Organic Phosphorus

The amount of organic phosphorus in the stream may be increased by the conversion of algal biomass phosphorus to organic phosphorus. Organic phosphorus concentration in the stream may be decreased by the conversion of organic phosphorus to soluble inorganic phosphorus or the settling of organic phosphorus with sediment. The change in organic phosphorus for a given day is:

ΔorgPstr=(α2ρaalgaeβP,4orgPstrσ5orgPstr)TT\Delta orgP_{str}=(\alpha_2*\rho_a*algae-\beta_{P,4}*orgP_{str}-\sigma_5*orgP_{str})*TT 7:3.3.1

where ΔorgPstr\Delta orgP_{str} is the change in organic phosphorus concentration (mg P/L), α2\alpha_2 is the fraction of algal biomass that is phosphorus (mg P/mg alg biomass), ρa\rho_a is the local respiration or death rate of algae (day1^{-1} or hr1^{-1}), algaealgae is the algal biomass concentration at the beginning of the day (mg alg/L), βP,4\beta_{P,4} is the rate constant for mineralization of organic phosphorus (day1^{-1} or hr1^{-1}), orgPstrorgP_{str} is the organic phosphorus concentration at the beginning of the day (mg P/L), α5\alpha_5 is the rate coefficient for organic phosphorus settling (day1^{-1} or hr1^{-1}), and TTTT is the flow travel time in the reach segment (day or hr). The fraction of algal biomass that is phosphorus is user-defined. Equation 7:3.1.17 describes the calculation of the local respiration rate of algae. The calculation of travel time is reviewed in Chapter 7:1.

The user defines the local rate constant for mineralization of organic phosphorus at 20°\degreeC. The organic phosphorus mineralization rate is adjusted to the local water temperature using the relationship:

βP,4=βP,4,201.047(Twater20)\beta_{P,4}=\beta_{P,4,20}*1.047^{(T_{water}-20)} 7:3.3.2

where βP,4\beta_{P,4} is the local rate constant for organic phosphorus mineralization (day1^{-1} or hr1^{-1}), βP,4,20\beta_{P,4,20} is the local rate constant for organic phosphorus mineralization at 20°\degreeC (day1^{-1} or hr1^{-1}), and TwaterT_{water} is the average water temperature for the day or hour (°\degreeC).

The user defines the rate coefficient for organic phosphorus settling at 20°\degreeC. The organic phosphorus settling rate is adjusted to the local water temperature using the relationship:

σ5=σ5,201.024(Twater20)\sigma_5=\sigma_{5,20}*1.024^{(T_{water}-20)} 7:3.3.3

where σ5\sigma_5 is the local settling rate for organic phosphorus (day1^{-1} or hr1^{-1}), σ5,20\sigma_{5,20} is the local settling rate for organic phosphorus at 20°\degreeC (day1^{-1} or hr1^{-1}), and TwaterT_{water} is the average water temperature for the day or hour (°\degreeC).

Last updated

#1315: katie.mendoza's Oct 3 ET chapter

Change request updated