taxonID	type	format	identifier	references	title	description	created	creator	contributor	publisher	audience	source	license	rightsHolder	datasetID
1636D936FB4A53F28E9533FFEAEFCCC1.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1407407	https://doi.org/10.3897/zse.101.159300.figure1	Figure 1. Phylogram generated by the Bayesian Inference and Maximum Likelihood method, with concatenated alignments of the COI and 16 S genes of specimens of Dilocarcinus spp. (D. truncatus not included). The values in the branches correspond to posterior probability (left) and 1000 bootstrap replicates (right). The recovered branches, in both approaches (BI and ML) were considered with high support value (≥ 90 %), showing the recovered lineages. * = bootstrap values < 90 %. Dashed squares and Roman numerals = other internal groupings of D. pagei with high posterior probability value. ASAP = species delimitation test.	Figure 1. Phylogram generated by the Bayesian Inference and Maximum Likelihood method, with concatenated alignments of the COI and 16 S genes of specimens of Dilocarcinus spp. (D. truncatus not included). The values in the branches correspond to posterior probability (left) and 1000 bootstrap replicates (right). The recovered branches, in both approaches (BI and ML) were considered with high support value (≥ 90 %), showing the recovered lineages. * = bootstrap values < 90 %. Dashed squares and Roman numerals = other internal groupings of D. pagei with high posterior probability value. ASAP = species delimitation test.	2025-09-02	França, Nielson Felix Caetano;Magalhães, Célio;Mantelatto, Fernando Luis		Zenodo	biologists	França, Nielson Felix Caetano;Magalhães, Célio;Mantelatto, Fernando Luis			
1636D936FB4A53F28E9533FFEAEFCCC1.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1407408	https://doi.org/10.3897/zse.101.159300.figure2	Figure 2. Phylogram with estimated divergence times generated by the Bayesian Inference method, based on concatenated alignments of the COI and 16 S genes of Dilocarcinus species (D. truncatus not included). Blue bars = 95 % posterior confidence intervals (HPD). Scale in millions of years (Ma).	Figure 2. Phylogram with estimated divergence times generated by the Bayesian Inference method, based on concatenated alignments of the COI and 16 S genes of Dilocarcinus species (D. truncatus not included). Blue bars = 95 % posterior confidence intervals (HPD). Scale in millions of years (Ma).	2025-09-02	França, Nielson Felix Caetano;Magalhães, Célio;Mantelatto, Fernando Luis		Zenodo	biologists	França, Nielson Felix Caetano;Magalhães, Célio;Mantelatto, Fernando Luis			
1636D936FB4A53F28E9533FFEAEFCCC1.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1407409	https://doi.org/10.3897/zse.101.159300.figure3	Figure 3. Haplotype networks by the parsimony of (A) COI and (B) 16 S genes of Dilocarcinus cristatus (green dashed line) and D. pagei (red dashed line) specimens. Colors correspond to the arrangement of haplotypes by hydrographic basins. The size of the circles is proportional to the haplotype frequency. Haplotypes with low frequency were not presented. Haplogroups are delimited by dashed lines, and with colors corresponding to lineages.	Figure 3. Haplotype networks by the parsimony of (A) COI and (B) 16 S genes of Dilocarcinus cristatus (green dashed line) and D. pagei (red dashed line) specimens. Colors correspond to the arrangement of haplotypes by hydrographic basins. The size of the circles is proportional to the haplotype frequency. Haplotypes with low frequency were not presented. Haplogroups are delimited by dashed lines, and with colors corresponding to lineages.	2025-09-02	França, Nielson Felix Caetano;Magalhães, Célio;Mantelatto, Fernando Luis		Zenodo	biologists	França, Nielson Felix Caetano;Magalhães, Célio;Mantelatto, Fernando Luis			
1636D936FB4A53F28E9533FFEAEFCCC1.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1407411	https://doi.org/10.3897/zse.101.159300.figure5	Figure 5. Computerized nano-tomography images of the right first gonopod of adult males. Dilocarcinus pagei. A. INPA 137, mesoventral view; B. mesodorsal view. Dilocarcinus cristatus, INPA 292: C. mesoventral view; D. mesodorsal view; MPEG 680: E. mesoventral view; F. mesodorsal view. Schematic outline, mesoventral view of the right first gonopod of adult males: G. INPA 1302; H. INPA 798; I. INPA 2491. Abbreviations: md = ventral margin median discontinuity; sl = subdistal lobe. Scale bar: 5 mm (A – F); 2 mm (G – I).	Figure 5. Computerized nano-tomography images of the right first gonopod of adult males. Dilocarcinus pagei. A. INPA 137, mesoventral view; B. mesodorsal view. Dilocarcinus cristatus, INPA 292: C. mesoventral view; D. mesodorsal view; MPEG 680: E. mesoventral view; F. mesodorsal view. Schematic outline, mesoventral view of the right first gonopod of adult males: G. INPA 1302; H. INPA 798; I. INPA 2491. Abbreviations: md = ventral margin median discontinuity; sl = subdistal lobe. Scale bar: 5 mm (A – F); 2 mm (G – I).	2025-09-02	França, Nielson Felix Caetano;Magalhães, Célio;Mantelatto, Fernando Luis		Zenodo	biologists	França, Nielson Felix Caetano;Magalhães, Célio;Mantelatto, Fernando Luis			
1636D936FB4A53F28E9533FFEAEFCCC1.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1407412	https://doi.org/10.3897/zse.101.159300.figure6	Figure 6. Map of the geographic distribution of Dilocarcinus species based on records of the present study and of previous studies (Magalhães and Türkay 2008; França et al. 2024).	Figure 6. Map of the geographic distribution of Dilocarcinus species based on records of the present study and of previous studies (Magalhães and Türkay 2008; França et al. 2024).	2025-09-02	França, Nielson Felix Caetano;Magalhães, Célio;Mantelatto, Fernando Luis		Zenodo	biologists	França, Nielson Felix Caetano;Magalhães, Célio;Mantelatto, Fernando Luis			
