Optimizing nitrogen (N) availability for crop growth is critical for productive agricultural systems and for minimizing potential negative economic and environmental impacts associated with N loss from agro-ecosystems. Grass is the largest crop in Ireland comprising 90% of the country’s agricultural area. Granular calcium ammonium nitrate (CAN) is the most widely used straight N source and provides rapidly available nitrate-N (NO₃-N) for plant uptake. However, NO₃-N is vulnerable to leaching and de-nitrification loss pathways. The use of Urea with inhibitors or combinations of CAN and Urea holds potential to improve N use efficiency (NUE) by reducing NO₃-N residence periods in the soil matrix and by synchronizing NO₃-N availability with crop N uptake. A shift towards greater Urea usage brings potential cost and transport savings over CAN. However, a challenge for greater adoption of Urea is potentially increased ammonia-N (NH₃-N) loss via volatilization, loss which contributes to eutrophication in aquatic and low-N input ecosystems through atmospheric transport and deposition. The present study is evaluating the performance of N source (CAN, Urea, and a CAN-Urea combination) and N inhibitor treatments (N-(n-butyl) thiophosphoric triamide and dicyandiamide in combination with Urea) for mitigating NH₃-N and nitrous oxide losses and for improving grassland N use efficiency in the temperate humid climate of Ireland.