eos2teos_geo: Convert temperature and salinity from EOS-80 to TEOS-10
In jpgattuso/seacarb-git: Seawater Carbonate Chemistry
eos2teos_geo R Documentation
Convert temperature and salinity from EOS-80 to TEOS-10
Description
Converts in situ to conservative temperature and practical to absolute salinity (SA). Salinity conversion depends on depth and geographic location.
Usage
eos2teos_geo(SP, T, P=0, long=1.e20, lat=1.e20)
Arguments
SP
Practical salinity on the practical salinity scale
T
In situ temperature in deg. C
P
Sea water pressure in dbar
long
Longitude in decimal degrees [ 0 ... +360 ] or [ -180 ... +180 ]
lat
Latitude in decimal degrees [-90 ... 90]
Details
Conversion from practical to absolute salinity depends on water density anomaly which is correlated with silicate concentration. This function relies on silicate concentration taken from WOA (World Ocean Atlas) to evaluate density anomaly.
Value
The function returns a data frame containing the following columns:
CT
Conservative temperature (deg C)
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., 2013. What every oceanographer needs to know about TEOS-10 (The TEOS-10 Primer). http://www.teos-10.org/
See Also
teos2eos_geo does the reverse, eos2teos_chem, sp2sa_geo, package gsw
Examples
# Calculate conservative temperature and absolute salinity of a sample with
# Practical salinity of 35 psu, in situ temperature of 18 deg C,
# depth is 10 dbar and location is 188 degrees East and 4 degrees North.
f <- eos2teos_geo(SP=35, T=18, P=10, long=188, lat=4)
CT <- f$CT # Conservative temperature
SA <- f$SA # Absolute salinity
jpgattuso/seacarb-git documentation built on Feb. 17, 2024, 7:26 a.m.
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| eos2teos_geo | R Documentation |
Convert temperature and salinity from EOS-80 to TEOS-10
Description
Converts in situ to conservative temperature and practical to absolute salinity (SA). Salinity conversion depends on depth and geographic location.
Usage
eos2teos_geo(SP, T, P=0, long=1.e20, lat=1.e20)
Arguments
SP |
Practical salinity on the practical salinity scale |
T |
In situ temperature in deg. C |
P |
Sea water pressure in dbar |
long |
Longitude in decimal degrees [ 0 ... +360 ] or [ -180 ... +180 ] |
lat |
Latitude in decimal degrees [-90 ... 90] |
Details
Conversion from practical to absolute salinity depends on water density anomaly which is correlated with silicate concentration. This function relies on silicate concentration taken from WOA (World Ocean Atlas) to evaluate density anomaly.
Value
The function returns a data frame containing the following columns:
CT |
Conservative temperature (deg C) |
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., 2013. What every oceanographer needs to know about TEOS-10 (The TEOS-10 Primer). http://www.teos-10.org/
See Also
teos2eos_geo does the reverse, eos2teos_chem, sp2sa_geo, package gsw
Examples
# Calculate conservative temperature and absolute salinity of a sample with
# Practical salinity of 35 psu, in situ temperature of 18 deg C,
# depth is 10 dbar and location is 188 degrees East and 4 degrees North.
f <- eos2teos_geo(SP=35, T=18, P=10, long=188, lat=4)
CT <- f$CT # Conservative temperature
SA <- f$SA # Absolute salinity
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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