Loading...
Loading...
Cell biology, microbiology, ecology, biodiversity, species data, evolutionary biology
23,925 datasets
753 submarine canyons along the Australian continental margin are evaluated for habitat potential using a surrogacy framework with 22 environmental and ecological variables. The methodology was developed by Geoscience Australia and presented at the 2017 Australian Marine Science Association Conference. The framework aims to identify high-value habitats for pelagic and benthic megafauna to support marine spatial planning.
A spectral library of aquatic substrates from the south coast of Western Australia, collected in 2008. The data is hosted in the National Spectral Database (NSD) and was produced by researchers from the National Research Flagship Wealth from Oceans. The record was last updated on 2026-06-04.
High-resolution multibeam and satellite-derived bathymetry data map shallow-water benthic ecosystems in the Vestfold Hills, Antarctica. The dataset provides a physical framework for understanding habitat distribution and vulnerability to sea ice changes. Geoscience Australia Data presented this work at the 2023 POLAR 2018 A SCAR & IASC Conference.
An assemblage of vertebrate coprolites and Neodiapsida humeri recovered from Early Triassic sandstone beds in India provides evidence of ecosystem recovery after the Permo-Triassic mass extinction. Saurabh Pal published this dataset on figshare in April 2026, characterizing fossils based on external features, biotic inclusions, and chemical nature. Several coprolites contain inclusions of ganoid fish scales and conchostracan valves, indicating carnivorous producers with a piscivorous diet.
Geoscience Australia conducted field surveys in Jervis Bay, New South Wales, to collect co-located physical and biological data for research on biodiversity surrogates. Outputs include high-resolution multibeam acoustic datasets, underwater video footage of benthic habitats, and seabed sediment and infauna samples. A progress report on the survey work was presented in October 2008.
A multicenter retrospective cohort of 290 patients with locally advanced rectal cancer (LARC) was analyzed by Liang Zhang, with data last updated in April 2026. The dataset likely contains features derived from high-resolution MRI scans, including intratumoral and peritumoral radiomic features, habitat heterogeneity metrics, and clinical variables used to build a predictive nomogram. It was created to improve risk stratification and personalize treatment decisions for LARC patients.
Yunyi Zhou published this dataset on 2026-04-15. It contains comparative genomic analysis results for the complete mitochondrial genomes of two medicinal Curcuma species, C. longa and C. kwangsiensis. The data includes metrics on genome size, GC content, gene counts, repeat landscapes, and evolutionary selection pressures.
Two complete mitochondrial genomes, each over 7.6 Mb, sequenced from the medicinal plants Curcuma longa and Curcuma kwangsiensis. The dataset, uploaded by Yunyi Zhou in April 2026, reveals structural differences, conserved genes, and species-specific evolutionary dynamics. It includes analyses of genome size, GC content, gene duplication, RNA editing, and phylogenetic relationships.
7.66 Mb and 7.96 Mb mitochondrial genomes reveal structural plasticity and evolutionary dynamics in two medicinal Curcuma species. Assembled by Yunyi Zhou, the data includes comparative analysis of gene content, codon usage, RNA editing, and plastid-derived fragments. The dataset was last updated on April 15, 2026.
7.66 Mb and 7.96 Mb complete mitochondrial genomes for Curcuma longa and Curcuma kwangsiensis, respectively, assembled and analyzed by Yunyi Zhou. The dataset includes findings on gene content, RNA editing, repeat landscapes, and phylogenetic relationships, last updated on 2026-04-15. It provides genomic resources for studying mitochondrial evolution in the ginger family.
7.66 Mb and 7.96 Mb complete mitochondrial genomes for Curcuma longa and Curcuma kwangsiensis, assembled by Yunyi Zhou. The data reveals conserved core genes, species-specific repeat landscapes, and evidence of RNA editing and plastid gene transfer. This genomic resource was last updated in April 2026.
Two complete mitochondrial genomes from the medicinal ginger family Zingiberaceae reveal highly expanded and fragmented architectures of 7.66 Mb and 7.96 Mb. Assembled by Yunyi Zhou and published in April 2026, these genomes contain 39 core protein-coding genes each and show species-specific variation in gene duplication, RNA editing, and repeat content. The data provides genomic resources for resolving phylogenetic relationships and understanding mitochondrial genome plasticity.
Complete mitochondrial genome assemblies for the medicinal plants Curcuma longa and Curcuma kwangsiensis, revealing structural and evolutionary features. The dataset includes analyses of genome size, gene content, codon usage, RNA editing, and phylogenetic relationships. Yunyi Zhou published the data on figshare in April 2026.
Comparative analysis of the complete mitochondrial genomes for two medicinal Curcuma species, Curcuma longa and Curcuma kwangsiensis. The dataset includes assembled genomes of 7.66 Mb and 7.96 Mb, respectively, with analysis of gene content, codon usage, RNA editing, and evolutionary selection. The data was authored by Yunyi Zhou and shared on figshare in April 2026.
North American southwest fossil lizards from ten paleontological sites were analyzed alongside modern specimens. The dataset includes FASTA files for 23 species of Squamata (Phrynosomatidae and Iguanidae) used to expand a ZooMS reference database. It was created by Erin Keenan Early and published on figshare in 2026.
A National Environmental Science Program inventory provides data and monitoring standards for offshore renewable energy development in Australia. The inventory covers five proposed and declared development areas: Hunter, Gippsland and Bass Strait, Illawarra, Southern Ocean, and south-west Western Australia. It was presented at the 2024 AMSA-NZMSS Conference Hobart Tas and is hosted by the Australian Ocean Data Network.
Four marine surveys conducted on the RV Solander between 2009 and 2012 collected sediment samples from northern Australia. Polychaetes were extracted, taxonomically identified by Chris Glasby and Charlotte Watson to species or operational taxonomic units (OTUs), and lodged at the Museum and Art Gallery of the Northern Territory. This dataset is published with permission from Geoscience Australia and supported by the National Environmental Science Program.
The Australian Ocean Data Network presents seabed geomorphology and habitat maps to support offshore renewable energy development. The maps synthesize interpretations of bathymetry, shallow geology, sedimentology, and ecology data to illustrate seabed features, compositions, and processes. These data were presented at the 2024 AMSA-NZMSS Conference.
Esperance Bay in Western Australia's Recherche Archipelago is a shallow, high-energy environment studied for seabed habitat mapping. The dataset likely contains relationships between seabed geomorphology and benthic habitats, derived from multibeam sonar, underwater video, predicted wave energy, and sediment data. The Australian Ocean Data Network published this study, which was last updated in May 2026.
A 53.8 KB Excel dataset combining new and reviewed data on monoterpene composition in four Lamiaceae species across the Western Mediterranean region. The dataset, authored by Andreas Faber and last updated in April 2026, integrates chemical variation with historical climatic records to test associations between chemotype distributions and environmental conditions.