| sp2sa_chem {seacarb} | R Documentation |
From Practical to absolute salinity
Description
Converts from practical to absolute salinity based on total alkalinity as well as on the concentrations of dissolved inorganic carbon, nitrate and silicate.
Usage
sp2sa_chem(SP, TA=2300e-6, DIC=2000e-6, NO3=0, SIOH4=0)
Arguments
SP |
Practical salinity on the practical salinity scale |
TA |
Total alkalinity, in mol/kg, default is 2300 µmol/kg |
DIC |
Dissolved inorganic carbon concentration in mol/kg, default is 2000 µmol/kg |
NO3 |
Total nitrate concentration in mol/kg, default is 0 |
SIOH4 |
Total silicate concentration in mol/kg, default is 0 |
Details
Converts from practical to absolute salinity from carbonate system parameters and ion concentration which mostly affect water density anomalies.
Value
SA |
Absolute salinity (g/kg) |
Author(s)
Jean-Marie Epitalon
References
McDougall T. J., Jackett D. R., Millero F. J., Pawlowicz R. and Barker P. M., 2012. A global algorithm for estimating Absolute Salinity. Ocean Science 8, 1123-1134.
Pawlowicz R., Wright D. G. and Millero F. J., 2011. The effects of biogeochemical processes on oceanic conductivity/salinity/density relationships and the characterization of real seawater. Ocean Science 7, 363-387.
Pawlowicz R., 2013. What every oceanographer needs to know about TEOS-10 (The TEOS-10 Primer). http://www.teos-10.org/
See Also
sa2sp_chem does the reverse, sp2sa_geo
Examples
# Calculate the absolute salinity of a sample with practical Salinity of 35,
# Total Alkalinity of 0.00234 mol/kg and DIC of 0.00202 mol/kg
SA <- sp2sa_chem(SP=35, TA=0.00234, DIC=0.00202)