buffer: Buffer parameters of the seawater carbonate system

Description

Returns buffer parameters of the seawater carbonate system.

Usage

buffer(flag, var1, var2, S=35, T=25, P=0, Pt=0, Sit=0)

Arguments

flag

select the couple of variables available. The flags which can be used are: flag = 1 pH and CO2 given flag = 2 CO2 and HCO3 given flag = 3 CO2 and CO3 given flag = 4 CO2 and ALK given flag = 5 CO2 and DIC given f

var1

enter value of the first variable in mol/kg, except for pH and for pCO2 in $\mu$atm

var2

enter value of the second variable in mol/kg, except for pH

Salinity

Temperature in degrees Celsius

Hydrostatic pressure in bar (surface = 0)

Concentration of total phosphate in mol/kg

Sit

Concentration of total silicate in mol/kg

Value

The function returns a data frame containing the following columns:
PhiDPhiD, chemical buffer factor (dpH/d[DIC]); input/output of dissolved CO2 (unit pH per mol/kg)
BetaDBetaD, homogeneous or Revelle buffer factor (dln(pCO2)/dln[DIC]); input/output of dissolved CO2
PiDPiD, chemical buffer factor (dpCO2/d[DIC]); input/output of dissolved CO2 ($\mu atm$ per mol/kg)
PhiBPhiB, chemical buffer factor (dpH/d[DIC]); from input/output of bicarbonate (unit pH per mol/kg)
BetaBBetaB, homogeneous buffer factor (dln(pCO2)/dln[DIC]); input/output of bicarbonate
PiBPiB, chemical buffer factor (dpCO2/d[DIC]); input/output of dissolved CO2 ($\mu atm$ per mol/kg)
PhiCPhiC, chemical buffer factor (dpH/d[DIC]); input/output of carbonate (unit pH per mol/kg)
BetaCBetaC, homogeneous buffer factor (dln(pCO2)/dln[DIC]); input/output of carbonate
PiCPiC, chemical buffer factor (dpCO2/d[DIC]); input/output of carbonate ($\mu atm$ per mol/kg)
PhiHPhiH, chemical buffer factor (dpH/d[ALK]); input/output of strong acid (unit pH per mol/kg)
PiHPiH, chemical buffer factor (dpCO2/d[ALK]); input/output of strong acid ($\mu atm$ per mol/kg)

encoding

latin1

Details

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. For instance, to compute parameters from one couple of variable for a range of temperatures, a vector with temperatures required can be given in enter and other arguments can be completed be one variable this variable will be used for each temperatures.

References

Frankignoulle, M. 1994 A complete set of buffer factors for acid/base CO2 system in seawater. Journal of Marine Systems 5, 111-118.

Examples

Run this code

## Calcul with a couple of variables
buffer(flag=8, var1=8.2, var2=0.00234, S=35, T=25, P=0, Pt=0, Sit=0)

## Using vectors as arguments
flag <- c(8, 2, 8)
var1 <- c(8.2, 7.477544e-06, 8.2)
var2 <- c(0.002343955, 0.001649802, 2400e-6)
S <- c(35, 35, 30)
T <- c(25, 25, 30)
P <- c(0, 0, 0)
Pt <- c(0, 0, 0)
Sit <- c(0, 0, 0)

buffer(flag=flag, var1=var1, var2=var2, S=S, T=T, P=P, Pt=Pt, Sit=Sit)

## Test for all flags 

flag <- c(1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 21, 22, 23, 24, 25)

var1 <- c(8.200000, 7.477544e-06, 7.477544e-06, 7.477544e-06, 7.477544e-06, 8.2, 8.2, 8.2, 8.2, 0.001685024, 0.001685024, 0.001685024,  0.0002888382, 0.0002888382, 0.002391252, 264.2008, 264.2008, 264.2008, 264.2008, 264.2008)

var2 <- c(7.477544e-06, 0.001685024, 0.0002888382, 0.002391252, 0.001981340, 0.001685024, 0.0002888382, 0.002391252, 0.001981340, 0.0002888382, 0.002391252, 0.001981340,  0.002391252, 0.001981340, 0.001981340, 8.2, 0.001685024, 0.0002888382, 0.002391252, 0.001981340)

buffer(flag=flag, var1=var1, var2=var2)

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