SWAT+ calculates loading of pathogens and indicator bacteria for pathogens from land areas in the watershed. In reservoirs, bacteria die-off is the only process modeled.
A first order decay function is used to calculate changes in bacteria concentrations (Bowie et al., 1985).
8:5.1.1
8:5.1.2
where is the amount of less persistent bacteria present in the reservoir on day (#cfu/100mL), is the amount of less persistent bacteria present in the reservoir on day (#cfu/100mL), is the rate constant for die-off of less persistent bacteria in water bodies (1/day), is the amount of persistent bacteria present in the reservoir on day (#cfu/100mL), is the amount of persistent bacteria present in the reservoir on day (#cfu/100mL), and , is the rate constant for die-off of persistent bacteria in water bodies (1/day).
The die-off rate constants are adjusted for temperature using the equations:
8:5.1.3
8:5.1.4
where , is the rate constant for die-off of less persistent bacteria in water bodies (1/day), is the rate constant for die-off of persistent bacteria in water bodies (1/day), is the rate constant for die-off of less persistent bacteria in water bodies at 20C (1/day), is the rate constant for die-off of persistent bacteria in water bodies at 20C (1/day), is the temperature adjustment factor for bacteria die-off/re-growth, and is the water temperature (C).
Table 8:5-1: SWAT+ input variables that pertain to bacteria die-off in the water bodies.
Variable Name | Definition | Input File |
---|---|---|
WDPRES
: Die-off factor for persistent bacteria in water bodies at 20C (1/day)
.bsn
WDLPRES
: Die-off factor for less persistent bacteria in water bodies at 20C (1/day)
.bsn
THBACT
: Temperature adjustment factor for bacteria die-off/growth
.bsn