Understanding the spatial variability of groundwater recharge in response to distributed Land-use, soil texture,  topography, groundwater level, and hydrometeorological parameters is significant when considering the safety of  groundwater resource development. Thus, this study aimed to estimate the groundwater recharge of the Waja-Golesha  watershed, in northern Ethiopia using the WetSpass (Water and Energy Transfer between, Soil, Plants, and Atmosphere  under quasi Steady State) hydrological model. The model inputs are prepared in the form of 20m grid size maps and  attribute tables. The model parameters table was prepared using expert knowledge and scientific literature. The  modeling results of long-term spatial-temporal annual rainfall of 664.5 mm were fractionated as 161.5 mm (24%) of  runoff, 438.2 mm (71%) evapotranspiration, and the remaining 29 mm (5%) of groundwater recharge. From the entire  area of the sub-basin (532.6 km2), 1.6*105 cubic meters (m3) of water was added to the groundwater through  infiltration. The seasonal distribution of the recharge indicates that 72% occurred in the wet season while the rest 28%  resulted in the dry season. The evaluation of the modeled output indicates that WetSpass works well to model the  groundwater recharge of the Waja-Golesha sub-basin. To preserve the resource's long-term viability, the balance  between groundwater recharge and projected abstraction rates for agriculture and domestic water supply must be  considered in future groundwater resource development plans in the watershed.