Phosphorus Stress

As with nitrogen, phosphorus stress is quantified by comparing actual and optimal plant phosphorus levels. Phosphorus stress varies non-linearly between 0.0 at optimal phosphorus content and 1.0 when the phosphorus content of the plant is 50% or less of the optimal value. Phosphorus stress is computed with the equation:

pstrs=1ϕpϕp+exp[3.5350.02597ϕp]pstrs=1-\frac{\phi_p}{\phi_p +exp[3.535-0.02597*\phi_p]} 5:3.1.8

where pstrspstrs is the phosphorus stress for a given day, and ϕp\phi_p is a scaling factor for phosphorus stress. The scaling factor is calculated:

ϕp=200(bioPbioP,opt0.5)\phi_p=200*(\frac{bio_P}{bio_{P,opt}}-0.5) 5:3.1.9

where bioP,optbio_{P,opt} is the optimal mass of phosphorus stored in plant material for the current growth stage (kg N/ha) and bioPbio_P is the actual mass of phosphorus stored in plant material (kg N/ha).

Table 5:3-1: SWAT+ input variables that pertain to stress on plant growth.

Variable NameDefinitionInput File

T_BASE

TbaseT_{base}: Base temperature for plant growth (°C)

crop.dat

T_OPT

ToptT_{opt}: Optimal temperature for plant growth (°C)

crop.dat

Last updated

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

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