemic Oxymycterus itapeby based on Peçanha et al. (2019) and Capella (2023), from the transitional Atlantic Forest–Cerrado region in south–south-eastern Brazil, and the new records extending the distribution to Águas Emendadas Ecological Station (ESECAE), Planaltina, Federal District, in the core area of the Cerrado domain.	2025-04-11	Bezerra, Alexandra Maria Ramos;Bonvicino, Cibele Rodrigues;Oliveira, Leony Dias de;Castiglia, Riccardo;Lazar, Ana		Zenodo	biologists	Bezerra, Alexandra Maria Ramos;Bonvicino, Cibele Rodrigues;Oliveira, Leony Dias de;Castiglia, Riccardo;Lazar, Ana			
03CB87C4FFFA7E2186887EBFFDDBFB95.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/17006076/files/figure.png	https://doi.org/10.5281/zenodo.17006076	Figure 6. Male individual of (A) Oxymycterus itapeby (ARB 876/MPEG 46618) captured at Águas Emendadas Ecological Station (ESECAE), Brasília, DF, Brazil. (B) seasonal flooded ‘campo de murundum’ where the three new specimens were captured. (C) Microhabitat with the Sherman type trap used for the captures.	Figure 6. Male individual of (A) Oxymycterus itapeby (ARB 876/MPEG 46618) captured at Águas Emendadas Ecological Station (ESECAE), Brasília, DF, Brazil. (B) seasonal flooded ‘campo de murundum’ where the three new specimens were captured. (C) Microhabitat with the Sherman type trap used for the captures.	2025-04-11	Bezerra, Alexandra Maria Ramos;Bonvicino, Cibele Rodrigues;Oliveira, Leony Dias de;Castiglia, Riccardo;Lazar, Ana		Zenodo	biologists	Bezerra, Alexandra Maria Ramos;Bonvicino, Cibele Rodrigues;Oliveira, Leony Dias de;Castiglia, Riccardo;Lazar, Ana			
03CB87C4FFFA7E2186887EBFFDDBFB95.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/17006078/files/figure.png	https://doi.org/10.5281/zenodo.17006078	Figure 7. Gross stomach morphology of Oxymycterus itapeby. Specimen ARB 874/MPEG 46617 in (A) ventral external view with contents, and (B) ventral internal view without contents. The frontal section shows the glandular epithelium confined in a diverticulum (= pouch) (after Carleton 1973). Abbreviations: di: diverticulum (= pouch); o: ostium. Scale bar: 10 mm.	Figure 7. Gross stomach morphology of Oxymycterus itapeby. Specimen ARB 874/MPEG 46617 in (A) ventral external view with contents, and (B) ventral internal view without contents. The frontal section shows the glandular epithelium confined in a diverticulum (= pouch) (after Carleton 1973). Abbreviations: di: diverticulum (= pouch); o: ostium. Scale bar: 10 mm.	2025-04-11	Bezerra, Alexandra Maria Ramos;Bonvicino, Cibele Rodrigues;Oliveira, Leony Dias de;Castiglia, Riccardo;Lazar, Ana		Zenodo	biologists	Bezerra, Alexandra Maria Ramos;Bonvicino, Cibele Rodrigues;Oliveira, Leony Dias de;Castiglia, Riccardo;Lazar, Ana			
03CB87C4FFFA7E2186887EBFFDDBFB95.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/17006070/files/figure.png	https://doi.org/10.5281/zenodo.17006070	Figure 4. Genetic relationships of Oxymycterus itapeby based on (A) a maximum likelihood (ML) tree using cytochrome b (mt-Cytb) sequence data considering the HKY +G + I model. Nodal support indices are indicated at the node (ML/BI). Terminal labels include GenBank accession numbers for the sequences downloaded from GenBank or specimen catalogue numbers for those sequences obtained in this study.The sequences of the new specimens from Águas Emendadas Ecological Station (ESECAE) are recovered well nested in the clade of O. itapeby; the holotype (GenBank sequence number MK331135; MHNCI 3595) is indicated with a red line. (B) Phylogenetic TCS parsimony network reconstruction including sequences of O. amazonicus (green dots and line), O. delator (blue dots and line), and O. itapeby (orange dots and line; the red dot is haplotype from holotype, and the violet dot represents haplotypes from the new specimens collected in the ESECAE). Missing haplotypes are indicated by dashes and black circles. The size of the coloured circles is proportional to the number of individuals for each haplotype.	Figure 4. Genetic relationships of Oxymycterus itapeby based on (A) a maximum likelihood (ML) tree using cytochrome b (mt-Cytb) sequence data considering the HKY +G + I model. Nodal support indices are indicated at the node (ML/BI). Terminal labels include GenBank accession numbers for the sequences downloaded from GenBank or specimen catalogue numbers for those sequences obtained in this study.The sequences of the new specimens from Águas Emendadas Ecological Station (ESECAE) are recovered well nested in the clade of O. itapeby; the holotype (GenBank sequence number MK331135; MHNCI 3595) is indicated with a red line. (B) Phylogenetic TCS parsimony network reconstruction including sequences of O. amazonicus (green dots and line), O. delator (blue dots and line), and O. itapeby (orange dots and line; the red dot is haplotype from holotype, and the violet dot represents haplotypes from the new specimens collected in the ESECAE). Missing haplotypes are indicated by dashes and black circles. The size of the coloured circles is proportional to the number of individuals for each haplotype.	2025-04-11	Bezerra, Alexandra Maria Ramos;Bonvicino, Cibele Rodrigues;Oliveira, Leony Dias de;Castiglia, Riccardo;Lazar, Ana		Zenodo	biologists	Bezerra, Alexandra Maria Ramos;Bonvicino, Cibele Rodrigues;Oliveira, Leony Dias de;Castiglia, Riccardo;Lazar, Ana			
03CB87C4FFFA7E2186887EBFFDDBFB95.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/17006068/files/figure.png	https://doi.org/10.5281/zenodo.17006068	Figure 3. Genetic relationships of Oligoryzomys mattogrossae based on (A) maximum likelihood (ML) tree using cytochrome b (mt-Cytb) sequence data considering the HKY+G + I model. Nodal support indices are indicated at the node (ML/BI). (B) Phylogenetic TCS parsimony network reconstruction. Missing haplotypes are indicated by dashes and black circles. The size of the coloured circles is proportional to the number of individuals for each haplotype. (C) Map showing the two main hydrographic basins (pink and green areas) where the sequenced specimens were collected. The colours of the sample sites match the lineages identified by ML and TCS; the triangle is Águas Emendadas Ecological Station (ESECAE) (this study); and the numbers refer to the localities in Table 1 and Supplementary material I. BI: Bayesian inference, ML: Maximum likelihood.	Figure 3. Genetic relationships of Oligoryzomys mattogrossae based on (A) maximum likelihood (ML) tree using cytochrome b (mt-Cytb) sequence data considering the HKY+G + I model. Nodal support indices are indicated at the node (ML/BI). (B) Phylogenetic TCS parsimony network reconstruction. Missing haplotypes are indicated by dashes and black circles. The size of the coloured circles is proportional to the number of individuals for each haplotype. (C) Map showing the two main hydrographic basins (pink and green areas) where the sequenced specimens were collected. The colours of the sample sites match the lineages identified by ML and TCS; the triangle is Águas Emendadas Ecological Station (ESECAE) (this study); and the numbers refer to the localities in Table 1 and Supplementary material I. BI: Bayesian inference, ML: Maximum likelihood.	2025-04-11	Bezerra, Alexandra Maria Ramos;Bonvicino, Cibele Rodrigues;Oliveira, Leony Dias de;Castiglia, Riccardo;Lazar, Ana		Zenodo	biologists	Bezerra, Alexandra Maria Ramos;Bonvicino, Cibele Rodrigues;Oliveira, Leony Dias de;Castiglia, Riccardo;Lazar, Ana			
