sedtrapflux |
VERtical Transport In the Global Ocean (VERTIGO) |
Yes |
final |
zoop_pelletflux |
VERtical Transport In the Global Ocean (VERTIGO) |
Yes |
05 November 2008 |
phytobio_CTD |
VERtical Transport In the Global Ocean (VERTIGO) |
Yes |
final |
Field collections: all data |
Vibrio as a model microbe for opportunistic heterotrophic response to Saharan dust deposition events in marine waters (Vibrio-dust deposition) |
Yes |
1 |
Seeded microcosm experiments: all data |
Vibrio as a model microbe for opportunistic heterotrophic response to Saharan dust deposition events in marine waters (Vibrio-dust deposition) |
Yes |
1 |
Sea surface microlayer trace element concentrations |
Vibrio as a model microbe for opportunistic heterotrophic response to Saharan dust deposition events in marine waters (Vibrio-dust deposition) |
Yes |
1 |
Aerosol trace element concentrations |
Vibrio as a model microbe for opportunistic heterotrophic response to Saharan dust deposition events in marine waters (Vibrio-dust deposition) |
No |
2017-08-02 |
Community 16S rRNA gene sequences |
Vibrio as a model microbe for opportunistic heterotrophic response to Saharan dust deposition events in marine waters (Vibrio-dust deposition) |
Yes |
1 |
Juan de Fuca Viruses |
Viral genetic richness and functions that shape the microbial community at the Juan de Fuca Ridge (Juan de Fuca Viruses) |
Yes |
2 |
Retinal Response |
Vision-mediated influence of low oxygen on the physiology and ecology of marine larvae (Vision under hypoxia) |
No |
1 |
Luminoxyscape environmental |
Vision-mediated influence of low oxygen on the physiology and ecology of marine larvae (Vision under hypoxia) |
Yes |
1 |
Photobehavior for squid and octopus paralarvae in 4 oxygen conditions |
Vision-mediated influence of low oxygen on the physiology and ecology of marine larvae (Vision under hypoxia) |
Yes |
1 |
Luminoxyscape maximum depth |
Vision-mediated influence of low oxygen on the physiology and ecology of marine larvae (Vision under hypoxia) |
Yes |
1 |
Experiment Metrics |
Vision-mediated influence of low oxygen on the physiology and ecology of marine larvae (Vision under hypoxia) |
No |
1 |
Oxygen Metrics |
Vision-mediated influence of low oxygen on the physiology and ecology of marine larvae (Vision under hypoxia) |
No |
1 |
NBP1702 Dissolved Th and Pa |
Water Mass Structure and Bottom Water Formation in the Ice-age Southern Ocean (GSc02) (SNOWBIRDS) |
Yes |
2 |
NMR Lipidomics Data |
Waterborne chemical cues in the plankton: a systems biology approach (Plankton Chemical Cues) |
Yes |
28 Dec 2015 |
NMR-based polar metabolomics data |
Waterborne chemical cues in the plankton: a systems biology approach (Plankton Chemical Cues) |
Yes |
20 March 2017 |
Mass spec proteomics data |
Waterborne chemical cues in the plankton: a systems biology approach (Plankton Chemical Cues) |
Yes |
31 October 2014 |
NMR metabolomics K brevis exudates |
Waterborne chemical cues in the plankton: a systems biology approach (Plankton Chemical Cues) |
Yes |
23 January 2018 |
Mass spectrometry lipidomics data |
Waterborne chemical cues in the plankton: a systems biology approach (Plankton Chemical Cues) |
Yes |
20 March 2018 |
Mass spectrometry metabolomics data |
Waterborne chemical cues in the plankton: a systems biology approach (Plankton Chemical Cues) |
Yes |
21 March 2018 |
sequence_accessions |
Were Protists the Beginning of the End for Stromatolites? (Protists_Stromatolites) |
Yes |
25 July 2013 |
WS1005 cruise track |
Were Protists the Beginning of the End for Stromatolites? (Protists_Stromatolites) |
Yes |
1 |
Transcriptomic responses to saxitoxin |
WHCOHH - Cellular and Molecular Mechanisms Underlying Long-Term Effects of Early Life Exposure to HAB Toxins (WHCOHH HAB toxins) |
Yes |
1 |
Alexandrium cell counts |
WHCOHH - Physiological and behavioral plasticity in harmful algal bloom dynamics: variation across different habitats (WHCOHH Algal Bloom Dynamics) |
Yes |
1 |
Nutrient and hydrology data |
WHCOHH - Physiological and behavioral plasticity in harmful algal bloom dynamics: variation across different habitats (WHCOHH Algal Bloom Dynamics) |
Yes |
1 |
CTD Profiles |
WHCOHH - Physiological and behavioral plasticity in harmful algal bloom dynamics: variation across different habitats (WHCOHH Algal Bloom Dynamics) |
Yes |
1 |
Bottle Data |
WHCOHH - Physiological and behavioral plasticity in harmful algal bloom dynamics: variation across different habitats (WHCOHH Algal Bloom Dynamics) |
Yes |
1 |
Coral physiological measurements |
Will corals recover from bleaching under ocean acidification conditions? (RAPID Hawaii) |
No |
1 |
Water temperature |
Will corals recover from bleaching under ocean acidification conditions? (RAPID Hawaii) |
Yes |
1 |
Coral calcification rates |
Will corals recover from bleaching under ocean acidification conditions? (RAPID Hawaii) |
Yes |
1 |
Total alkalinity |
Will corals recover from bleaching under ocean acidification conditions? (RAPID Hawaii) |
Yes |
1 |
pH |
Will corals recover from bleaching under ocean acidification conditions? (RAPID Hawaii) |
Yes |
1 |
Salinity |
Will corals recover from bleaching under ocean acidification conditions? (RAPID Hawaii) |
Yes |
1 |
Data Set 1B: Bioavailability of dissolved organic carbon produced by Thalassiosira weissflogii grown under different pCO2 and temperature conditions - Experiment OA5 |
Will high CO2 conditions affect production, partitioning and fate of organic matter? (OA - Effects of High CO2) |
Yes |
1 |
Data Set 2B: Bioavailability of dissolved organic carbon produced by Dactyliosolen fragilissimus grown under different pCO2 and temperature condition - Experiment OA6 |
Will high CO2 conditions affect production, partitioning and fate of organic matter? (OA - Effects of High CO2) |
No |
1 |
Data Set 3A: Utilization of dissolved organic carbon by a natural bacterial community as a function of pCO2 |
Will high CO2 conditions affect production, partitioning and fate of organic matter? (OA - Effects of High CO2) |
Yes |
1 |
Data Set 1A: Partitioning of carbon as a function of pCO2 and temperature during growth of Thalassiosira weissflogii |
Will high CO2 conditions affect production, partitioning and fate of organic matter? (OA - Effects of High CO2) |
Yes |
1 |
Data set 4: TEP production and aggregation of Chaetoceros sp. as a function of light climate, pCO2, and temperature |
Will high CO2 conditions affect production, partitioning and fate of organic matter? (OA - Effects of High CO2) |
No |
2017-08-28 |
Data Set 2A: Partitioning of carbon as a function of pCO2 and temperature during growth of Dactyliosolen fragilissimus |
Will high CO2 conditions affect production, partitioning and fate of organic matter? (OA - Effects of High CO2) |
Yes |
1 |
Series 4: Aggregation of Thalassiosira weissflogii as a function of pCO2, temperature and bacteria: Aggregation Phase - Sinking Velocity |
Will Ocean Acidification Diminish Particle Aggregation and Mineral Scavenging, Thus Weakening the Biological Pump? (OA - Ocean Acidification and Aggregation) |
Yes |
05 September 2013 |
Series 5: pCO2 as one of multiple stressors for Thalassiosira weissflogii - cell numbers: future treatments |
Will Ocean Acidification Diminish Particle Aggregation and Mineral Scavenging, Thus Weakening the Biological Pump? (OA - Ocean Acidification and Aggregation) |
|
13 November 2014 |
Series 2: CO2 Aggregation Experiment - Aggregate Sinking Velocity |
Will Ocean Acidification Diminish Particle Aggregation and Mineral Scavenging, Thus Weakening the Biological Pump? (OA - Ocean Acidification and Aggregation) |
No |
07 May 2013 |
Series 5: pCO2 as one of multiple stressors for Thalassiosira weissflogii - Carbonate system: ambient treatments |
Will Ocean Acidification Diminish Particle Aggregation and Mineral Scavenging, Thus Weakening the Biological Pump? (OA - Ocean Acidification and Aggregation) |
|
1 |
Series 2: CO2 Aggregation Experiment - Aggregate Size |
Will Ocean Acidification Diminish Particle Aggregation and Mineral Scavenging, Thus Weakening the Biological Pump? (OA - Ocean Acidification and Aggregation) |
No |
07 May 2013 |
Series 4: Aggregation of Thalassiosira weissflogii as a function of pCO2, temperature and bacteria: Acclimatization Phase - Carbonate System |
Will Ocean Acidification Diminish Particle Aggregation and Mineral Scavenging, Thus Weakening the Biological Pump? (OA - Ocean Acidification and Aggregation) |
Yes |
05 September 2013 |
Series 5: pCO2 as one of multiple stressors for Thalassiosira weissflogii - Carbonate system: future treatments |
Will Ocean Acidification Diminish Particle Aggregation and Mineral Scavenging, Thus Weakening the Biological Pump? (OA - Ocean Acidification and Aggregation) |
|
13 November 2014 |
Series 2: CO2 Aggregation Experiment - BioChemical |
Will Ocean Acidification Diminish Particle Aggregation and Mineral Scavenging, Thus Weakening the Biological Pump? (OA - Ocean Acidification and Aggregation) |
No |
07 May 2013 |
Series 5: pCO2 as one of multiple stressors for Thalassiosira weissflogii - cell characteristics: C:N ratio |
Will Ocean Acidification Diminish Particle Aggregation and Mineral Scavenging, Thus Weakening the Biological Pump? (OA - Ocean Acidification and Aggregation) |
|
1 |
Series 2: CO2 Aggregation Experiment - Carbonate System |
Will Ocean Acidification Diminish Particle Aggregation and Mineral Scavenging, Thus Weakening the Biological Pump? (OA - Ocean Acidification and Aggregation) |
No |
07 May 2013 |
Series 2: CO2 Aggregation Experiment - General Information |
Will Ocean Acidification Diminish Particle Aggregation and Mineral Scavenging, Thus Weakening the Biological Pump? (OA - Ocean Acidification and Aggregation) |
No |
07 May 2013 |
Series 2: CO2 Aggregation Experiment - pH Data |
Will Ocean Acidification Diminish Particle Aggregation and Mineral Scavenging, Thus Weakening the Biological Pump? (OA - Ocean Acidification and Aggregation) |
No |
07 May 2013 |
Series 1: Abiotic TEP Formation - TA Perturbation |
Will Ocean Acidification Diminish Particle Aggregation and Mineral Scavenging, Thus Weakening the Biological Pump? (OA - Ocean Acidification and Aggregation) |
No |
07 February 2012 |
Series 5: pCO2 as one of multiple stressors for Thalassiosira weissflogii - cell characteristics: Chl per cell |
Will Ocean Acidification Diminish Particle Aggregation and Mineral Scavenging, Thus Weakening the Biological Pump? (OA - Ocean Acidification and Aggregation) |
|
13 November 2014 |
Series 5: pCO2 as one of multiple stressors for Thalassiosira weissflogii - cell characteristics: TEP per cell |
Will Ocean Acidification Diminish Particle Aggregation and Mineral Scavenging, Thus Weakening the Biological Pump? (OA - Ocean Acidification and Aggregation) |
|
13 November 2014 |
Series 1: Abiotic TEP Formation - DIC Perturbation |
Will Ocean Acidification Diminish Particle Aggregation and Mineral Scavenging, Thus Weakening the Biological Pump? (OA - Ocean Acidification and Aggregation) |
No |
20 March 2012 |
Series 5: pCO2 as one of multiple stressors for Thalassiosira weissflogii - cell characteristics: dry weight per cell |
Will Ocean Acidification Diminish Particle Aggregation and Mineral Scavenging, Thus Weakening the Biological Pump? (OA - Ocean Acidification and Aggregation) |
|
13 November 2014 |
Series 5: pCO2 as one of multiple stressors for Thalassiosira weissflogii - cell characteristics: POC per cell |
Will Ocean Acidification Diminish Particle Aggregation and Mineral Scavenging, Thus Weakening the Biological Pump? (OA - Ocean Acidification and Aggregation) |
|
13 November 2014 |
Series 5: pCO2 as one of multiple stressors for Thalassiosira weissflogii - cell characteristics: PON per cell |
Will Ocean Acidification Diminish Particle Aggregation and Mineral Scavenging, Thus Weakening the Biological Pump? (OA - Ocean Acidification and Aggregation) |
|
13 November 2014 |
Series 3: Skeletonema marinoi growth and aggregation - Cell Growth Phase |
Will Ocean Acidification Diminish Particle Aggregation and Mineral Scavenging, Thus Weakening the Biological Pump? (OA - Ocean Acidification and Aggregation) |
Yes |
2 |
Series 5: pCO2 as one of multiple stressors for Thalassiosira weissflogii - cell characteristics: Chl. a: C ratio |
Will Ocean Acidification Diminish Particle Aggregation and Mineral Scavenging, Thus Weakening the Biological Pump? (OA - Ocean Acidification and Aggregation) |
|
13 November 2014 |
Series 3: Skeletonema marinoi growth and aggregation - Aggregation Phase |
Will Ocean Acidification Diminish Particle Aggregation and Mineral Scavenging, Thus Weakening the Biological Pump? (OA - Ocean Acidification and Aggregation) |
Yes |
2 |
Series 5: pCO2 as one of multiple stressors for Thalassiosira weissflogii - growth rates |
Will Ocean Acidification Diminish Particle Aggregation and Mineral Scavenging, Thus Weakening the Biological Pump? (OA - Ocean Acidification and Aggregation) |
|
1 |
Series 4: Aggregation of Thalassiosira weissflogii as a function of pCO2, temperature and bacteria: Acclimatization Phase - Cell Counts |
Will Ocean Acidification Diminish Particle Aggregation and Mineral Scavenging, Thus Weakening the Biological Pump? (OA - Ocean Acidification and Aggregation) |
Yes |
05 September 2013 |
Series 5: pCO2 as one of multiple stressors for Thalassiosira weissflogii - pH extremes |
Will Ocean Acidification Diminish Particle Aggregation and Mineral Scavenging, Thus Weakening the Biological Pump? (OA - Ocean Acidification and Aggregation) |
|
1 |
Series 4: Aggregation of Thalassiosira weissflogii as a function of pCO2, temperature and bacteria: Aggregation Phase - Carbonate System + TEP |
Will Ocean Acidification Diminish Particle Aggregation and Mineral Scavenging, Thus Weakening the Biological Pump? (OA - Ocean Acidification and Aggregation) |
Yes |
05 September 2013 |
Series 5: pCO2 as one of multiple stressors for Thalassiosira weissflogii - cell numbers: ambient treatments |
Will Ocean Acidification Diminish Particle Aggregation and Mineral Scavenging, Thus Weakening the Biological Pump? (OA - Ocean Acidification and Aggregation) |
|
1 |
Menidia menidia - Genotyped Parents |
Will rising pCO2 levels in the ocean affect growth and survival of marine fish early life stages? (OA Fish) |
Yes |
24 Feb 2015 |
Menidia menidia - Genotyped Offspring |
Will rising pCO2 levels in the ocean affect growth and survival of marine fish early life stages? (OA Fish) |
Yes |
24 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 |
Carbonate chemistry and fish length and survival |
Will rising pCO2 levels in the ocean affect growth and survival of marine fish early life stages? (OA Fish) |
Yes |
25 Feb 2015 |
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 |
GenBank accessions from marine sediment samples - Costa Rica Margin |
Working around drilling contamination in deep cores: Costa Rica Margin (Costa Rica Margin Microbes) |
No |
1 |
Anaerobic Peru Margin 2002 |
World-wide exploration of microbial eukaryote diversity and activity in the marine subsurface (Microbial Euk Div Mar Subsurface) |
Yes |
05 November 2015 |
Deep Biosphere Eukaryotic rRNA |
World-wide exploration of microbial eukaryote diversity and activity in the marine subsurface (Microbial Euk Div Mar Subsurface) |
Yes |
06 November 2015 |
RNA sequence accessions at NCBI |
You are what you eat: The Role of Kleptoplasty in an Antarctic Dinoflagellate (Kleptoplasty) |
Yes |
1 |
Underway - MET |
Zooplankton feeding at the base of the particle maximum: Gatekeepers of the Vertical Flux? (GATEKEEPERS) |
No |
11 September 2012 |
MOCNESS - Stations |
Zooplankton feeding at the base of the particle maximum: Gatekeepers of the Vertical Flux? (GATEKEEPERS) |
No |
24 September 2012 |
BONGO LOPC - Stations |
Zooplankton feeding at the base of the particle maximum: Gatekeepers of the Vertical Flux? (GATEKEEPERS) |
No |
24 September 2012 |
SOLOPC - Stations |
Zooplankton feeding at the base of the particle maximum: Gatekeepers of the Vertical Flux? (GATEKEEPERS) |
No |
24 September 2012 |
BONGO LOPC - Log |
Zooplankton feeding at the base of the particle maximum: Gatekeepers of the Vertical Flux? (GATEKEEPERS) |
No |
24 September 2012 |
SOLOPC - CTD Profiles |
Zooplankton feeding at the base of the particle maximum: Gatekeepers of the Vertical Flux? (GATEKEEPERS) |
No |
26 November 2014 |
BONGO LOPC - UnProcessed Data |
Zooplankton feeding at the base of the particle maximum: Gatekeepers of the Vertical Flux? (GATEKEEPERS) |
No |
02 October 2012 |
Nutrients - ODF Nutrient Data |
Zooplankton feeding at the base of the particle maximum: Gatekeepers of the Vertical Flux? (GATEKEEPERS) |
No |
20 September 2012 |
SOLOPC - UnProcessed Data |
Zooplankton feeding at the base of the particle maximum: Gatekeepers of the Vertical Flux? (GATEKEEPERS) |
No |
26 November 2014 |
Nutrients - OPA NH4 Data |
Zooplankton feeding at the base of the particle maximum: Gatekeepers of the Vertical Flux? (GATEKEEPERS) |
No |
20 September 2012 |
Chlorophyll |
Zooplankton feeding at the base of the particle maximum: Gatekeepers of the Vertical Flux? (GATEKEEPERS) |
No |
20 September 20120 |
Cruise Tracks |
Zooplankton feeding at the base of the particle maximum: Gatekeepers of the Vertical Flux? (GATEKEEPERS) |
No |
21 November 2014 |
POC_PON |
Zooplankton feeding at the base of the particle maximum: Gatekeepers of the Vertical Flux? (GATEKEEPERS) |
No |
20 September 2012 |
CTD - Stations |
Zooplankton feeding at the base of the particle maximum: Gatekeepers of the Vertical Flux? (GATEKEEPERS) |
No |
05 September 2012 |
CTD - Profiles |
Zooplankton feeding at the base of the particle maximum: Gatekeepers of the Vertical Flux? (GATEKEEPERS) |
No |
05 September 2012 |
MOCNESS - Zooplankton |
Zooplankton feeding at the base of the particle maximum: Gatekeepers of the Vertical Flux? (GATEKEEPERS) |
|
24 November 2014 |
Event Log |
Zooplankton feeding at the base of the particle maximum: Gatekeepers of the Vertical Flux? (GATEKEEPERS) |
No |
06 September 2012 |
MOCNESS sampling depths |
Zooplankton feeding at the base of the particle maximum: Gatekeepers of the Vertical Flux? (GATEKEEPERS) |
No |
24 September 2012 |
BONGO - Zooplankton |
Zooplankton feeding at the base of the particle maximum: Gatekeepers of the Vertical Flux? (GATEKEEPERS) |
|
24 November 2014 |
CTD - Bottle Summary |
Zooplankton feeding at the base of the particle maximum: Gatekeepers of the Vertical Flux? (GATEKEEPERS) |
No |
10 September 2012 |
MOCNESS physical parameters |
Zooplankton feeding at the base of the particle maximum: Gatekeepers of the Vertical Flux? (GATEKEEPERS) |
No |
24 September 2012 |
Zostera experiment community biomass |
Zostera Experimental Network (ZEN) |
No |
1 |
Methane concentrations at Station ALOHA |
[Current] Hawaii Ocean Time-series (HOT): 2018-2023; [Previous] Hawaii Ocean Time-series (HOT): Sustaining ocean ecosystem and climate observations in the North Pacific Subtropical Gyre (HOT) |
Yes |
|