Preliminary application of a novel and cost-effective in-site technology in compacted lakeshore sediments for wetland restoration

Abstract

Sediment compaction is one of the major contributors to lakeshore wetland deterioration and shrinkage. A novel and relatively cost-effective in-site technology was implemented to alleviate the problem by loosening surface sediments. In the present study, the effect of a slight loosening method (cross-shaped tillage, CT), a heavy loosening method (plow-tillage, PT), and sand capping (SC) on sediment properties and Phragmites australis growth was investigated in mesocosm tanks. The results indicated that the loosening sediment methods, especially PT, increased the porosity and the water content and decreased the bulk density in the upper 0–5cm of sediments. O2 exchanges across the water–sediment interface were accelerated by 36 and 52% (from approximately 4.73 in CK (control treatment) to 7.21 in PT and 6.45mmol O2m−2d−1 in CT, respectively). The SC, PT and CT methods increased the O2 concentration in the bottom water and the O2 penetration depth (about a week at a quasi-steady state situation), ranging from 0.79±0.08mm in CK to 2.44±0.27, 1.45±0.09 and 2.38±0.28mm in SC, PT and CT, respectively). For comparison, a sharp increase in the P. australis relative growth rate was observed in SC, PT and CT of 9.2, 12.8 and 12.9mgg−1d−1, respectively, with an increase of 1.3- to 1.9-fold compared to the control. Based on our results, we recommend an appropriately loosening the compacted sediment method as an alternative for lakeshore wetland restoration.