taxonID	type	format	identifier	references	title	description	created	creator	contributor	publisher	audience	source	license	rightsHolder	datasetID
038587B2FFB6FFB6FF2DFCA9EFA1FF05.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/5794936/files/figure.png	http://doi.org/10.5281/zenodo.5794936	FIGURE 1. Hydrodroma golestanica sp. nov. (A, C holotype ♂, B, ♀ paratype): A-B = genital field; C = integument papillae; D = photograph of dorsal integument in tangential view. Scale bars = 100 μm.	FIGURE 1. Hydrodroma golestanica sp. nov. (A, C holotype ♂, B, ♀ paratype): A-B = genital field; C = integument papillae; D = photograph of dorsal integument in tangential view. Scale bars = 100 μm.	2021-12-21	Pešić, Vladimir;Zawal, Andrzej;Saboori, Alireza;Smit, Harry		Zenodo	biologists	Pešić, Vladimir;Zawal, Andrzej;Saboori, Alireza;Smit, Harry			
038587B2FFB6FFB6FF2DFCA9EFA1FF05.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/5794938/files/figure.png	http://doi.org/10.5281/zenodo.5794938	FIGURE 2. Hydrodroma golestanica sp. nov., holotype ♂: A = palp, lateral view; B = palp, medial view (P-1 missing); C = gnathosoma; D = chelicera; E = IV-L-5 and -6, posterior view. Scale bars = 100 μm..	FIGURE 2. Hydrodroma golestanica sp. nov., holotype ♂: A = palp, lateral view; B = palp, medial view (P-1 missing); C = gnathosoma; D = chelicera; E = IV-L-5 and -6, posterior view. Scale bars = 100 μm..	2021-12-21	Pešić, Vladimir;Zawal, Andrzej;Saboori, Alireza;Smit, Harry		Zenodo	biologists	Pešić, Vladimir;Zawal, Andrzej;Saboori, Alireza;Smit, Harry			
038587B2FFB6FFB6FF2DFCA9EFA1FF05.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/5794940/files/figure.png	http://doi.org/10.5281/zenodo.5794940	FIGURE 3. Neighbor-joining tree based on studied Hydrodroma COI sequences. The optimal tree with the sum of branch length = 0.54910533 is shown. The analysis involved 11 nucleotide sequences. There were a total of 669 positions in the final dataset.	FIGURE 3. Neighbor-joining tree based on studied Hydrodroma COI sequences. The optimal tree with the sum of branch length = 0.54910533 is shown. The analysis involved 11 nucleotide sequences. There were a total of 669 positions in the final dataset.	2021-12-21	Pešić, Vladimir;Zawal, Andrzej;Saboori, Alireza;Smit, Harry		Zenodo	biologists	Pešić, Vladimir;Zawal, Andrzej;Saboori, Alireza;Smit, Harry			
038587B2FFB2FFB5FF2DFED8EF94FB81.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/5794942/files/figure.png	http://doi.org/10.5281/zenodo.5794942	FIGURE 4. Neighbor-joining tree based on studied Sperchon COI sequences. The optimal tree with the sum of branch length = 1.14769493 is shown. The analysis involved 35 nucleotide sequences. There were a total of 670 positions in the final dataset.	FIGURE 4. Neighbor-joining tree based on studied Sperchon COI sequences. The optimal tree with the sum of branch length = 1.14769493 is shown. The analysis involved 35 nucleotide sequences. There were a total of 670 positions in the final dataset.	2021-12-21	Pešić, Vladimir;Zawal, Andrzej;Saboori, Alireza;Smit, Harry		Zenodo	biologists	Pešić, Vladimir;Zawal, Andrzej;Saboori, Alireza;Smit, Harry			
038587B2FFB3FFBBFF2DF953ECF3FCC5.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/5794942/files/figure.png	http://doi.org/10.5281/zenodo.5794942	FIGURE 4. Neighbor-joining tree based on studied Sperchon COI sequences. The optimal tree with the sum of branch length = 1.14769493 is shown. The analysis involved 35 nucleotide sequences. There were a total of 670 positions in the final dataset.	FIGURE 4. Neighbor-joining tree based on studied Sperchon COI sequences. The optimal tree with the sum of branch length = 1.14769493 is shown. The analysis involved 35 nucleotide sequences. There were a total of 670 positions in the final dataset.	2021-12-21	Pešić, Vladimir;Zawal, Andrzej;Saboori, Alireza;Smit, Harry		Zenodo	biologists	Pešić, Vladimir;Zawal, Andrzej;Saboori, Alireza;Smit, Harry			
038587B2FFBDFFB9FF2DF9E2EFA1FEBD.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/5794946/files/figure.png	http://doi.org/10.5281/zenodo.5794946	FIGURE 6. Neighbor-joining tree based on studied Monatractides COI sequences. The optimal tree with the sum of branch length = 0.33301736 is shown. The analysis involved 9 nucleotide sequences. There were a total of 669 positions in the final dataset.	FIGURE 6. Neighbor-joining tree based on studied Monatractides COI sequences. The optimal tree with the sum of branch length = 0.33301736 is shown. The analysis involved 9 nucleotide sequences. There were a total of 669 positions in the final dataset.	2021-12-21	Pešić, Vladimir;Zawal, Andrzej;Saboori, Alireza;Smit, Harry		Zenodo	biologists	Pešić, Vladimir;Zawal, Andrzej;Saboori, Alireza;Smit, Harry			
038587B2FFBEFFB8FF2DF88CEFA1F9AC.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/5794948/files/figure.png	http://doi.org/10.5281/zenodo.5794948	FIGURE 7. Neighbor-joining tree based on studied Torrenticola COI sequences. The optimal tree with the sum of branch length = 1.18947924 is shown. The analysis involved 36 nucleotide sequences. There were a total of 669 positions in the final dataset.	FIGURE 7. Neighbor-joining tree based on studied Torrenticola COI sequences. The optimal tree with the sum of branch length = 1.18947924 is shown. The analysis involved 36 nucleotide sequences. There were a total of 669 positions in the final dataset.	2021-12-21	Pešić, Vladimir;Zawal, Andrzej;Saboori, Alireza;Smit, Harry		Zenodo	biologists	Pešić, Vladimir;Zawal, Andrzej;Saboori, Alireza;Smit, Harry			
