EGU22-3104, updated on 09 Jan 2024
https://doi.org/10.5194/egusphere-egu22-3104
EGU General Assembly 2022
© Author(s) 2024. This work is distributed under
the Creative Commons Attribution 4.0 License.

Controlled drainage with subirrigation: a water management measure to discharge, retain and recharge freshwater

Janine de Wit1,2, Marjolein van Huijgevoort1, Gé van den Eertwegh3, Dion van Deijl3, and Ruud Bartholomeus1,2
Janine de Wit et al.
  • 1KWR Water Research Institute, Netherlands (janine.de.wit@kwrwater.nl)
  • 2Wageningen University, Soil Physics and Land Management Group, Wageningen, the Netherlands
  • 3KnowH2O, Berg en Dal, the Netherlands

Sufficient freshwater is needed for water dependent sectors as agriculture, nature, drinking water, and industry. However, even in low-lying, flood prone countries like the Netherlands, climate change, weather extremes, economic growth, urbanization, land subsidence and increased food production will make it more complex to guarantee sufficient freshwater for all sectors. Specifically, the range of weather extremes from extremely dry to extremely wet is expected to increase and extremes are expected to occur more frequently.

Over the last decades, drainage, land consolidation and urbanization resulted in declining groundwater tables. Additionally, the freshwater demand of different sectors caused an increased pressure on the regional groundwater system. As a consequence, the annual groundwater table in the Dutch sandy soil areas dropped over time with the effect that, nowadays, freshwater is becoming scarce in dry periods. Agriculture needs to anticipate on these conditions in order to prevent both drought and waterlogging. However, the current Dutch agricultural water management system is historically focused on water discharge and not designed to anticipate on both weather extremes.

One of the solutions could be to modify the current pipe drainage systems (already existing in 34 % of the agricultural land) to drainage systems with three purposes, called: controlled drainage with subirrigation. First, the drainage systems could discharge water if the risk of waterlogging increases. Second, the drainage system could store water during rainfall in the soil (retain water). Third, (external) water can be actively pumped into the drainage network to raise groundwater tables (recharge water).

We focus on the data and model output of four experimental sites in the Pleistocene uplands of the Netherlands, where controlled drainage with subirrigation is applied. Field data is collected over ± the years 2017-2021, like water supply, groundwater table, soil moisture content. Water balance components as actual transpiration, drainage and downward seepage are modelled with SWAP (Soil-Water-Atmosphere-Plant model). The effects on crop yield and configuration of the management are also quantified with the model.

The construction of controlled drainage with subirrigation, topographical location, and a proper management of these systems are important. First, results show that through subirrigation, water can be stored in the soil instead of discharged. The water storage leads to an increase in groundwater tables of ± 0.70 m during the growing season, leading to higher crop yields. By storing external water at the field scale, fast drainage was prevented, which decreased drought vulnerability. Second, results of the four experimental sites show that effects of subirrigation on the water balance components are strongly site dependent. For example, an impermeable layer at a shallow depth is needed for enough resistance to increase the phreatic groundwater level. Furthermore, ditch levels surrounded by the field are important as a shallow groundwater table with low ditch levels results in lateral drainage, an unfavorable effect. Third, results of the experimental sites show that proper management of these systems is important to prevent clogging of the system.

How to cite: de Wit, J., van Huijgevoort, M., van den Eertwegh, G., van Deijl, D., and Bartholomeus, R.: Controlled drainage with subirrigation: a water management measure to discharge, retain and recharge freshwater, EGU General Assembly 2022, Vienna, Austria, 23–27 May 2022, EGU22-3104, https://doi.org/10.5194/egusphere-egu22-3104, 2022.