Contributors | Affiliation | Role |
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Hill, Tessa M. | University of California-Davis BML (UC Davis-BML) | Principal Investigator, Contact |
Russell, Ann D. | University of California-Davis (UC Davis) | Principal Investigator, Contact |
Gaylord, Brian | University of California-Davis BML (UC Davis-BML) | Co-Principal Investigator |
Sanford, Eric | University of California-Davis BML (UC Davis-BML) | Co-Principal Investigator |
Rauch, Shannon | Woods Hole Oceanographic Institution (WHOI BCO-DMO) | BCO-DMO Data Manager |
Oceanographic sampling for water quality parameters in Tomales Bay, CA (38.148N, 122.898W). Tomales Line is a ~monthly time series through Tomales Bay, California, sampling every 2 km.
This study reoccupies the stations studied in the LMER BRIE study: http://lmer.marsci.uga.edu/tomales/
For live-streaming data from Tomales Bay, visit http://www.ipacoa.org/Explorer and click on the icon in Tomales Bay.
Sample/station number refers to km inside mouth of Tomales Bay (station 2 = 2km from mouth). "Buoy" indicates a sample at the navigational buoy at the entrance of Tomales Bay. Field data were collected using a YSI ProPlus multi parameter probe. Alkalinity was analyzed using auto titration and corrected using Dickson Lab standards. DIC samples were sent to outside labs for analyses.
Original parameter names were changed to conform to BCO-DMO conventions.
12 Oct 2012: Station coordinates provided by PI were added.
30 March 2015: Restricted-only access and added ISO_DateTime field.
File |
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Tomales_line.csv (Comma Separated Values (.csv), 46.05 KB) MD5:700bc78c8e836bf63545ce2238a80d27 Primary data file for dataset ID 3691 |
Parameter | Description | Units |
date_local | Date (local time). | mm/dd/YYYY |
month_local | 2-digit month of year, local time. | mm (01 to 12) |
day_local | 2-digit day of month, local time. | dd (01 to 31) |
year | Four-digit year. | YYYY |
time_local | Local time, 24-hour clock. | HHMM |
sta_id | Station ID; Refers to km inside mouth of Tomales Bay (station 2 = 2km from mouth). | dimensionless |
sal | Salinity. | psu |
temp | Water temperature. | degrees C |
pH | pH | NBS pH scale |
pH_mV | pH in millivolts. | mV |
O2_sat_pcnt | Percent dissolved oxygen. Originally named 'ODO'. | % |
O2_mg_L | Dissolved oxygen. Originally named 'ODO'. | mg/L |
chl | Total chlorophyll. Note: units are mg/L | mg/L |
sp_cond | Specific conductance. | S/cm |
alk | Alkalinity analyzed using auto titration and corrected using Dickson Lab standards. | umol/kg |
DIC | Dissolved inorganic Carbon analyzed at UC Davis lab. Originally named 'DIC_UC_Davis_PES'. | umol/kg |
DIC2 | Dissolved inorganic Carbon analyzed at University of Georgia lab. Originally named 'DIC_U_of_GA'. NOTE: units are umol/L. | umol/L |
DOC_ppm | Dissolved organic Carbon analyzed at UC Davis lab. Originally named 'DOC_UC_Davis_PES'. NOTE: units are ppm. | ppm |
comment | Additional field notes/comments related to data acquisition and/or processing. | text |
lat | Latitude of the sampling station. Positive = North. | decimal degrees |
lon | Longitude of the sampling station. Positive = East. | decimal degrees |
ISO_DateTime_Local | Date and time formatted to ISO 8601 standard. This standard is based on ISO 8601:2004(E) and takes on any of the following forms: e.g. Optional: Note the Time Zone (TZ) as +/-HH:MM. Time Zone signage is for conversion from local to UTC. | YYYY-MM-DDTHH:MM:SS[.xx][+/-TZ] |
Dataset-specific Instrument Name | YSI Professional Plus Multi-Parameter Probe |
Generic Instrument Name | YSI Professional Plus Multi-Parameter Probe |
Dataset-specific Description | Field data were collected using a YSI ProPlus multi parameter probe. |
Generic Instrument Description | The YSI Professional Plus handheld multiparameter meter provides for the measurement of a variety of combinations for dissolved oxygen, conductivity, specific conductance, salinity, resistivity, total dissolved solids (TDS), pH, ORP, pH/ORP combination, ammonium (ammonia), nitrate, chloride and temperature. More information from the manufacturer. |
Website | |
Platform | Tomales_Bay_Moorings |
Start Date | 2008-08-20 |
End Date | 2011-06-29 |
Description | Time-series stations composing a transect in Tomales Bay, CA. Stations are sampled ~monthly for the BOAR project ('Bodega Ocean Acidification Research'). Stations are same as those used in the LMER/BRIE study (http://lmer.marsci.uga.edu/tomales/). |
The absorption of human-produced CO2 into the world's oceans is decreasing seawater pH and causing marked declines in the saturation state for calcium carbonate, a major building block for shells, skeletons, and tests of many marine species. Such changes (collectively termed "ocean acidification") have the potential to devastate a broad array of organisms, both at the level of individuals and at population and ecosystem scales. Although awareness of these issues is rapidly growing, most of what is known is based on studies of coral reef organisms and plankton.
The proposed work will enhance understanding of impacts from ocean acidification by providing rigorous data on several new fronts applicable to temperate systems. The project will operate within one of the strongest upwelling centers of the eastern Pacific, where global trends in acidification are amplified by the presence of cold water characterized by already-high levels of aqueous CO2. Using an integrated, comparative approach that exploits the expertise of oceanographers, marine chemists, and biologists, the project will explicitly couple moored and shipboard measurements of seawater chemistry to controlled laboratory and field studies of biological responses.
Two vital foundation species (the California mussel, Mytilus californianus, and the Olympia oyster, Ostrea conchaphila) will be targeted. These two species play disproportionately important roles in open-coast and estuarine systems, respectively. Larvae (which are often the most vulnerable stages) of mussels and oysters will be cultured under elevated-CO2 conditions through the full pelagic period and into juvenile life. Growth and survivorship will be quantified, and water temperature and salinity will be varied to test for interactive effects of multiple factors. Intraspecific variation in response of larvae from different parental lineages will be examined. "Carry-over" effects that originate from exposure during the larval stage, but influence subsequent juvenile growth and survival, will be determined both in the laboratory and using field outplants. Because larval and juvenile stages play important roles as demographic age-structure bottlenecks, overall population consequences will be estimated through comparison of observed impacts on early life stages to other recognized sources of recruitment variation.
Data Status: Data will be reported from the BML offshore oceanographic moorings and from moorings within nearby Tomales Bay. The moorings will be outfitted with autonomously recording pH and pCO2 sensors, and these measurements will be supplemented with discrete water samples collected monthly along two associated transects.
Live Data: For live-streaming data from Tomales Bay, visit http://www.ipacoa.org/Explorer and click on the icon in Tomales Bay.
Funding Source | Award |
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NSF Division of Ocean Sciences (NSF OCE) |