Spatial and temporal variations of nutrient concentration in the groundwater of a floodplain: effect of hydrology, vegetation and substrate

Spatio-temporal variations in nitrogen and phosphorus concentrations in gro undwater were analysed and related to the variations in hydrological condit ions, vegetation type and substrate in an alluvial ecosystem. This study wa s conducted in the Illwald forest in the Rhine Plain (eastern France) to as sess the removal of nutrients from groundwater in a regularly flooded area. We compared both forest and meadow ecosystems on clayey-silty soils with a n anoxic horizon (pseudogley) at 1.5-2 m depth (eutric gley soil) and a for est ecosystem on a clayey-silty fluviosoil rich in organic matter with a gl ey at 0.5 m depth (calcaric gley soil). Piezometers were used to measure th e nutrient concentrations in the groundwater at 2 m depth in the root layer and at 4.5 m depth, below the root layer. Lower concentrations of nitrate and phosphate in groundwater were observed under forest than under meadow, which could be explained by more efficient plant uptake by woody species th an herbaceous plants. Thus NO3-N inputs by river hoods were reduced by 73% in the shallow groundwater of the forested ecosystem, and only by 37% in th e meadow. Compared with the superficial groundwater layer, the lowest level of nitrate nitrogen (NO3-N) and the highest level of ammonium nitrogen (NH 4-N) were measured in the deep layer (under the gley horizon at 2.5 m depth ), which suggests that the reducing potential of the anoxic horizon in the gley soils contributes to the reduction of nitrate. Nitrate concentrations were higher in the groundwater of the parcel rich in organic matter than in the one poorer in organic matter. Phosphate (PO4-P) concentrations in both shallow and deep groundwater are less than 62 to 76% of those found in sur face water which can be related to the retention capacity of the clay collo ids of these soils. Moreover, the temporal variations in nutrient concentra tions in groundwater are directly related to variations in groundwater leve l during an annual hydrological cycle. Our results suggest that variations in groundwater level regulate spatio-temporal variations in nutrient concen trations in groundwater as a result of the oxidation-reduction status of so il, which creates favourable or unfavourable conditions for nutrient bioava ilability. The hydrological variations are much more important than those c oncerning substrate and type of vegetation. Copyright (C) 1999 John Wiley & Sons, Ltd.