Rainfall Erodibility Index

The value of EIUSLEEI_{USLE} for a given rainstorm is the product, total storm energy times the maximum 30 minute intensity. The storm energy indicates the volume of rainfall and runoff while the 30 minute intensity indicates the prolonged peak rates of detachment and runoff.

EIUSLE=EstormI30EI_{USLE}=E_{storm}*I_{30} 4:1.2.2

where EIUSLEEI_{USLE} is the rainfall erosion index (0.017 m-metric ton cm/(m2^2 hr)), EstormE_{storm} is the total storm energy (0.0017 m-metric ton/m2^2), and I30I_{30} is the maximum 30-minute intensity (mm/hr).

The energy of a rainstorm is a function of the amount of rain and of all the storm’s component intensities. Because rainfall is provided to the model in daily totals, an assumption must be made about variation in rainfall intensity. The rainfall intensity variation with time is assumed to be exponentially distributed:

it=imxexp(tki)i_t=i_{mx}*exp(-\frac{t}{k_i}) 4:1.2.3

where iti_t is the rainfall intensity at time tt (mm/hr), imxi_{mx} is the maximum rainfall intensity (mm/hr), tt is the time (hr), and kik_i is the decay constant for rainfall intensity (hr).

The USLE energy equation is

Estorm=ΔRday(12.1+8.9log10[ΔRdayΔt])E_{storm}=\Delta R_{day}*(12.1+8.9*log_{10}[\frac{\Delta R_{day}}{\Delta t}]) 4:1.2.4

where ΔRday\Delta R_{day} is the amount of rainfall during the time interval (mm H2_2O), and Δt\Delta t is the time interval (hr). This equation may be expressed analytically as:

Estorm=12.10itdt+8.90itlog10itdtE_{storm}=12.1\int_0^{\infty}i_t dt+8.9\int_0^{\infty} i_t log_{10} i_tdt 4:1.2.5

Combining equation 4:1.2.5 and 4:1.2.3 and integrating gives the equation for estimating daily rainfall energy:

Estorm=Rday1000(12.1+8.9(log10[imx]0.434))E_{storm}=\frac{R_{day}}{1000}*(12.1+8.9*(log_{10}[i_{mx}]-0.434)) 4:1.2.6

where RdayR_{day} is the amount of precipitation falling on a given day (mm H2_2O), and imxi_{mx} is the maximum rainfall intensity (mm/hr). To compute the maximum rainfall intensity, imxi_{mx}, equation 4:1.2.3 is integrated to give

Rday=imxkiR_{day}=i_{mx}*k_i 4:1.2.7

and

Rt=Rday(1exp[tki])R_t=R_{day}*(1-exp[-\frac{t}{k_i}]) 4:1.2.8

where RdayR_{day} is the amount of precipitation falling on a given day (mm H2_2O), imxi_{mx} is the maximum rainfall intensity (mm/hr), kik_i is the decay constant for rainfall intensity (hr), RtR_t is the amount of rain falling during a time interval (mm H2_2O), and tt is the time interval (hr). The maximum half-hour rainfall for the precipitation event is known:

R0.5=α0.5RdayR_{0.5}=\alpha_{0.5}*R_{day} 4:1.2.9

where R0.5R_{0.5} is the maximum half-hour rainfall (mm H2_2O), α0.5\alpha_{0.5} is the maximum half-hour rainfall expressed as a fraction of daily rainfall, and RdayR_{day} is the amount of precipitation falling on a given day (mm H2_2O). Calculation of α0.5\alpha_{0.5} is reviewed in Chapter 1:2 and Chapter 1:3. Substituting equation 4:1.2.9 and 4:1.2.7 into 4:1.2.8 and solving for the maximum intensity gives:

imx=2Rday1n(1α0.5)i_{mx}=-2*R_{day}*1n(1-\alpha_{0.5}) 4:1.2.10

where imxi_{mx} is the maximum rainfall intensity (mm/hr), RdayR_{day} is the amount of precipitation falling on a given day (mm H2_2O), and α0.5\alpha_{0.5} is the maximum half-hour rainfall expressed as a fraction of daily rainfall.

The maximum 30 minute intensity is calculated:

I30=2α0.5RdayI_{30}=2*\alpha_{0.5}*R_{day} 4:1.2.11

where I30I_{30} is the maximum 30-minute intensity (mm/hr), α0.5\alpha_{0.5} is the maximum half-hour rainfall expressed as a fraction of daily rainfall, and RdayR_{day} is the amount of precipitation falling on a given day (mm H2_2O).

Table 4:1-6: SWAT+ input variables that pertain to USLE sediment yield.

Variable NameDefinitionInput File

USLE_K

KUSLEK_{USLE}: USLE soil erodibility factor (0.013 metric ton m2^2 hr/(m3^3-metric ton cm))

.sol

USLE_C

CUSLE,mnC_{USLE,mn}: Minimum value for the cover and management factor for the land cover

crop.dat

USLE_P

PUSLEP_{USLE}: USLE support practice factor

.mgt

SLSUBBSN

LhillL_{hill}: Slope length (m)

.hru

SLOPE

slpslp: Average slope of the subbasin (% or m/m)

.hru

ROCK

rockrock: Percent rock in the first soil layer (%)

.sol

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