Datasets
Dataset | Project | Validated | Version |
---|---|---|---|
Symbiodinium_Seriatopora temp-salinity-light |
The ecophysiological basis of the response of coral larvae and early life history stages to global climate change (Climate_Coral_Larvae) Moorea Coral Reef Long-Term Ecological Research site (MCR LTER) |
Yes | 2014-08-12 |
Symbiodinium_Seriatopora water chemistry |
The ecophysiological basis of the response of coral larvae and early life history stages to global climate change (Climate_Coral_Larvae) Moorea Coral Reef Long-Term Ecological Research site (MCR LTER) |
Yes | 2014-08-12 |
Symbiont accession numbers | Ontogenic change in Cnidarian-algal symbioses: A genomic and ecologic perspective (SymBioSys) | Yes | 2015-01-15 |
Symbiont community structure in Orbicella faveolata | Collaborative Research: Assessing the changing symbiotic milieu on Caribbean coral reefs under climate change: magnitude, tradeoffs, interventions, and implications (Symbiont Shifts on Reefs) | Yes | 1 |
Symbiont density | Ontogenic change in Cnidarian-algal symbioses: A genomic and ecologic perspective (SymBioSys) | Yes | 2015-01-29 |
Symbiont type in recovering corals | Ontogenic change in Cnidarian-algal symbioses: A genomic and ecologic perspective (SymBioSys) | Yes | 2015-01-29 |
Syn-Pro Co-cultures | Impacts of Evolution on the Response of Phytoplankton Populations to Rising CO2 (P-ExpEv) | Yes | 1 |
Synechococcus accessions | Dimensions: Collaborative Research: Genetic, functional and phylogenetic diversity determines marine phytoplankton community responses to changing temperature and nutrients (Phytoplankton Community Responses) | Yes | 1 |
Synechococcus Batch Culture Sampling Data | Collaborative Research: The stoichiometric trait distribution of the marine microbiome (StoichTraitD) | Yes | 1 |
Synechococcus elongatus CCMP1629 in nitrate-limited and nutrient-replete cultures | Collaborative Research: Effects of multiple stressors on Marine Phytoplankton (Stressors on Marine Phytoplankton) | No | 2 |
Synechococcus fluorescence emission spectra | Dimensions: Collaborative Research: Genetic, functional and phylogenetic diversity determines marine phytoplankton community responses to changing temperature and nutrients (Phytoplankton Community Responses) | Yes | 1 |
Synechococcus growth and genetic sequence accessions from pCO2 experiments | Collaborative Research: Ecology and Evolution of Microbial Interactions in a Changing Ocean (LTPE) | Yes | 1 |
Synechococcus growth rate: silicic acid | Understanding the Role of Picocyanobacteria in the Marine Silicate Cycle (Si_in_Syn) | Yes | |
Synechococcus growth rate: varying light levels | Understanding the Role of Picocyanobacteria in the Marine Silicate Cycle (Si_in_Syn) | Yes | |
Synechococcus growth rates | Dimensions: Collaborative Research: Genetic, functional and phylogenetic diversity determines marine phytoplankton community responses to changing temperature and nutrients (Phytoplankton Community Responses) | Yes | 1 |
Synechococcus Si quotas: phosphorous | Understanding the Role of Picocyanobacteria in the Marine Silicate Cycle (Si_in_Syn) | Yes | |
Synechococcus Si quotas: silicic acid | Understanding the Role of Picocyanobacteria in the Marine Silicate Cycle (Si_in_Syn) | Yes | |
Synechococcus Si uptake: additional nutrients | Understanding the Role of Picocyanobacteria in the Marine Silicate Cycle (Si_in_Syn) | Yes | |
Synechococcus Si uptake: phosphorous | Understanding the Role of Picocyanobacteria in the Marine Silicate Cycle (Si_in_Syn) | Yes | |
Synechococcus Si uptake: silicic acid gradients | Understanding the Role of Picocyanobacteria in the Marine Silicate Cycle (Si_in_Syn) | Yes | |
Synechococcus TPC parameters | Dimensions: Collaborative Research: Genetic, functional and phylogenetic diversity determines marine phytoplankton community responses to changing temperature and nutrients (Phytoplankton Community Responses) | Yes | 1 |
Synechococcus WH8102 chemostats |
Collaborative Research: The stoichiometric trait distribution of the marine microbiome (StoichTraitD) Convergence: RAISE: Linking the adaptive dynamics of plankton with emergent global ocean biogeochemistry (Ocean Stoichiometry) |
No | 1 |
Synechococcus: cellular silicon water-soluble fraction | Understanding the Role of Picocyanobacteria in the Marine Silicate Cycle (Si_in_Syn) | Yes | |
Synechococcus_ETSP | RAPID: Synechococcus diversity and Fe stress and the relationship to dissolved metals in the Eastern Tropical South Pacific (Syne_ETSP) | Yes | 1 |
Synechococcus_QPCR | The role of iron (Fe) in controlling in situ distributions and activities of marine Synechococcus (Fe_Synechococcus) | Yes | |
Synthesis Product for Ocean Time Series (SPOTS) |
EarthCube RCN for Marine Ecological Time Series (METS) (METS RCN) Improving and Integrating European Ocean Observing and Forecasting Systems for Sustainable use of the Oceans (EuroSea) |
Yes | 2 |
T Lake 1200-yr Reconstruction | Do Parallel Patterns Arise from Parallel Processes? (PaPaPro) | Yes | 1 |
T Lake PC1 Chronology | Do Parallel Patterns Arise from Parallel Processes? (PaPaPro) | Yes | 1 |
T-Beam Mooring A1 | Collaborative Research: A study of the energy dissipation of the internal tide as it reaches the continental slope of Tasmania (T-BEAM) | Yes | 1 |
T-Beam Mooring A1 - ADCP | Collaborative Research: A study of the energy dissipation of the internal tide as it reaches the continental slope of Tasmania (T-BEAM) | Yes | 1 |
T. pseudonana fatty acids by biovolume | Dimensions: Collaborative Research: Genetic, functional and phylogenetic diversity determines marine phytoplankton community responses to changing temperature and nutrients (Phytoplankton Community Responses) | Yes | 1 |
T. pseudonana fatty acids per cell | Dimensions: Collaborative Research: Genetic, functional and phylogenetic diversity determines marine phytoplankton community responses to changing temperature and nutrients (Phytoplankton Community Responses) | Yes | 1 |
T. pseudonana starve-recover experiments: Cell information | EAGER: Diatom Programmed Cell Death at Single-Cell Resolution (Diatom Death) | Yes | 1 |
T. pseudonana starve-recover experiments: Gene information | EAGER: Diatom Programmed Cell Death at Single-Cell Resolution (Diatom Death) | Yes | 1 |
T. pseudonana starve-recover experiments: Physiological data | EAGER: Diatom Programmed Cell Death at Single-Cell Resolution (Diatom Death) | Yes | 1 |
T. rotula Common Garden Experiment | Dimensions: Collaborative Research: Genetic, functional and phylogenetic diversity determines marine phytoplankton community responses to changing temperature and nutrients (Phytoplankton Community Responses) | Yes | 1 |
T. rotula microbiome global sample | Connecting local, regional and global scales of gene flow in planktonic marine diatoms (Diatom Gene Flow) | Yes | 1 |
Table 1 - Physical and chemical parameters during egg experiments | Ocean Acidification-Category 1- Impact of ocean acidification on survival of early life stages of planktonic copepods in the genus Calanus in the northern (OA Calanus Survival) | Yes | 1 |
Table 1. 210Pb, 210Bi, and 210Po activities in rain and lake water | The measurement and use of bismuth-210 as a tracer of particle flux in aquatic systems (Bi 210 measurement) | Yes | 1 |
Table 2 - Carbonate data and nutrients during egg experiments | Ocean Acidification-Category 1- Impact of ocean acidification on survival of early life stages of planktonic copepods in the genus Calanus in the northern (OA Calanus Survival) | Yes | 1 |
Table 2. Suspended particulate matter (SPM) concentrations in lake water | The measurement and use of bismuth-210 as a tracer of particle flux in aquatic systems (Bi 210 measurement) | Yes | 1 |
Table 3 - Hatching success | Ocean Acidification-Category 1- Impact of ocean acidification on survival of early life stages of planktonic copepods in the genus Calanus in the northern (OA Calanus Survival) | Yes | 1 |
Table 3: 210Pb, 210Bi, and 210Po activities in mussels | The measurement and use of bismuth-210 as a tracer of particle flux in aquatic systems (Bi 210 measurement) | Yes | 1 |
Tagged kelp size and depth | Linking nearshore kelp forest dynamics to sandy beach ecosystems (Linking Kelp to Beaches) | Yes | 1 |
Tail beat frequency in Oikopleura dioica at 3 temperature treatments | Collaborative Research: Comparative feeding by gelatinous grazers on microbial prey (Gelatinous Grazer Feeding) | Yes | 1 |
Tail wave amplitude in Oikopleura dioica at 3 temperature treatments | Collaborative Research: Comparative feeding by gelatinous grazers on microbial prey (Gelatinous Grazer Feeding) | Yes | 1 |
Tam genome analysis | Alternative carbon fixation strategies in the model organism Thermovibrio ammonificans: A model system to study energy limitation in the deep biosphere (Deep Biosphere Energy Limitation) | Yes | 1 |
Tank and field turbulence | Influence of organism-scale turbulence on the predatory impacts of a suite of cnidarian medusae (jellyfish predation in turbulence) | Yes | |
Tank conditions in L. pertusa pH experiments | Physiological and genetic responses of the deep-water coral, Lophelia pertusa, to ongoing ocean acidification in the Gulf of Mexico (Lophelia OA) | Yes | 1 |
Target site benthic survey reef bioerosion - 2014 | Ocean Acidification: Century Scale Impacts to Ecosystem Structure and Function of Aleutian Kelp Forests (OA Kelp Forest Function) | Yes | 1 |
Target site benthic survey urchin density - 2014 | Ocean Acidification: Century Scale Impacts to Ecosystem Structure and Function of Aleutian Kelp Forests (OA Kelp Forest Function) | Yes | 1 |
Target site benthic survey urchin size biomass - 2014 | Ocean Acidification: Century Scale Impacts to Ecosystem Structure and Function of Aleutian Kelp Forests (OA Kelp Forest Function) | Yes | 1 |
Target site benthic survey vegetation - 2014 | Ocean Acidification: Century Scale Impacts to Ecosystem Structure and Function of Aleutian Kelp Forests (OA Kelp Forest Function) | Yes | 1 |
Targeted metabolite abundances: dissolved | Dissolved Organic Matter Composition in the Deep Atlantic Ocean (Deep Atlantic DOM) | Yes | |
Targeted metabolite abundances: particulate | Dissolved Organic Matter Composition in the Deep Atlantic Ocean (Deep Atlantic DOM) | Yes | |
Tatoosh Island Surface Water Temperature | Eco-Evolutionary Response to the Scale of Temporal Environmental Fluctuation (Eco Evolutionary Response) | No | 1 |
Taxonomic data |
LTREB Long-term coral reef community dynamics in St. John, USVI: 1987-2019 (St. John LTREB) RUI-LTREB Renewal: Three decades of coral reef community dynamics in St. John, USVI: 2014-2019 (RUI-LTREB) |
Yes | 1 |
tco2 | U.S. JGOFS Equatorial Pacific (EqPac) | Yes | final |
TCO2 | U.S. JGOFS Antarctic Environment and Southern Ocean Process Study (AESOPS) | Yes | May 8, 2001 |
tco2 | U.S. JGOFS Arabian Sea (Arabian Sea) | Yes | May 8, 2001 |
tco2_man | U.S. JGOFS Equatorial Pacific (EqPac) | Yes | July 29, 2002 |
tco2_pco2 | U.S. JGOFS Antarctic Environment and Southern Ocean Process Study (AESOPS) | Yes | August 23, 2001 |
TEM Pleurochrysis carterae thin section images | Persistent Virus Infections in Marine Phytoplankton (Marine Chronic Viruses) | Yes | |
TEM Pleurochrysis carterae virion images | Persistent Virus Infections in Marine Phytoplankton (Marine Chronic Viruses) | Yes | |
Temperature | Collaborative research: Quantifying the biological, chemical, and physical linkages between chemosynthetic communities and the surrounding deep sea (Costa Rica Seeps) | No | 1 |
Temperature | EAGER: Collaborative Research: Bleaching phenotypes of acute vs. chronic coral bleaching susceptibility and resilience: towards a standardized coral resilience diagnostic (EAGER-CBASS) | Yes | 1 |
temperature | Pivers Island Coastal Observatory (PICO) | Yes | 03 Sept 2013 |
Temperature and Light | Documenting bleaching susceptibility and resilience in Guam, Micronesia (Reef Resilience in Guam) | Yes | 2 |
Temperature and Light | RUI: Collaborative Research: Trait differentiation and local adaptation to depth within meadows of the foundation seagrass Zostera marina (ZosMarLA) | Yes | 1 |
Temperature and light data - Strait of Juan de Fuca | The Role of Regenerated Nitrogen for Rocky Shore Productivity (Regenerated Nitrogen) | No | 1 |
Temperature and nutrient dependent phytoplankton growth and herbivorous protist grazing rates |
Quantifying Temperature Dependence In Growth & Grazing Rates of Planktonic Herbivores (Planktonic Herbivore Temp Dependence) Dimensions: Collaborative Research: Genetic, functional and phylogenetic diversity determines marine phytoplankton community responses to changing temperature and nutrients (Phytoplankton Community Responses) |
Yes | 1 |
Temperature Data | Temporal and spatial scales of variability in bivalve connectivity (Bivalve Connectivity) | Yes | 02 April 2012 |
Temperature Data | Collaborative Research: Context-dependency of top-down vs. bottom-up effects of herbivores on marine primary producers (CalCoast Grazer TDBU) | Yes | 1 |
Temperature Data | Impact of Climate Warming and Ocean Carbonation on Eelgrass (Zostera marina L.) (Impact of Climate on Eelgrass) | 13 March 2015 | |
Temperature Data From Tomales Bay and Bodega Harbor | Using genomics to link traits to ecosystem function in the eelgrass Zostera marina (ZosteraEcoGenomics) | No | 1 |
Temperature data profiles collected from the sediments off the South Atlantic Bight | Groundwater sources of "new" N for benthic microalgal production in the South Atlantic bight (SAB BMA) | No | 1 |
Temperature dependent changes in biovolume | Quantifying Temperature Dependence In Growth & Grazing Rates of Planktonic Herbivores (Planktonic Herbivore Temp Dependence) | Yes | 1 |
Temperature from thermistor chain | Quantifying plankton dynamics in the internal tide using swarms of buoyancy-controlled robots (QuIPP) | Yes | 1 |
Temperature Logger | The Role of Temperature in Regulating Herbivory and Algal Biomass in Upwelling Systems (Temperature and Herbivory) | Yes | 1 |
Temperature loggers | RAPID: Tracking coral reef impacts of the 2014/2015 El Nino event (RAPID Kiritimati) | Yes | |
Temperature Loggers | RAPID: Mega-typhoon impacts on the metapopulation resilience of coral reef fishes (Reef Fish Resilience) | Yes | 2 |
Temperature Profiles AT15-40 and AT15-56 | Microbial carbon and sulfur cycling in the hydrothermally altered sediments of Guaymas Basin (Guaymas Basin Vents) | Yes | 1 |
Temperature Time Series | Skeletal Records of Coral Reef Bleaching in the Central Equatorial Pacific (Coral Bleaching Skeletal Records) | Yes | 1 |
Temperature, Salinity, and Chlorophyll - Spatial Series | Dispersal, connectivity and local adaptation along an extreme environmental gradient (Env Gradient Adaptation) | Yes | 1 |
Temperature, Salinity, and Chlorophyll - Temporal Series | Dispersal, connectivity and local adaptation along an extreme environmental gradient (Env Gradient Adaptation) | Yes | 1 |
Temperature-dependence of juvenile Black sea bass growth and lipid accumulation - Experiment 2 | Collaborative research: Understanding the effects of acidification and hypoxia within and across generations in a coastal marine fish (HYPOA) | Yes | 1 |
Temperature-dependent sex ratio of Menidia and SST data | Local adaptation across latitudes: spatial scales, gene flow, and correlates of countergradient growth variation (Local adaptation in Menidia) | Yes | 2015-07-22 |
Temperature-growth rate curves for Thalassiosira pseudonana | Dimensions: Collaborative Research: Genetic, functional and phylogenetic diversity determines marine phytoplankton community responses to changing temperature and nutrients (Phytoplankton Community Responses) | Yes | 1 |
Temperatures on restored oyster reefs | CAREER: Linking genetic diversity, population density, and disease prevalence in seagrass and oyster ecosystems (Seagrass and Oyster Ecosystems) | Yes | 1 |
Temporal CO2-sensitivity in fish | Will rising pCO2 levels in the ocean affect growth and survival of marine fish early life stages? (OA Fish) | Yes | 18 Feb 2015 |
Temporal CO2-sensitivity in Menidia menidia | Will rising pCO2 levels in the ocean affect growth and survival of marine fish early life stages? (OA Fish) | Yes | 24 Feb 2015 |
Temporal Comparison of Mussel (Mytilus californianus) Shell Thickness | Coastal mosaics of local adaptation and the eco-evolutionary dynamics of a marine predator-prey interaction (Coastal Adaptation) | Yes | 1 |
Temporal genetic patterns in plankton |
Does habitat specialization drive population genetic structure of oceanic zooplankton? (Plankton_PopStructure) Basin-scale genetics of marine zooplankton (Plankton Population Genetics) |
Yes | 10 February 2017 |