Datasets
Dataset | Project | Validated | Version |
---|---|---|---|
3OEC-instrument Current Flow | Collaborative Research: Robust optode-based eddy correlation systems for oxygen flux measurements in aquatic environments (Robust optode-based eddy correlation systems) | Yes | 1 |
3OEC-instrument PAR | Collaborative Research: Robust optode-based eddy correlation systems for oxygen flux measurements in aquatic environments (Robust optode-based eddy correlation systems) | Yes | 1 |
3OEC-instrument Temperature and Dissolved Oxygen | Collaborative Research: Robust optode-based eddy correlation systems for oxygen flux measurements in aquatic environments (Robust optode-based eddy correlation systems) | Yes | 1 |
454 pyrotag sequencing of 16S rRNA genes | Genetic diversity and distribution of microbes colonizing igneous minerals and glasses incubated in IODP Hole 1301A on the eastern flank of the Juan de Fuca Ridge (Microbe Diversity & Distribution JdFR) | No | 28 Jan 2016 |
45mEPOCS5 | U.S. JGOFS Equatorial Pacific (EqPac) | Yes | March 20, 1995 |
45mEPOCS7 | U.S. JGOFS Equatorial Pacific (EqPac) | Yes | March 20, 1995 |
4a_gut area-pixels | Feeding and food limitation in copepod nauplii, the neglected life stage (food limitation in copepod nauplii) | Yes | 2015-01-15 |
4b_min fluorescence thresholds | Feeding and food limitation in copepod nauplii, the neglected life stage (food limitation in copepod nauplii) | Yes | 2015-01-15 |
4c_gut fullness index | Feeding and food limitation in copepod nauplii, the neglected life stage (food limitation in copepod nauplii) | Yes | 2015-01-15 |
4d_gut fullness - two diets | Feeding and food limitation in copepod nauplii, the neglected life stage (food limitation in copepod nauplii) | Yes | 2015-01-15 |
5 generation increasing temperature experiment data | Beyond maternal effects: Transgenerational plasticity in thermal performance (ThermalTGP) | Yes | 1 |
515F-926R 16S rRNA accessions | Patterns of Microbial Community Structure Within and Between Hadal Environments (Mariana Perspectives) | Yes | |
57Fe Wall Loss Experiment | EAGER: Iron-Virus Interactions in the Ocean (Fe-Virus) | Yes | 1 |
5a_field collection | Feeding and food limitation in copepod nauplii, the neglected life stage (food limitation in copepod nauplii) | Yes | 2 |
5b_nauplii gut taxa | Feeding and food limitation in copepod nauplii, the neglected life stage (food limitation in copepod nauplii) | Yes | 2015-01-15 |
5c_BLAST results | Feeding and food limitation in copepod nauplii, the neglected life stage (food limitation in copepod nauplii) | Yes | 2015-01-15 |
5d_molecular id of copepod guts | Feeding and food limitation in copepod nauplii, the neglected life stage (food limitation in copepod nauplii) | Yes | 2 |
7Be | Collaborative Research: Use of Triple Oxygen Isotopes and O2/Ar to constrain Net/Gross Oxygen Production during upwelling and non-upwelling periods in a Coastal Setting (UpRISEE O2 upwelling) | Yes | 08 March 2017 |
80mEPOCS5 | U.S. JGOFS Equatorial Pacific (EqPac) | Yes | March 20, 1995 |
80mEPOCS7 | U.S. JGOFS Equatorial Pacific (EqPac) | Yes | March 20, 1995 |
9 Species Experiment (Months 3 and 7) | Positive Effects of Coral Biodiversity on Coral Performance: Patterns, Processes, and Dynamics (Coral Biodiversity) | No | 1 |
A stage-structured, spatially explicit stochastic model | Ocean Acidification: Collaborative Research: Interactive effects of acidification, low dissolved oxygen and temperature on abalone population dynamics within the California Current (CA Current MS Abpop) | No | |
A. pisonii: behavior | Linking Variation in Metabolic Processes as a Key to Prediction (Variation in Metabolic Processes) | Yes | 1 |
A. pisonii: clutch size | Linking Variation in Metabolic Processes as a Key to Prediction (Variation in Metabolic Processes) | Yes | 1 |
A. pisonii: dissections | Linking Variation in Metabolic Processes as a Key to Prediction (Variation in Metabolic Processes) | Yes | 1 |
A. pisonii: dock-marsh thermal | Linking Variation in Metabolic Processes as a Key to Prediction (Variation in Metabolic Processes) | Yes | 1 |
A. pisonii: egg energy | Linking Variation in Metabolic Processes as a Key to Prediction (Variation in Metabolic Processes) | Yes | 1 |
A. pisonii: egg fatty acids | Linking Variation in Metabolic Processes as a Key to Prediction (Variation in Metabolic Processes) | Yes | 1 |
A. pisonii: egg lipid and glycogen | Linking Variation in Metabolic Processes as a Key to Prediction (Variation in Metabolic Processes) | Yes | 1 |
A. pisonii: egg size | Linking Variation in Metabolic Processes as a Key to Prediction (Variation in Metabolic Processes) | Yes | |
A. pisonii: fecundity | Linking Variation in Metabolic Processes as a Key to Prediction (Variation in Metabolic Processes) | Yes | |
A. pisonii: fitness and diet | Linking Variation in Metabolic Processes as a Key to Prediction (Variation in Metabolic Processes) | Yes | 2016-02-25 |
A. pisonii: herbivory | Linking Variation in Metabolic Processes as a Key to Prediction (Variation in Metabolic Processes) | Yes | |
A. pisonii: larval starvation resistance | Linking Variation in Metabolic Processes as a Key to Prediction (Variation in Metabolic Processes) | Yes | |
A. pisonii: latitudinal body size | Linking Variation in Metabolic Processes as a Key to Prediction (Variation in Metabolic Processes) | Yes | |
A. pisonii: mangrove tree survey | Linking Variation in Metabolic Processes as a Key to Prediction (Variation in Metabolic Processes) | Yes | |
A. pisonii: predation | Linking Variation in Metabolic Processes as a Key to Prediction (Variation in Metabolic Processes) | Yes | |
A. pisonii: range expansion | Linking Variation in Metabolic Processes as a Key to Prediction (Variation in Metabolic Processes) | Yes | 2016-02-25 |
A. pisonii: reproductive effort | Linking Variation in Metabolic Processes as a Key to Prediction (Variation in Metabolic Processes) | Yes | |
A. pisonii: sun-shade | Linking Variation in Metabolic Processes as a Key to Prediction (Variation in Metabolic Processes) | Yes | 1 |
A. pisonii: thermal picture | Linking Variation in Metabolic Processes as a Key to Prediction (Variation in Metabolic Processes) | Yes | 1 |
AA-CSIA Bradley | CAMEO 2009 - A novel tool for validating trophic position estimates in ecosystem-based fisheries models (CAMEO_Trophic_Position) | No | 14 Aug 2015 |
AA-CSIA Olson | CAMEO 2009 - A novel tool for validating trophic position estimates in ecosystem-based fisheries models (CAMEO_Trophic_Position) | Yes | 1 |
Aanderaa - Natividad | CNH: Enhancing Resilience of Coastal Ecosystems and Human Communities to Oceanographic Variability: Social and Ecological Feedbacks (CNH-Baja Pacific) | Yes | 14 November 2017 |
Abalone consumption rates from the Sitka Sound (SSSC) | CAREER: Energy fluxes and community stability in a dynamic, high-latitude kelp ecosystem (High latitude kelp dynamics) | No | 1 |
Abalone growth rates from the Sitka Sound (SSSC) | CAREER: Energy fluxes and community stability in a dynamic, high-latitude kelp ecosystem (High latitude kelp dynamics) | No | 1 |
Abalone Recruitment Modules | Collaborative Research: Evaluating how abalone populations in the California Current are structured by the interplay of large-scale oceanographic forcing and nearshore variability (Abalone Safe Places) | Yes | 1 |
Abalone respiration rates from the Sitka Sound (SSSC) | CAREER: Energy fluxes and community stability in a dynamic, high-latitude kelp ecosystem (High latitude kelp dynamics) | No | 1 |
Abiotic data | Groundwater Discharge, Benthic Coupling and Microalgal Community Structure in a Shallow Coastal Lagoon (LittleLagoonGroundwater) | No | 1 |
ABLE | Collaborative Research: Field test of larval behavior on transport and connectivity in an upwelling regime (ABLE) | Yes | 1 |
ABLE Subsurface 2016-18 | Collaborative Research: Field test of larval behavior on transport and connectivity in an upwelling regime (ABLE) | Yes | 2 |
ABLE Surface 2016-18 | Collaborative Research: Field test of larval behavior on transport and connectivity in an upwelling regime (ABLE) | Yes | 2 |
Absorption coefficients | Relating the Optical Properties of CDOM within the Ocean Basins to Source and Structure (CDOM Optical Properties) | No | 1 |
Abyssal Bulk Isotope Analyses | Collaborative Research: Assessing the relative importance of small vs large particles as sources of nutrition to abyssal communities (Abyssal food web) | Yes | 1 |
Abyssal deposit feeders AACSIA | Collaborative Research: Assessing the relative importance of small vs large particles as sources of nutrition to abyssal communities (Abyssal food web) | Yes | 1 |
Abyssal megafauna capture records | Collaborative Research: Assessing the relative importance of small vs large particles as sources of nutrition to abyssal communities (Abyssal food web) | No | 1 |
Acanthaster behavioral observation data | Killer Seaweeds: Allelopathy against Fijian Corals (Killer Seaweeds) | No | 1 |
Acanthaster counts | Killer Seaweeds: Allelopathy against Fijian Corals (Killer Seaweeds) | No | Final |
Acanthaster movement distance and direction | Killer Seaweeds: Allelopathy against Fijian Corals (Killer Seaweeds) | No | 1 |
Acanthaster tagging locations | Killer Seaweeds: Allelopathy against Fijian Corals (Killer Seaweeds) | No | 1 |
Acartia tonsa Body Size | Collaborative Research: Response of marine copepods to warming temperature and ocean acidification (Copepod Response to Warming Temp and OA) | No | 0 |
Acartia tonsa Egg Production | Collaborative Research: Response of marine copepods to warming temperature and ocean acidification (Copepod Response to Warming Temp and OA) | No | 0 |
Acartia tonsa heat shock survivorship | Collaborative Research: Response of marine copepods to warming temperature and ocean acidification (Copepod Response to Warming Temp and OA) | No | 0 |
Acartia tonsa mortality with CTD data: 5 daytrips | Copepod Population Dynamics in Hypoxic Coastal Waters: Physical and Behavioral Regulation of Resupply and Advective Losses (CopesPopDynHypoZone) | Yes | |
Acartia tonsa mortality with CTD data: RV Sharp | Copepod Population Dynamics in Hypoxic Coastal Waters: Physical and Behavioral Regulation of Resupply and Advective Losses (CopesPopDynHypoZone) | Yes | |
Acartia tonsa thermal tolerance | Collaborative Research: Response of marine copepods to warming temperature and ocean acidification (Copepod Response to Warming Temp and OA) | No | 0 |
Accession numbers | Detecting genetic adaptation during marine invasions (Genetic Adaptation Marine Inv) | No | 1 |
Accession Numbers | Cascading effects of an invasive seaweed on estuarine food webs of the southeastern US (Gracilaria effects) | Yes | 22 December 2015 |
Accession numbers (P. carterae viruses and field samples) | Persistent Virus Infections in Marine Phytoplankton (Marine Chronic Viruses) | Yes | |
accessory transects | RUI-LTREB Renewal: Three decades of coral reef community dynamics in St. John, USVI: 2014-2019 (RUI-LTREB) | Yes | 1 |
ACE-Leg 1 NO3 Isotopes | Collaborative Research: Quantifying the effects of variable light and iron on the nitrate assimilation isotope effect of phytoplankton (Nitrate Assimilation Phytoplankton) | Yes | 1 |
Acer 25 genotype full factorial study | CAREER: Applying phenotypic variability to identify resilient Acropora cervicornis genotypes in the Florida Keys (Resilient Acerv) | No | 1 |
Acer Aquaria water quality PAR | CAREER: Applying phenotypic variability to identify resilient Acropora cervicornis genotypes in the Florida Keys (Resilient Acerv) | No | 1 |
Acer Aquaria water quality pH and DO | CAREER: Applying phenotypic variability to identify resilient Acropora cervicornis genotypes in the Florida Keys (Resilient Acerv) | No | 1 |
Acer Aquaria water quality TA, DIC, and CO2 | CAREER: Applying phenotypic variability to identify resilient Acropora cervicornis genotypes in the Florida Keys (Resilient Acerv) | No | 1 |
Acer Fecundity Colony Size and Morphometrics | CAREER: Applying phenotypic variability to identify resilient Acropora cervicornis genotypes in the Florida Keys (Resilient Acerv) | Yes | 1 |
Acer Fecundity Gamete Bundles | CAREER: Applying phenotypic variability to identify resilient Acropora cervicornis genotypes in the Florida Keys (Resilient Acerv) | Yes | 1 |
Acer Fecundity Oocyte Number | CAREER: Applying phenotypic variability to identify resilient Acropora cervicornis genotypes in the Florida Keys (Resilient Acerv) | Yes | 1 |
Acer Fecundity Oocyte Size | CAREER: Applying phenotypic variability to identify resilient Acropora cervicornis genotypes in the Florida Keys (Resilient Acerv) | Yes | 1 |
Acer Fecundity Polpys per Area | CAREER: Applying phenotypic variability to identify resilient Acropora cervicornis genotypes in the Florida Keys (Resilient Acerv) | Yes | 1 |
Acer Pilot Study | CAREER: Applying phenotypic variability to identify resilient Acropora cervicornis genotypes in the Florida Keys (Resilient Acerv) | No | 1 |
acoustic backscatter - BIOMAPER-II |
U.S. GLOBEC Southern Ocean (SOGLOBEC) GLOBEC: Winter Distribution and Success of Southern Ocean Krill (Southern Ocean Krill) |
Yes | |
acoustic backscatter curtain_plot | U.S. GLOBEC Georges Bank (GB) | Yes | 1 |
acoustic backscatter120 kHz |
U.S. GLOBEC Southern Ocean (SOGLOBEC) GLOBEC: Winter Distribution and Success of Southern Ocean Krill (Southern Ocean Krill) |
Yes | final |
Acoustic Data: Larval fish response to reef soundscapes | Coral Chorus: The Role of Soundscapes in Coral Reef Larval Recruitment and Biodiversity (Coral Chorus) | No | 1 |
Acoustic Summary Data | Coral Chorus: The Role of Soundscapes in Coral Reef Larval Recruitment and Biodiversity (Coral Chorus) | Yes | 2 |
Acropora cervicornis 16S Sequences Metadata and NCBI SRA accessions associated with Williams et al., 2022 |
Collaborative Research: Tracking the interacting roles of the environment, host genotype, and a novel Rickettsiales in coral disease susceptibility (Coral Rickettsiales) CAREER: Applying phenotypic variability to identify resilient Acropora cervicornis genotypes in the Florida Keys (Resilient Acerv) |
No | 1 |
Acropora cervicornis bleaching sequences | Collaborative Research: Tracking the interacting roles of the environment, host genotype, and a novel Rickettsiales in coral disease susceptibility (Coral Rickettsiales) | Yes | 1 |
Acropora cervicornis buoyant weight 2016 | CAREER: Applying phenotypic variability to identify resilient Acropora cervicornis genotypes in the Florida Keys (Resilient Acerv) | Yes | 1 |
Acropora cervicornis calcification rates | CAREER: Applying phenotypic variability to identify resilient Acropora cervicornis genotypes in the Florida Keys (Resilient Acerv) | Yes | 1 |
Acropora cervicornis Nursery Bleaching | RAPID: A hyper-thermal anomaly in the Florida Reef Tract: An opportunity to explore the mechanisms underpinning patterns of coral bleaching and disease (EMUCoReS) | Yes | 1 |
Acropora cervicornis nursery water temperatures | RAPID: A hyper-thermal anomaly in the Florida Reef Tract: An opportunity to explore the mechanisms underpinning patterns of coral bleaching and disease (EMUCoReS) | Yes | 1 |
Acropora cervicornis photosynthesis and respiration rates | CAREER: Applying phenotypic variability to identify resilient Acropora cervicornis genotypes in the Florida Keys (Resilient Acerv) | Yes | 1 |
Acropora cervicornis transcriptomes: nutrient- and disease-exposed | Collaborative Research: Tracking the interacting roles of the environment, host genotype, and a novel Rickettsiales in coral disease susceptibility (Coral Rickettsiales) | No | 1 |
Acropora cervicornis white band exposure experiment survival outcomes | Multi-omic bases of coral disease resistance (coral disease resistance) | Yes | 1 |
Acropora hyacinthus energetics and reproduction | RAPID: Collaborative Research: Studies of recovery from bleaching in Acropora hyacinthus: epigenetic shifts, impacts on reproductive biology and carry-over effects (Moorea coral bleaching) | Yes | 1 |
Acropora hyacinthus ITS2 amplicon sequencing | RAPID: Collaborative Research: Studies of recovery from bleaching in Acropora hyacinthus: epigenetic shifts, impacts on reproductive biology and carry-over effects (Moorea coral bleaching) | Yes | 1 |