Title of article
Biotic and abiotic controls on sediment aggregation and consolidation: Implications for geochemical fluxes and coastal restoration
Author/Authors
Land، نويسنده , , Lauren E. and Kolker، نويسنده , , Alexander S. and Gambrell، نويسنده , , Robert P.، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2012
Pages
11
From page
100
To page
110
Abstract
This study examined the influence of particle size and organic matter on aggregation and compaction of 3 hydraulically dredged sediments from coastal Louisiana (clay, silt loam, sandy loam) saturated under a range of salinity regimes (1 and 5 PSU, 5 and 10 PSU, and 15 and 25 PSU) for 4 time periods (1, 8, 16, and 26 weeks). Particle sizes were determined using a laser diffraction particle size analyzer, which allowed us to develop high-resolution results indicating changes in aggregate size across a spectrum of experimental conditions. The sediments with greater organic matter content exhibited approximately 60% aggregation, as indicated by fewer aggregates in the clay size fraction, and subsequently more aggregates in the sand size fraction, when organic matter remained in the sediment. Additionally, the sandy sediment compacted more than the organic sediments in the first 16 weeks. These findings suggest that sediments with greater clay and organic matter content behave as larger particles and may undergo particle rearrangement and compaction over longer time scales than sandy sediments with low organic matter. For coastal wetland restoration, models should include the effect of organic matter on particle aggregation to understand sediment dynamics over geologic time.
Keywords
Organic matter , Compaction , consolidation , Coastal Louisiana , Particle size , Aggregation , wetland restoration , sediments
Journal title
Marine Environmental Research
Serial Year
2012
Journal title
Marine Environmental Research
Record number
2255934
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