Box 4- Van Genuchten-Mualem (VGM) Variables and Parameters

In most cases, the volumetric water content at saturation, θ_s, is equivalent to the total porosity, 𝜙_mob + 𝜙_im, as discussed in Section 2.1. The residual water content, θ_r varies between 0.01 and 0.15 and is often estimated because measurements at extreme tensions (h > 200 cm, where h = –ψ) are less common in peat. The residual water content, θ_r, is a portion of the 𝜙_im as measured by soil water retention curves. Both θ_s and θ_r are strongly related to bulk density and degree of decomposition, with θ_s decreasing and θ_r increasing with increase in bulk density.

Similar to both θ_s and θ_r, the VGM parameter n is related to bulk density, decreasing from ~0.2 to ~0.01 for bulk densities ranging from 0.02–0.8 g cm³. However, this statistical relationship is weaker than those determined by porosity measures (Liu and Lennartz, 2019). The air entry pressure (characterized by 1/α) is strongly correlated with both macroporosity (discussed in Section 3.1) and K_sat (Liu and Lennartz, 2019). Broadly, α decreases with increasing bulk density because air entry into denser peat requires higher pressure. In sedge peat, α ranges from ~10^-3 — ~10¹ cm^-1, and in Sphagnum peat it ranges from 10^-1—10¹ cm^-1. Unlike both sedge and Sphagnum peat that are constrained to relatively small ranges of α, woody peat spans a wide range of reported values, but the limited number of reported values may bias the true range for woody peat.

Values of K_unsat defined for a given tension, h—using Equation 6—employ a scaling parameter, l, related to the pore-size distribution. Typically, l is negative in peat and ranges from -6 to 1. To date, a statistical relationship between l and bulk density has not been defined; however, this may be due to the choice to fix l in some peat studies, while fitting l in other studies. Much less is known about how l varies with other physical peat properties as compared to what is known about soil water retention model parameters, due to the paucity of studies that encompass both soil water retention and unsaturated hydraulic conductivity.

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