{Reference Type}: Journal Article
{Title}: Hydrological environment affects the nutrient retention and runoff function of naturally re-wetted agricultural peatland in lowland river floodplain.
{Author}: Kizuka T;Mikami H;Kameyama S;Ono S;Suzuki H;
{Journal}: Sci Total Environ
{Volume}: 857
{Issue}: 0
{Year}: Jan 2023 20
{Factor}: 10.753
{DOI}: 10.1016/j.scitotenv.2022.159483
{Abstract}: Re-wetting of agricultural areas reclaimed by draining peatlands reportedly entails risks of nutrient loads downstream because of leaching of dissolved nutrients from pools in the soil. On floodplain fens, nutrient retention and runoff function have been recognized as dependent upon the hydrological environments of re-wetted agricultural peatland (RAP). Although many studies have been conducted for artificially re-wetted agricultural peatlands (artificial RAPs), knowledge on naturally re-wetted agricultural peatlands (natural RAPs) has been lacking. This study assessed the natural re-wetting of agricultural areas in floodplain fens in terms of risks of nutrient loading in the basin of Kushiro Mire, northern Japan. Flooding of the adjacent river caused by heavy rainfall remarkably increased the water flow, and the inflow and outflow fluxes of nitrogen (N) and phosphorus (P) of a test plot in the natural RAP. Flood waters supplied mainly inorganic nutrients to the test plot, including NO3-N and PO4-P. Larger amounts of dissolved organic N and P, NH4-N, and PO4-P that had accumulated in surface water and surface groundwater in the plot flowed out. Consequently, the test plot represented net runoff of 3 and 0.4 mg m-2 day-1 as total N and total P, respectively, for the average of the whole observation period. The test plot was a source of N loading downstream, which was contrary to results obtained for artificial RAPs in many studies. However, the test plot showed a smaller amount of net phosphorus runoff. Our findings suggest that water level fluctuation and river flood water inflow affect the nutrient retention and runoff functions of RAPs. Repeated inundated and dried conditions, with no continuous inflow of river water, explain the nutrient runoff in the test plot.