Simulation of vegetation-soil water feedback in nemoral forests on hydromorphic soils with Hydrus-1D
<p>It is hypothesized that northern nemoral forests on hydromorphic soils in lowland settings can enter a feedback loop were enhanced evapotranspiration led to better soil aeration enhancing root water uptake and further increase of evapotranspiration. Opposite feedback could be possible as well &#8211; poor soil aeration due to water saturation hinders the root water uptake, resulting in overall decreased evapotranspiration and preservation of waterlogged state of the soil. The feasibility of the feedback loop is explored by a Hydrus-1D simulation using artificial climate forcing. It is suggested that wet or dry years can shift the vegetation-soil water<strong> </strong>system from wet to dry state and back. The research is supported by project No. 1.1.1.2/VIAA/3/19/524.</p>