Effect of mechanical site preparation on soil quality in former Norway spruce sites

摘要

Mechanical site preparation (MSP) enhances Scots pine (Pinus sylvestris L.) plantation establishment on cutover pine sites in northern Fennoscandia, but long-term impacts of MSP on soil quality on cutover Norway spruce (Picea abies (L.) Karst.) siteshave remained obscure. We measured soil dielectric permittivity ([epsilon]) as dependent on soil water content ([theta]v), soil electrical conductivity ([sigma]a) and soil solution electrical conductivity ([sigma]w) at 14 former spruce sites, 8-23 yearspost-MSP in Finnish Lapland. The sites were mechanically prepared with Marttiini-plough that had created cross-contour disturbance tracks with following microsites: trench, tilt and untreated control between the tracks. Soil water content in trenches oruntreated control was not lower as compared to that of spruce forest reference. Tilts were lower in soil [theta]v, but this feature, however, appeared to vanish within 23 years. Soil electrical conductivity of all microsites was much lower as compared tospruce forest reference, and significant degradation of soil quality was observed such that untreated control-[sigma]a tilt-[sigma]a trench-[sigma]a. The soil [sigma]w was consistently lowest in trenches, evidently due to snowmelt induced leaching cycles. MSP treatments were unable to contribute to permanent changes in soil water regimes and site-specific soil water regimes appeared to be attributable to spatial variability of soil physical properties rather than MSP.