calculates "zeta", a parameter characterizing stratification in
the lower atmosphere.
Usage
stability.parameter(
data,
Tair = "Tair",
pressure = "pressure",
ustar = "ustar",
H = "H",
zr,
d,
constants = bigleaf.constants()
)
Value
\(\zeta\) - stability parameter zeta (-)
Arguments
data
Data.frame or matrix containing all required variables
Tair
Air temperature (degC)
pressure
Atmospheric pressure (kPa)
ustar
Friction velocity (m s-1)
H
Sensible heat flux (W m-2)
zr
Instrument (reference) height (m)
d
Zero-plane displacement height (m)
constants
Kelvin - conversion degree Celsius to Kelvin
cp - specific heat of air for constant pressure (J K-1 kg-1)
k - von Karman constant (-)
g - gravitational acceleration (m s-2)
Details
The stability parameter \(\zeta\) is given by:
$$\zeta = (zr - d) / L$$
where L is the Monin-Obukhov length (m), calculated from the function
Monin.Obukhov.length. The displacement height d can
be estimated from the function roughness.parameters.