Contributors | Affiliation | Role |
---|---|---|
DeGrandpre, Michael | University of Montana | Principal Investigator |
Martz, Todd R. | University of California-San Diego (UCSD-SIO) | Co-Principal Investigator |
Shangguan, Qipei | University of Montana | Student, Contact |
York, Amber D. | Woods Hole Oceanographic Institution (WHOI BCO-DMO) | BCO-DMO Data Manager |
An in situ sensor for pCO2 (Sunburst Sensors, LLC; SAMI-CO2) (DeGrandpre et al., 1995) was deployed at a 15-min measurement frequency.
Sensor data was processed by a custom-written Matlab script. MATLAB scripts convert raw data, which are optical intensities or voltages along with temperature and salinity, into their respective carbonate parameters.
BCO-DMO Data Manager Processing Notes:
* Data from source file "2016 SAMI-CO2.xlsx" Sheet1 were imported into the BCO-DMO data system.
* Parameters (column names) renamed to comply with BCO-DMO naming conventions. See https://www.bco-dmo.org/page/bco-dmo-data-processing-conventions
File |
---|
sami_pco2.csv (Comma Separated Values (.csv), 25.87 KB) MD5:ba5e67a3cc227292213f1576872410e3 Primary data file for dataset ID 870390 |
Parameter | Description | Units |
time | Timestamp with time zone (UTC) in ISO 8601 format YYYY-MM-DDThh:mmZ | unitless |
SAMI_CO2 | O2 partial pressure from the SAMI-CO2 sensor | microatmospheres (uatm) |
Dataset-specific Instrument Name | SAMI-CO2 |
Generic Instrument Name | pCO2 Sensor |
Dataset-specific Description | An in situ sensor for pCO2 (Sunburst Sensors, LLC; SAMI-CO2) (DeGrandpre et al., 1995) was deployed at a 15-min measurement frequency. SAMI=Submersible Autonomous Moored Instrument |
Generic Instrument Description | A sensor that measures the partial pressure of CO2 in water (pCO2) |
NSF abstract:
The ocean inorganic carbon system is of great interest to marine scientists, and indeed all people, because it contains important information about ocean productivity, the sources and sinks of anthropogenic carbon dioxide, and ocean acidification. Total alkalinity is one of the critical inorganic carbon parameters and has been widely measured through ship and laboratory-based methodologies. At this time, there are no commercially-available in situ sensors for total alkalinity. In this project, researchers at the University of Montana will further develop and test a new autonomous system, known as the SAMI-alk, for measuring total alkalinity. This new system will expand understanding of total alkalinity and the inorganic carbon cycle by making near continuous measurements in locations not frequented by ships. The development of this instrument will have important broader implications for the oceanographic community and ocean acidification research by providing a novel instrument for ocean research. This project will also provide training opportunities to graduate and undergraduate students, and will continue to support public outreach on ocean acidification through a university-affiliated museum.
Studies focused on the marine carbon cycle and ocean acidification pose a number of measurement challenges. While pH is the ocean acidification "smoking gun" and partial pressure of CO2 is critical for gas exchange calculations, the full inorganic carbon system must be quantified for most inorganic carbon studies. Using autonomous sensors to accurately and precisely quantify all of the inorganic carbon species has been a long-standing objective for marine biogeochemists, but full characterization of the inorganic carbon system has, until recently, been limited to ship and laboratory-based measurements. Total alkalinity is one such parameter as its research has been limited by the lack of instrument capable of making in situ measurements. This research will address this problem and advance inorganic carbon studies through the further development of an autonomous, in situ system to measure seawater total alkalinity, known as the submersible autonomous moored instrument for total alkalinity (SAMI-alk). Preliminary testing of the instrument showed great promise, and through this project, researchers will conduct lab experiments to improve its performance. Two new prototype instruments will be tested in laboratory and field evaluations.
Funding Source | Award |
---|---|
NSF Division of Ocean Sciences (NSF OCE) |