taxonID	type	format	identifier	references	title	description	created	creator	contributor	publisher	audience	source	license	rightsHolder	datasetID
A588B0D19EEF5FC2A22F85751A5FCA3B.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1316099	https://doi.org/10.3897/phytokeys.255.144697.figure2	Figure 2. Haslea berepwari sp. nov. in vivo pictures with two parietal chloroplasts and apices without the presence blue pigment in light microscopy (A, B) and LM image of a cleaned valve (C – E), scale bar 20 µm.	Figure 2. Haslea berepwari sp. nov. in vivo pictures with two parietal chloroplasts and apices without the presence blue pigment in light microscopy (A, B) and LM image of a cleaned valve (C – E), scale bar 20 µm.	2025-04-25	Prasetiya, Fiddy Semba;Jauffrais, Thierry;Mohamed-Benkada, Mustapha;Callac, Nolwenn;Ansquer, Dominique;Yılmaz, Elif;Lemieux, Claude;Turmel, Monique;Mouget, Jean-Luc;Prabowo, Danang Ambar;Purbani, Debora Christin;Noerdjito, Diah Radini;Fahmi, Varian;Arsad, Sulastri;Gastineau, Romain		Zenodo	biologists	Prasetiya, Fiddy Semba;Jauffrais, Thierry;Mohamed-Benkada, Mustapha;Callac, Nolwenn;Ansquer, Dominique;Yılmaz, Elif;Lemieux, Claude;Turmel, Monique;Mouget, Jean-Luc;Prabowo, Danang Ambar;Purbani, Debora Christin;Noerdjito, Diah Radini;Fahmi, Varian;Arsad, Sulastri;Gastineau, Romain			
A588B0D19EEF5FC2A22F85751A5FCA3B.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1316098	https://doi.org/10.3897/phytokeys.255.144697.figure1	Figure 1. Sampling location of Haslea berepwari in the experimental aquaculture station of Saint Vincent (21 ° 55 ' 36.9 " S, 166 ° 05 ' 00.9 " E), the West Coast of Grande Terre, New Caledonia, during summer 2020. Sampling point is indicated with the red dots sign. Map produced with QGIS software version 3.43. 3 (QGIS. org 2023).	Figure 1. Sampling location of Haslea berepwari in the experimental aquaculture station of Saint Vincent (21 ° 55 ' 36.9 " S, 166 ° 05 ' 00.9 " E), the West Coast of Grande Terre, New Caledonia, during summer 2020. Sampling point is indicated with the red dots sign. Map produced with QGIS software version 3.43. 3 (QGIS. org 2023).	2025-04-25	Prasetiya, Fiddy Semba;Jauffrais, Thierry;Mohamed-Benkada, Mustapha;Callac, Nolwenn;Ansquer, Dominique;Yılmaz, Elif;Lemieux, Claude;Turmel, Monique;Mouget, Jean-Luc;Prabowo, Danang Ambar;Purbani, Debora Christin;Noerdjito, Diah Radini;Fahmi, Varian;Arsad, Sulastri;Gastineau, Romain		Zenodo	biologists	Prasetiya, Fiddy Semba;Jauffrais, Thierry;Mohamed-Benkada, Mustapha;Callac, Nolwenn;Ansquer, Dominique;Yılmaz, Elif;Lemieux, Claude;Turmel, Monique;Mouget, Jean-Luc;Prabowo, Danang Ambar;Purbani, Debora Christin;Noerdjito, Diah Radini;Fahmi, Varian;Arsad, Sulastri;Gastineau, Romain			
A588B0D19EEF5FC2A22F85751A5FCA3B.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1316100	https://doi.org/10.3897/phytokeys.255.144697.figure3	Figure 3. SEM micrographs of Haslea berepwari sp. nov. strain P 05. A Whole valve in external view B whole valve in internal view C internal view of the center of the valve demonstrating accessory ribs and the presence of a thin bar on the left side of the raphe D external view of the valve centre showing approximate raphe endings and continuous longitudinal fissures E internal view of apex with the helictoglossa F external view of apex showing the curved distal raphe fissure and part of the parallel and longitudinal slits adjoining the peripheral one. Scale bars: 10 μm (A); 20 μm (B); 1 μm (C – F).	Figure 3. SEM micrographs of Haslea berepwari sp. nov. strain P 05. A Whole valve in external view B whole valve in internal view C internal view of the center of the valve demonstrating accessory ribs and the presence of a thin bar on the left side of the raphe D external view of the valve centre showing approximate raphe endings and continuous longitudinal fissures E internal view of apex with the helictoglossa F external view of apex showing the curved distal raphe fissure and part of the parallel and longitudinal slits adjoining the peripheral one. Scale bars: 10 μm (A); 20 μm (B); 1 μm (C – F).	2025-04-25	Prasetiya, Fiddy Semba;Jauffrais, Thierry;Mohamed-Benkada, Mustapha;Callac, Nolwenn;Ansquer, Dominique;Yılmaz, Elif;Lemieux, Claude;Turmel, Monique;Mouget, Jean-Luc;Prabowo, Danang Ambar;Purbani, Debora Christin;Noerdjito, Diah Radini;Fahmi, Varian;Arsad, Sulastri;Gastineau, Romain		Zenodo	biologists	Prasetiya, Fiddy Semba;Jauffrais, Thierry;Mohamed-Benkada, Mustapha;Callac, Nolwenn;Ansquer, Dominique;Yılmaz, Elif;Lemieux, Claude;Turmel, Monique;Mouget, Jean-Luc;Prabowo, Danang Ambar;Purbani, Debora Christin;Noerdjito, Diah Radini;Fahmi, Varian;Arsad, Sulastri;Gastineau, Romain			
A588B0D19EEF5FC2A22F85751A5FCA3B.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1316101	https://doi.org/10.3897/phytokeys.255.144697.figure4	Figure 4. Mitochondrial genome of Haslea berepwari sp. nov. Coloured boxes represent genes, with colours denoting their categories as indicated in the bottom left legend. The inner grey ring shows variations in G + C content.	Figure 4. Mitochondrial genome of Haslea berepwari sp. nov. Coloured boxes represent genes, with colours denoting their categories as indicated in the bottom left legend. The inner grey ring shows variations in G + C content.	2025-04-25	Prasetiya, Fiddy Semba;Jauffrais, Thierry;Mohamed-Benkada, Mustapha;Callac, Nolwenn;Ansquer, Dominique;Yılmaz, Elif;Lemieux, Claude;Turmel, Monique;Mouget, Jean-Luc;Prabowo, Danang Ambar;Purbani, Debora Christin;Noerdjito, Diah Radini;Fahmi, Varian;Arsad, Sulastri;Gastineau, Romain		Zenodo	biologists	Prasetiya, Fiddy Semba;Jauffrais, Thierry;Mohamed-Benkada, Mustapha;Callac, Nolwenn;Ansquer, Dominique;Yılmaz, Elif;Lemieux, Claude;Turmel, Monique;Mouget, Jean-Luc;Prabowo, Danang Ambar;Purbani, Debora Christin;Noerdjito, Diah Radini;Fahmi, Varian;Arsad, Sulastri;Gastineau, Romain			
A588B0D19EEF5FC2A22F85751A5FCA3B.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1316102	https://doi.org/10.3897/phytokeys.255.144697.figure5	Figure 5. Plastid genome of Haslea berepwari sp. nov. Coloured boxes represent genes, with colours denoting their categories as indicated in the bottom left legend. The inner grey ring shows variations in G + C content.	Figure 5. Plastid genome of Haslea berepwari sp. nov. Coloured boxes represent genes, with colours denoting their categories as indicated in the bottom left legend. The inner grey ring shows variations in G + C content.	2025-04-25	Prasetiya, Fiddy Semba;Jauffrais, Thierry;Mohamed-Benkada, Mustapha;Callac, Nolwenn;Ansquer, Dominique;Yılmaz, Elif;Lemieux, Claude;Turmel, Monique;Mouget, Jean-Luc;Prabowo, Danang Ambar;Purbani, Debora Christin;Noerdjito, Diah Radini;Fahmi, Varian;Arsad, Sulastri;Gastineau, Romain		Zenodo	biologists	Prasetiya, Fiddy Semba;Jauffrais, Thierry;Mohamed-Benkada, Mustapha;Callac, Nolwenn;Ansquer, Dominique;Yılmaz, Elif;Lemieux, Claude;Turmel, Monique;Mouget, Jean-Luc;Prabowo, Danang Ambar;Purbani, Debora Christin;Noerdjito, Diah Radini;Fahmi, Varian;Arsad, Sulastri;Gastineau, Romain			
A588B0D19EEF5FC2A22F85751A5FCA3B.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1316103	https://doi.org/10.3897/phytokeys.255.144697.figure6	Figure 6. Maximum Likelihood phylogenetic tree obtained from concatenated alignments of 123 protein coding genes from 19 species of diatoms. The tree is rooted with Eunotia naegelii.	Figure 6. Maximum Likelihood phylogenetic tree obtained from concatenated alignments of 123 protein coding genes from 19 species of diatoms. The tree is rooted with Eunotia naegelii.	2025-04-25	Prasetiya, Fiddy Semba;Jauffrais, Thierry;Mohamed-Benkada, Mustapha;Callac, Nolwenn;Ansquer, Dominique;Yılmaz, Elif;Lemieux, Claude;Turmel, Monique;Mouget, Jean-Luc;Prabowo, Danang Ambar;Purbani, Debora Christin;Noerdjito, Diah Radini;Fahmi, Varian;Arsad, Sulastri;Gastineau, Romain		Zenodo	biologists	Prasetiya, Fiddy Semba;Jauffrais, Thierry;Mohamed-Benkada, Mustapha;Callac, Nolwenn;Ansquer, Dominique;Yılmaz, Elif;Lemieux, Claude;Turmel, Monique;Mouget, Jean-Luc;Prabowo, Danang Ambar;Purbani, Debora Christin;Noerdjito, Diah Radini;Fahmi, Varian;Arsad, Sulastri;Gastineau, Romain			
A588B0D19EEF5FC2A22F85751A5FCA3B.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://binary.pensoft.net/fig/1316104	https://doi.org/10.3897/phytokeys.255.144697.figure7	Figure 7. Maximum Likelihood phylogenetic tree obtained from concatenated alignments of three protein coding genes from 133 species of diatoms. The tree was rooted with Triparma pacifica. The subtree containing the 14 species of Haslea spp. is shown.	Figure 7. Maximum Likelihood phylogenetic tree obtained from concatenated alignments of three protein coding genes from 133 species of diatoms. The tree was rooted with Triparma pacifica. The subtree containing the 14 species of Haslea spp. is shown.	2025-04-25	Prasetiya, Fiddy Semba;Jauffrais, Thierry;Mohamed-Benkada, Mustapha;Callac, Nolwenn;Ansquer, Dominique;Yılmaz, Elif;Lemieux, Claude;Turmel, Monique;Mouget, Jean-Luc;Prabowo, Danang Ambar;Purbani, Debora Christin;Noerdjito, Diah Radini;Fahmi, Varian;Arsad, Sulastri;Gastineau, Romain		Zenodo	biologists	Prasetiya, Fiddy Semba;Jauffrais, Thierry;Mohamed-Benkada, Mustapha;Callac, Nolwenn;Ansquer, Dominique;Yılmaz, Elif;Lemieux, Claude;Turmel, Monique;Mouget, Jean-Luc;Prabowo, Danang Ambar;Purbani, Debora Christin;Noerdjito, Diah Radini;Fahmi, Varian;Arsad, Sulastri;Gastineau, Romain			
