K2si: Second dissociation constant of Si(OH)4
In jpgattuso/seacarb-git: Seawater Carbonate Chemistry
K2si R Documentation
Second dissociation constant of Si(OH)4
Description
Second dissociation constant of Si(OH)4 (mol/kg)
Usage
K2si(S=35, T=25, P=0, pHscale="T", kSWS2scale="x", ktotal2SWS_P0="x")
Arguments
S
Salinity, default is 35
T
Temperature in degrees Celsius, default is 25oC
P
Hydrostatic pressure in bar (surface = 0), default is 0
pHscale
choice of pH scale: "T" for using the total scale, "F" for using the free scale and "SWS" for using the seawater scale, default is total scale
kSWS2scale
Conversion factor from the seawater scale (SWS) to the pH scale selected at the hydrostatic pressure value indicated. It is advised to use default value "x", in which case it is computed when required.
ktotal2SWS_P0
Conversion factor from the total scale to the SWS at an hydrostatic pressure of 0. It is advised to use default value "x", in which case it is computed when required.
Details
This equation is modified from Wischmeyer et al. (2003), who fitted the temperature-dependent K2si from Nordstrom et al. (1990) for freshwater to a value of 12.56 for T=25 and an ionic strength of 0.5 mol/kg. The temperature and salinity ranges in which it is valid are not well constrained.
The pressure correction is applied on the seawater scale. Hence, values are first transformed from the total scale to the seawater scale, the pressure correction applied as described by Millero (1995), and the value is transformed back to the required scale (T, F or SWS).
Note that the arguments can be given as a unique number or as vectors. If the lengths of the vectors are different, the longer vector is retained and only the first value of the other vectors is used. It can therefore be critical to use vectors of the same length.
Value
K2si
Second dissociation constant of Si(OH)4 (mol/kg)
Author(s)
Mathilde Hagens (M.Hagens@uu.nl)
References
Millero F. J., 1995 Thermodynamics of the carbon dioxide system in the oceans. Geochimica Cosmochimica Acta 59: 661-677.
Nordstrom D. K., L. N. Plummer, D. Langmuir, E. Busenberg, H. M. May, B. F. Jones, D. L. Parkhurst, 1990 Revised chemical equilibrium data from major mineral reactions and their limitations. In: Melchior, D.C., R. L. Bassett (Eds.) Chemical Modeling of Aqueous Systems. IIACS Series 416. American Chemical Society, Washington, DC.
Wischmeyer A. G., Y. Del Amo, M. Brzezinski, D. A. Wolf-Gladrow, 1995 Theoretical constraints on the uptake of silicic acid species by marine diatoms. Marine Chemistry 82: 13-29.
Examples
K2si(S=35, T=25, P=0, pHscale="T")
jpgattuso/seacarb-git documentation built on Feb. 17, 2024, 7:26 a.m.
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.
| K2si | R Documentation |
Second dissociation constant of Si(OH)4
Description
Second dissociation constant of Si(OH)4 (mol/kg)
Usage
K2si(S=35, T=25, P=0, pHscale="T", kSWS2scale="x", ktotal2SWS_P0="x")
Arguments
S |
Salinity, default is 35 |
T |
Temperature in degrees Celsius, default is 25oC |
P |
Hydrostatic pressure in bar (surface = 0), default is 0 |
pHscale |
choice of pH scale: "T" for using the total scale, "F" for using the free scale and "SWS" for using the seawater scale, default is total scale |
kSWS2scale |
Conversion factor from the seawater scale (SWS) to the pH scale selected at the hydrostatic pressure value indicated. It is advised to use default value "x", in which case it is computed when required. |
ktotal2SWS_P0 |
Conversion factor from the total scale to the SWS at an hydrostatic pressure of 0. It is advised to use default value "x", in which case it is computed when required. |
Details
This equation is modified from Wischmeyer et al. (2003), who fitted the temperature-dependent K2si from Nordstrom et al. (1990) for freshwater to a value of 12.56 for T=25 and an ionic strength of 0.5 mol/kg. The temperature and salinity ranges in which it is valid are not well constrained.
The pressure correction is applied on the seawater scale. Hence, values are first transformed from the total scale to the seawater scale, the pressure correction applied as described by Millero (1995), and the value is transformed back to the required scale (T, F or SWS).
Note that the arguments can be given as a unique number or as vectors. If the lengths of the vectors are different, the longer vector is retained and only the first value of the other vectors is used. It can therefore be critical to use vectors of the same length.
Value
K2si |
Second dissociation constant of Si(OH)4 (mol/kg) |
Author(s)
Mathilde Hagens (M.Hagens@uu.nl)
References
Millero F. J., 1995 Thermodynamics of the carbon dioxide system in the oceans. Geochimica Cosmochimica Acta 59: 661-677.
Nordstrom D. K., L. N. Plummer, D. Langmuir, E. Busenberg, H. M. May, B. F. Jones, D. L. Parkhurst, 1990 Revised chemical equilibrium data from major mineral reactions and their limitations. In: Melchior, D.C., R. L. Bassett (Eds.) Chemical Modeling of Aqueous Systems. IIACS Series 416. American Chemical Society, Washington, DC.
Wischmeyer A. G., Y. Del Amo, M. Brzezinski, D. A. Wolf-Gladrow, 1995 Theoretical constraints on the uptake of silicic acid species by marine diatoms. Marine Chemistry 82: 13-29.
Examples
K2si(S=35, T=25, P=0, pHscale="T")
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.
Embedding an R snippet on your website
Add the following code to your website.
For more information on customizing the embed code, read Embedding Snippets.