Modeling and Mitigating Phosphorus Losses from a Tile‐Drained and Manured Field Using RZWQM2‐P

Prediction of P losses from manured agricultural fields through surface runoff and tile drainage is necessary to mitigate widespread eutrophication in water bodies. However, present water quality models are weak in predicting P losses, particularly in tile‐drained and manure‐applied cropland. We developed a field‐scale P management model, the Root Zone Water Quality Model version 2–Phosphorus (RZWQM2‐P), whose accuracy in simulating P losses from manure applied agricultural field is yet to be tested. The objectives of this study were (i) to assess the accuracy of this new model in simulating dissolved reactive phosphorus (DRP) and particulate phosphorus (PP) losses in surface runoff and tile drainage from a manure amended field, and (ii) to identify best management practices to mitigate manure P losses including water table control, manure application timing, and spreading methods by the use of model simulation. The model was evaluated against data collected from a liquid cattle manure applied field with maize (Zea mays L.)–soybean [Glycine max (L.) Merr.] rotation in Ontario, Canada. The results revealed that the RZWQM2‐P model satisfactorily simulated DRP and PP losses through both surface runoff and tile drainage (Nash–Sutcliffe efficiency > 0.50, percentage bias within ±25%, and index of agreement > 0.75). Compared with conventional management practices, manure injection reduced the P losses by 18%, whereas controlled drainage and winter manure application increased P losses by 13 and 23%, respectively. The RZWQM2‐P is a promising tool for P management in manured and subsurface drained agricultural field. The injection of manure rather than controlled drainage is an effective management practice to mitigate P losses from a subsurface‐drained field. Core Ideas RZWQM2‐P satisfactorily simulated P losses from the manure‐applied field. A field experiment revealed that the nongrowing season dominated the P losses. Particulate P loss dominated the average annual P loss as per the field experiment. RZWQM‐P adequately simulated seasonal P losses and dominant P loss type. Injected manure application was found effective to mitigate P losses.