Central Dredging Association

Understanding dredging

Raise elevation of low-lying peatlands

Classification
R4A_2010_NL
Major Function
Restoration
Other Functions
Raw-material
Location
Jisperveld, The Netherlands
Volume
Volume reused (750,000 m)
Technique
On Land Natural or enhanced treatment
Contaminants
N/A
Granulometry
Solid phase: 90% organic matter (degraded peat), 10% clay, Water content: initially 1,000% (9 times
Scale
Pilot scale
Client
Waterboard Hollands Noorderkwartier & Natuurmonumenten
Executor
Consultant: Arcadis, Tauw; Research Institute: Deltares; TU Delft and Wageningen University , Contractor: Aalsburg B.V.
Research program
STW (Applied and Engineering Sciences, Dutch Government)
Contact
Deltares (Arjan Wijdeveld)
Year start end
2010 – 2014
Document
Download Case Study

Lift up of Lowlands makes use of a millennium year old technique of reapplying sediment on land. However, over the last few centuries people have focussed on building dykes to protect the land from flooding, limiting natural accumulation of sediments. Secondly, groundwater management to allow agricultural use of the low-lying polder areas, causes subsidence of these areas, due consolidation and oxidation of organic fraction materials. Lift up of Lowlands goes back to the roots of sediment reapplication to compensate for subsidence and to improve the lands fertility.

Since the used sediments consists of ‘thick water’ (with a density of around 1,100 kg/m3), the project focus is to study the sediment drying and shrinking behavior.  At the same time, 90% of the sediment consists of organic matter. Dewatering leads to air penetration, which can accelerate the degradation of organic matter.

The project studied the drying behavior of the sediment and the release rate of nutrients. Based on in field subsidence monitoring, sediment parameter characterization and detailed studies on crack formation (important for dewatering) and the organic matter composition (determining the degradation rate and the release of nutrients), the subsidence and oxidation rate of organic rich sediment used on land can now be predicted better. This also helps farmers, since subsidence due to dewatering leads to an increased sediment strength. Farmers want to know when the land is accessible for cattle or tractors.

Graphical information:

case study lift up lowlands concept // cs_lift-up-lowlands-concept.png (391 K)

case study lift up lowlands filling deposit // cs_lift-up-lowlands-filling-deposit.png (257 K)

case study lift up lowlands filling sediment // cs_lift-up-lowlands-filling-sediment.jpg (458 K)