taxonID	type	format	identifier	references	title	description	created	creator	contributor	publisher	audience	source	license	rightsHolder	datasetID
038243601F25FFEEFFBA66EE499AFE92.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/15304195/files/figure.png	https://doi.org/10.5281/zenodo.15304195	FIGURE 2 | The east coast of Australia with the upper, lower, and mid-range points of Tripneustes australiae and T. g. gratilla. Distributions were constructed from Australian Museum, Museum Victoria, Sea Urchin Science Centre and Gallery, and Natural History Museum (London) collections. Background colours represent the mean SST from 2000 to 2020 extracted from Bio-Oracle SST (Assis et al. 2024). Points are accompanied by the average maximum and minimum SST records from 2000 to 2020 for that location.	FIGURE 2 | The east coast of Australia with the upper, lower, and mid-range points of Tripneustes australiae and T. g. gratilla. Distributions were constructed from Australian Museum, Museum Victoria, Sea Urchin Science Centre and Gallery, and Natural History Museum (London) collections. Background colours represent the mean SST from 2000 to 2020 extracted from Bio-Oracle SST (Assis et al. 2024). Points are accompanied by the average maximum and minimum SST records from 2000 to 2020 for that location.	2025-01-24	McLaren, Emily;Sommer, Brigitte;Pine, Christopher;Miskelly, Ashley;Byrne, Maria		Zenodo	biologists	McLaren, Emily;Sommer, Brigitte;Pine, Christopher;Miskelly, Ashley;Byrne, Maria			
038243601F25FFEEFFBA66EE499AFE92.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/15304197/files/figure.png	https://doi.org/10.5281/zenodo.15304197	FIGURE 3 | Model predicted densities (± SEM) of Tripneustes spp. for each ecoregion (n= 7) in Australia. Data are pooled across year (n = 19, 2003–2024), location (n = 18, 14.66 S–36.25 S, 145.45 E–159.28 E), site (n= 107, Watsons-Turtle Reef, Northern Great Barrier Reef—Barunguba, Montague Island, Cape Howe), and depth (n= 74, 0.4–31m). Letters indicate Tukey's post hoc groups. Groups that do not share a letter are significantly different. If two or more means share the same grouping symbol, then they are not significantly different based on given sample sizes.	FIGURE 3 | Model predicted densities (± SEM) of Tripneustes spp. for each ecoregion (n= 7) in Australia. Data are pooled across year (n = 19, 2003–2024), location (n = 18, 14.66 S–36.25 S, 145.45 E–159.28 E), site (n= 107, Watsons-Turtle Reef, Northern Great Barrier Reef—Barunguba, Montague Island, Cape Howe), and depth (n= 74, 0.4–31m). Letters indicate Tukey's post hoc groups. Groups that do not share a letter are significantly different. If two or more means share the same grouping symbol, then they are not significantly different based on given sample sizes.	2025-01-24	McLaren, Emily;Sommer, Brigitte;Pine, Christopher;Miskelly, Ashley;Byrne, Maria		Zenodo	biologists	McLaren, Emily;Sommer, Brigitte;Pine, Christopher;Miskelly, Ashley;Byrne, Maria			
038243601F25FFEEFFBA66EE499AFE92.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/15304199/files/figure.png	https://doi.org/10.5281/zenodo.15304199	FIGURE 4 | The distributions of Tripneustes spp. in the tropical, subtropical, and temperate regions of Australia, assembled from Reef Life Survey data (2003–2024). The size of each circle represents the total frequency of observation by RLS at a particular latitude and longitude from 2003-2024.	FIGURE 4 | The distributions of Tripneustes spp. in the tropical, subtropical, and temperate regions of Australia, assembled from Reef Life Survey data (2003–2024). The size of each circle represents the total frequency of observation by RLS at a particular latitude and longitude from 2003-2024.	2025-01-24	McLaren, Emily;Sommer, Brigitte;Pine, Christopher;Miskelly, Ashley;Byrne, Maria		Zenodo	biologists	McLaren, Emily;Sommer, Brigitte;Pine, Christopher;Miskelly, Ashley;Byrne, Maria			
038243601F25FFEEFFBA66EE499AFE92.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/15304203/files/figure.png	https://doi.org/10.5281/zenodo.15304203	FIGURE 6 | Habitat suitability of T. gratilla gratilla in the northwestern Indo-Pacific, eastern Australia, and the Tasman Sea based on model predictions using minimum depth and current sea surface temperature (top) and minimum depth and sea surface temperature (SSP2-4.5) projections for the period between 2090 and 2100 (bottom).	FIGURE 6 | Habitat suitability of T. gratilla gratilla in the northwestern Indo-Pacific, eastern Australia, and the Tasman Sea based on model predictions using minimum depth and current sea surface temperature (top) and minimum depth and sea surface temperature (SSP2-4.5) projections for the period between 2090 and 2100 (bottom).	2025-01-24	McLaren, Emily;Sommer, Brigitte;Pine, Christopher;Miskelly, Ashley;Byrne, Maria		Zenodo	biologists	McLaren, Emily;Sommer, Brigitte;Pine, Christopher;Miskelly, Ashley;Byrne, Maria			
038243601F26FFE1FFBA61854FCBFE39.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/15304190/files/figure.png	https://doi.org/10.5281/zenodo.15304190	FIGURE 1 | The distributions of Tripneustes g. gratilla and T. australiae in Australia were assembled from the Australian Museum, Museums Victoria, Sea Urchin Science Centre and Gallery, and Natural History Museum (London) collections. The size of the circles (represents the frequency of collection/number of specimens collected at a particular latitude and longitude.	FIGURE 1 | The distributions of Tripneustes g. gratilla and T. australiae in Australia were assembled from the Australian Museum, Museums Victoria, Sea Urchin Science Centre and Gallery, and Natural History Museum (London) collections. The size of the circles (represents the frequency of collection/number of specimens collected at a particular latitude and longitude.	2025-01-24	McLaren, Emily;Sommer, Brigitte;Pine, Christopher;Miskelly, Ashley;Byrne, Maria		Zenodo	biologists	McLaren, Emily;Sommer, Brigitte;Pine, Christopher;Miskelly, Ashley;Byrne, Maria			
038243601F26FFE1FFBA61854FCBFE39.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/15304195/files/figure.png	https://doi.org/10.5281/zenodo.15304195	FIGURE 2 | The east coast of Australia with the upper, lower, and mid-range points of Tripneustes australiae and T. g. gratilla. Distributions were constructed from Australian Museum, Museum Victoria, Sea Urchin Science Centre and Gallery, and Natural History Museum (London) collections. Background colours represent the mean SST from 2000 to 2020 extracted from Bio-Oracle SST (Assis et al. 2024). Points are accompanied by the average maximum and minimum SST records from 2000 to 2020 for that location.	FIGURE 2 | The east coast of Australia with the upper, lower, and mid-range points of Tripneustes australiae and T. g. gratilla. Distributions were constructed from Australian Museum, Museum Victoria, Sea Urchin Science Centre and Gallery, and Natural History Museum (London) collections. Background colours represent the mean SST from 2000 to 2020 extracted from Bio-Oracle SST (Assis et al. 2024). Points are accompanied by the average maximum and minimum SST records from 2000 to 2020 for that location.	2025-01-24	McLaren, Emily;Sommer, Brigitte;Pine, Christopher;Miskelly, Ashley;Byrne, Maria		Zenodo	biologists	McLaren, Emily;Sommer, Brigitte;Pine, Christopher;Miskelly, Ashley;Byrne, Maria			
038243601F26FFE1FFBA61854FCBFE39.taxon	http://purl.org/dc/dcmitype/StillImage	image/png	https://zenodo.org/record/15304201/files/figure.png	https://doi.org/10.5281/zenodo.15304201	FIGURE 5 | Habitat suitability for T. australiae in eastern Australia and the Tasman Sea based on model predictions using minimum depth, current day sea surface temperature, and current day seawater velocity (top) and minimum depth, sea surface temperature (SSP2-4.5), and sea-water velocity (SSP2-4.5) projections for the period between 2090 and 2100 (bottom).	FIGURE 5 | Habitat suitability for T. australiae in eastern Australia and the Tasman Sea based on model predictions using minimum depth, current day sea surface temperature, and current day seawater velocity (top) and minimum depth, sea surface temperature (SSP2-4.5), and sea-water velocity (SSP2-4.5) projections for the period between 2090 and 2100 (bottom).	2025-01-24	McLaren, Emily;Sommer, Brigitte;Pine, Christopher;Miskelly, Ashley;Byrne, Maria		Zenodo	biologists	McLaren, Emily;Sommer, Brigitte;Pine, Christopher;Miskelly, Ashley;Byrne, Maria			
