Instruments measuring carbonate in sediments and inorganic carbon (including DIC) in the water column.
Dataset Name | PI-Supplied Description | PI-Supplied Name |
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Temperature and pCO2 effects on survivability of 25 genotypes of Acropora cervicornis coral at Mote Marine Laboratory in Nov-Dec 2019 | Dissolved inorganic carbon (DIC) was analyzed using the Apollo SciTech DIC analyzer model AS-C151. | Apollo SciTech DIC analyzer model AS-C151 |
Aquaria water quality total alkalinity, DIC, and CO2 measurements from full factorial study of Acropora cervicornis at Mote Marine Laboratory in Nov-Dec 2019 | Dissolved inorganic carbon (DIC) was analyzed using the Apollo SciTech DIC analyzer model AS-C151. | Apollo SciTech DIC analyzer model AS-C151 |
Seawater chemistry and benthic metabolic rates as a function of coral cover from a mesocosm experiment conducted at the Bermuda Institute of Ocean Sciences in August 2012 | The Automated Infra Red Inorganic Carbon Analyzer (AIRICA) utilizes infrared detection of CO2 gas purged from an acidified seawater sample. A high-precision syringe pump extracts the seawater sample, acidifies the sample with phosphoric acid, and analyzes the gas released with an infrared light analyzer (LICOR). The CO2 signal is integrated for each sample to quantify the total inorganic carbon for a given aliquot of seawater analyzed. Three aliquots and peak integrations are performed for each seawater sample and averaged to determine the dissolved inorganic carbon for each sample. Please see http://marianda.com/index.php?site=products&subsite=airica for a complete instrument description. | AIRICA (Marianda Inc.) |
Seawater chemistry and benthic metabolic rates as a function of coral cover from a mesocosm experiment conducted at the Hawaii Institute of Marine Biology in June 2016 | The Automated Infra Red Inorganic Carbon Analyzer (AIRICA) utilizes infrared detection of CO2 gas purged from an acidified seawater sample. A high-precision syringe pump extracts the seawater sample, acidifies the sample with phosphoric acid, and analyzes the gas released with an infrared light analyzer (LICOR). The CO2 signal is integrated for each sample to quantify the total inorganic carbon for a given aliquot of seawater analyzed. Three aliquots and peak integrations are performed for each seawater sample and averaged to determine the dissolved inorganic carbon for each sample. Please see http://marianda.com/index.php?site=products&subsite=airica for a complete instrument description. | AIRICA (Marianda Inc.) |
Carbonate chemistry and light data from bottle samples | The Automated Infra Red Inorganic Carbon Analyzer (AIRICA) utilizes infrared detection of CO2 gas purged from an acidified seawater sample. A high-precision syringe pump extracts the seawater sample, acidifies the sample with phosphoric acid, and analyzes the gas released with an infrared light analyzer (LICOR). The CO2 signal is integrated for each sample to quantify the total inorganic carbon for a given aliquot of seawater analyzed. Three aliquots and peak integrations are performed for each seawater sample and averaged to determine the dissolved inorganic carbon for each sample. Precision was typically ±1–2 µmol/kg for TA. Please see http://marianda.com/index.php?site=products&subsite=airica for a complete instrument description. | AIRICA (Marianda Inc.) |
Diel carbonate and nutrient chemistry reported for different benthic reef communities under ambient and acidified conditions during summer and winter | The Automated Infra Red Inorganic Carbon Analyzer (AIRICA) utilizes infrared detection of CO2 gas purged from an acidified seawater sample. A high-precision syringe pump extracts the seawater sample, acidifies the sample with phosphoric acid, and analyzes the gas released with an infrared light analyzer (LICOR). The CO2 signal is integrated for each sample to quantify the total inorganic carbon for a given aliquot of seawater analyzed. Three aliquots and peak integrations are performed for each seawater sample and averaged to determine the dissolved inorganic carbon for each sample. Please see http://marianda.com/index.php?site=products&subsite=airica for a complete instrument description. | AIRICA (Marianda Inc.) |
Supplementary discrete sample measurements of dissolved oxygen, dissolved inorganic carbon, and total alkalinity from Ocean Observatories Initiative (OOI) cruises to the Irminger Sea Array 2018-2019 | Apollo SciTech AS-C6L DIC Analyzer | |
Spatial surveys of carbonate chemistry in Heron Reef, Great Barrier Reef, Australia | The Automated Infra Red Inorganic Carbon Analyzer (AIRICA) utilizes infrared detection of CO2 gas purged from an acidified seawater sample. A pump extracts the seawater sample, acidifies the sample with phosphoric acid, and analyzes the gas released with an infrared light analyzer (LICOR). The CO2 signal is integrated for four individual peaks for each sample and the three closest integrated peaks are averaged for a single given sample. | AIRICA (Marianda) |
Monthly cross-shore transects of biogeochemical properties in La Jolla, CA | The Automated Infra Red Inorganic Carbon Analyzer (AIRICA) utilizes infrared detection of CO2 gas purged from an acidified seawater sample. A pump extracts the seawater sample, acidifies the sample with phosphoric acid, and analyzes the gas released with an infrared light analyzer (LICOR). The CO2 signal is integrated for four individual peaks for each sample and the three closest integrated peaks are averaged for a single given sample. | AIRICA (Marianda) |
Data collected from an experiment on the carbonate system of oyster extrapallial fluid during May to September 2017 | Apollo SciTech AS-C2 dissolved inorganic carbon analyzer | |
Carbon export from San Dieguito Lagoon from samples for seawater carbonate biogeochemistry between April 2014 and January 2015 | The Automated Infra Red Inorganic Carbon Analyzer (AIRICA) utilizes infrared detection of CO2 gas purged from an acidified seawater sample. A high-precision syringe pump extracts the seawater sample, acidifies the sample with phosphoric acid, and analyzes the gas released with an infrared light analyzer (LICOR). The CO2 signal is integrated for each sample to quantify the total inorganic carbon for a given aliquot of seawater analyzed. Three aliquots and peak integrations are performed for each seawater sample and averaged to determine the dissolved inorganic carbon for each sample. Precision was typically ±1–2 µmol/kg for TA. Please see http://marianda.com/index.php?site=products&subsite=airica for a complete instrument description. | Automated Infra Red Inorganic Carbon Analyzer (AIRICA) |
Series 1B-1: Multiple stressor experiments on T. pseudonana (CCMP1335) – pH, Dissolved Inorganic carbon (DIC), and Macronutrient concentrations in experiments | An Automated infrared inorganic carbon analyzer (AIRICA) for analysis of dissolved inorganic carbon. | AIRICA-23 (MARIANDA, Kiel, Germany) |
Series 1B-1: Multiple stressor experiments on T. pseudonana (CCMP1335) – pH, Dissolved Inorganic carbon (DIC), and Macronutrient concentrations in experiments | A CO2/H2O Analyzer for analysis of dissolved inorganic carbon. | LICOR-7000 |
Series 3A: Multiple stressor experiments on T. pseudonana (CCMP1014) - Dissolved Inorganic Carbon (DIC) measurements | An Automated infrared inorganic carbon analyzer (AIRICA) for analysis of dissolved inorganic carbon. | AIRICA-23 (MARIANDA, Kiel, Germany) |
Series 3A: Multiple stressor experiments on T. pseudonana (CCMP1014) - Dissolved Inorganic Carbon (DIC) measurements | A CO2/H2O Analyzer for analysis of dissolved inorganic carbon. | LICOR-7000 |
Series 4A: Multiple stressor experiments on Synechococcus elongatus (CCMP1629) – Dissolved Inorganic Carbon (DIC) | An Automated infrared inorganic carbon analyzer (AIRICA) for analysis of dissolved inorganic carbon. | AIRICA-23 (MARIANDA, Kiel, Germany) |
Series 4A: Multiple stressor experiments on Synechococcus elongatus (CCMP1629) – Dissolved Inorganic Carbon (DIC) | A CO2/H2O Analyzer for analysis of dissolved inorganic carbon. | LICOR-7000 |
Spatial surveys of carbonate chemistry conducted in Kaneohe Bay, Hawaii from small boats during 2015 to 2017 | The Automated Infra Red Inorganic Carbon Analyzer (AIRICA) utilizes infrared detection of CO2 gas purged from an acidified seawater sample. A high-precision syringe pump extracts the seawater sample, acidifies the sample with phosphoric acid, and analyzes the gas released with an infrared light analyzer (LICOR). The CO2 signal is integrated for each sample to quantify the total inorganic carbon for a given aliquot of seawater analyzed. Three aliquots and peak integrations are performed for each seawater sample and averaged to determine the dissolved inorganic carbon for each sample. Precision was typically ±1–2 µmol/kg for TA. Please see http://marianda.com/index.php?site=products&subsite=airica for a complete instrument description. | Automated Infra Red Inorganic Carbon Analyzer (AIRICA) |
Synthesis Product for Ocean Time Series (SPOTS) | Marianda Company VINDTA 3D system used by RADCOR and OWSM UIC, Inc. inorganic carbon analyzer used by K2 and KNOT SOMMA system coupled to coulometer used by HOT and CVOO Coulometrics CM-5010 used by Irminger & Iceland Seas TS Coulometrics Model CM-5011 used by Irminger & Iceland Seas TS SOMMA system at NIWA (New Zealand) used by Munida | DIC instrument |
Depth profiles of oceanographic parameters in spring and summer from R/V Terrapin, R/V Hugh R. Sharp multiple cruises in Chesapeake Bay, 2010-2011 (LiDZ project) | Dissolved inorganic carbon (DIC = [H2CO3] + [HCO3-] + [CO32-]) was measured with an infrared-based analyzer (Apollo SciTech) http://www.apolloscitech.com/DIC.htm | Apollo SciTech infrared-based analyzer |