gsw_SAAR: Absolute Salinity Anomaly Ratio
In gsw: Gibbs Sea Water Functions
gsw_SAAR R Documentation
Absolute Salinity Anomaly Ratio
Description
Absolute Salinity Anomaly Ratio
Usage
gsw_SAAR(p, longitude, latitude)
Arguments
p
sea pressure [dbar], i.e. absolute pressure [dbar] minus 10.1325 dbar
longitude
longitude in decimal degrees, positive to the east of Greenwich. (This
is called long in the TEOS-10 Matlab code.)
latitude
latitude in decimal degrees, positive to the north of the equator. (This
is called lat in the TEOS-10 Matlab code.)
Value
a list containing SAAR, which is
the (unitless) Absolute Salinity Anomaly Ratio, and in_ocean
is set to 1 if SAAR is nonzero, or to 0 otherwise.
Implementation Note
This R function uses a wrapper to a C function contained within the GSW-C
system as updated 2021-12-28 at https://github.com/TEOS-10/GSW-C with
git commit '98f0fd40dd9ceb0ba82c9d47ac750e935a7d0459'.
The C function uses data from the library/gsw_data_v3_0.mat
file provided in the GSW-Matlab source code, version 3.06-11.
Unfortunately, this version of the mat file is no longer displayed on the
TEOS-10.org website. Therefore, in the interests of making GSW-R be
self-contained, a copy was downloaded from
http://www.teos-10.org/software/gsw_matlab_v3_06_11.zip on 2022-05-25,
the .mat file was stored in the developer/create_data directory of
https://github.com/TEOS-10/GSW-R, and then the dataset used in GSW-R
was created based on that .mat file.
Please consult http://www.teos-10.org to learn more about the various
TEOS-10 software systems.
Bugs
The definition of in_ocean is incorrect, because the C function named
gsw_saar, which is called by the present R function, does not calculate
in_ocean, as the base Matlab function named gsw_SAAR does. However,
examination of the Matlab code shows that in_ocean is set to 0 along
with SAAR, whenever the original estimate of the latter is nonfinite.
Thus, points that would be signalled as being on the land by the Matlab code
are indicated in the same way with the present R function. However, other points
may also be indicated as being on land, if SAAR is simply zero in the
first calculation. Whether this poses a problem in practice is an open question,
since it seems likely that this function would only be called with oceanic
locations, anyway. If problems arise for users, a patch can be written to
improve things.
References
http://www.teos-10.org/pubs/gsw/html/gsw_SAAR.html
Examples
p <- c(10, 50, 125, 250, 600, 1000)
longitude <- c(188, 188, 188, 188, 188, 188)
latitude <- c(4, 4, 4, 4, 4, 4)
SAAR <- gsw_SAAR(p, longitude, latitude)
stopifnot(all.equal(1e3*SAAR$SAAR, c(0.004794295602143, 0.007668755837570, 0.018919828449091,
0.077293264028981, 0.161974583039298, 0.270652408428964)))
stopifnot(all.equal(SAAR$in_ocean, rep(1, 6)))
gsw documentation built on Oct. 16, 2022, 5:06 p.m.
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| gsw_SAAR | R Documentation |
Absolute Salinity Anomaly Ratio
Description
Absolute Salinity Anomaly Ratio
Usage
gsw_SAAR(p, longitude, latitude)
Arguments
p |
sea pressure [dbar], i.e. absolute pressure [dbar] minus 10.1325 dbar |
longitude |
longitude in decimal degrees, positive to the east of Greenwich. (This
is called |
latitude |
latitude in decimal degrees, positive to the north of the equator. (This
is called |
Value
a list containing SAAR, which is
the (unitless) Absolute Salinity Anomaly Ratio, and in_ocean
is set to 1 if SAAR is nonzero, or to 0 otherwise.
Implementation Note
This R function uses a wrapper to a C function contained within the GSW-C system as updated 2021-12-28 at https://github.com/TEOS-10/GSW-C with git commit '98f0fd40dd9ceb0ba82c9d47ac750e935a7d0459'.
The C function uses data from the library/gsw_data_v3_0.mat
file provided in the GSW-Matlab source code, version 3.06-11.
Unfortunately, this version of the mat file is no longer displayed on the
TEOS-10.org website. Therefore, in the interests of making GSW-R be
self-contained, a copy was downloaded from
http://www.teos-10.org/software/gsw_matlab_v3_06_11.zip on 2022-05-25,
the .mat file was stored in the developer/create_data directory of
https://github.com/TEOS-10/GSW-R, and then the dataset used in GSW-R
was created based on that .mat file.
Please consult http://www.teos-10.org to learn more about the various TEOS-10 software systems.
Bugs
The definition of in_ocean is incorrect, because the C function named
gsw_saar, which is called by the present R function, does not calculate
in_ocean, as the base Matlab function named gsw_SAAR does. However,
examination of the Matlab code shows that in_ocean is set to 0 along
with SAAR, whenever the original estimate of the latter is nonfinite.
Thus, points that would be signalled as being on the land by the Matlab code
are indicated in the same way with the present R function. However, other points
may also be indicated as being on land, if SAAR is simply zero in the
first calculation. Whether this poses a problem in practice is an open question,
since it seems likely that this function would only be called with oceanic
locations, anyway. If problems arise for users, a patch can be written to
improve things.
References
http://www.teos-10.org/pubs/gsw/html/gsw_SAAR.html
Examples
p <- c(10, 50, 125, 250, 600, 1000)
longitude <- c(188, 188, 188, 188, 188, 188)
latitude <- c(4, 4, 4, 4, 4, 4)
SAAR <- gsw_SAAR(p, longitude, latitude)
stopifnot(all.equal(1e3*SAAR$SAAR, c(0.004794295602143, 0.007668755837570, 0.018919828449091,
0.077293264028981, 0.161974583039298, 0.270652408428964)))
stopifnot(all.equal(SAAR$in_ocean, rep(1, 6)))
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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