Vapour Pressure Deficit Calculation

Versione 1.1.0 (2,88 KB) da Sandipan

Compute VPD using the provided air temperature, dew point, pressure at MSL and elevation. It is based on Yuan et al. (2019).

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Aggiornato 21 dic 2023

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Syntax:

VPD = calVPD(Ta,Td,Pmsl,z)
VPD = calVPD(Ta,Td,Pmsl,z,'AVPMethodOption','CC_method')
VPD = calVPD(Ta,Td,Pmsl,z,'AVPMethodOption','RH_method','RHVec',RH)

Input variables:

Ta, Td, Pmsl, z: Near Surface Air Temperature (UNIT: deg. C),

Near Surface Dew Point Temperature (UNIT: deg. C),

Air Pressure at Mean Sea Level(UNIT: hPa), Elevation

(UNIT: m). These four are mandatory inputs.

AVPMethodOption: It takes the Actual Vapour Pressure Calculation Method.

Two option is now permissible: Clausius-Clapeyron based

method (default option) and Relative Humidity based

method

RH: Matrix of relative humidity (UNIT:%)

Output variables:

VPD: Vapour pressure deficit (UNIT: kPa) matrix

Follow the VPD methodlogy explained in Yuan et al. (2019) [Increased atmospheric vapor pressure deficit reduces global vegetation growth | Science Advances] for the equation used.

Cita come

Paul (2023). Vapour Pressure Deficit Calculation (https://www.mathworks.com/matlabcentral/fileexchange/156707), MATLAB Central File Exchange. Retrieved December 21, 2023.

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Creato con R2023b

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Versione	Pubblicato	Note della release
1.1.0	21 dic 2023	Citation Updated	Scarica
1.0.0	21 dic 2023		Scarica

Vapour Pressure Deficit Calculation

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