unit_conversions.md

Common Unit Conversions

For many transformations, particularly when automated, please use the udunits2 software where possible. For example, in R, you can use

library(udunits2)
## transform meters to mm
ud.convert(10, "m", "mm")
## equivalently, via the udunits synonym database
ud.convert(10, "meters", "millimeters")
## it can also handle more complex units
ud.convert(10, "m/s", "mm/d")

NB: Many of these conversions have been automated within PEcAn{target="_blank"}.

Table: Useful conversions for entering site, management, yield, and trait data [To-Do: Fix these!]

From ((X))	to ((Y))	Conversion	Notes
(X_2=) root production	(X_1=) root biomass & root turnover rate	(Y = X_2/X_1)	Gill (2000)
DD(^{\circ}) MM' SS''	XX.ZZZZ	(\textrm{XX.ZZZZ} = \textrm{DD} + \textrm{MM}/60+\textrm{SS}/3600)	to convert latitude or longitude from degrees, minutes, seconds to decimal degrees
lb	kg	(Y=X\times 2.2)
mm/s	(\mu) mol CO(_2) m(^{2}) s(^{-1})	(Y=X\times 0.04)
m(^2)	ha	(Y = X/10^4)
g/m(^2)	kg/ha	(Y=X\times 10)
US ton/acre	Mg/ha	(Y = X\times 2.24)
m(^3)/ha	cm	(Y=X/100)	units used for irrigation and rainfall
% roots	root:shoot (q)	(Y=\frac{X}{1-X})	(% \text{roots} = \frac{\text{root biomass}}{\text{total biomass}})
(\mu) mol cm(^{-2}) s(^{-1})	mmol m(^{-2}) s(^{-1})	(Y = X/10)
mol m(^{-2}) s(^{-1})	mmol m(^{-2}) s(^{-1})	(Y = X/10^6)
mol m(^{-2}) s(^{-1})	(\mu) mol cm(^{-2}) s(^{-1})	(Y = X/ 10^5)
mm s(^{-2})	mmol m(^{-3}) s(^{-1})	(Y=X/41)	Korner et al. [1988]
mg CO(_2) g(^{-1}) h(^{-1})	(\mu) mol kg(^{-1}) s(^{-1})	(Y = X\times 6.31)	used for root_respiration_rate
(\mu) mol	mol	(Y= X\times 10^6)
julian day (1--365)	date		see https://www-air.larc.nasa.gov/tools/jday.htm{target="_blank"} (NASA Julian Calendar)
spacing (m)	density (plants m(^{2}))	(Y=\frac{1}{\textrm{row spacing}\times\textrm{plant spacing}})
kg ha(^{-1}) y(^{-1})	Mg ha(^{-1}) y(^{-1})	(Y= X/1000)
g m(^{-2}) y(^{-1})	Mg ha(^{-1}) y(^{-1})	(Y= X/100)
kg	mg	(Y=X\times 10^6)
cm(^2)	m(^2)	(Y=X\times 10^4)