The Sava Bohinjka River is a major tributary of the Sava River that is experiencing eutrophication caused by high nutrient loading, leading to oxygen depletion. Determining the intensity of nutrient pollution and identifying nutrient sources in the Sava Bohinjka catchment is desirable for understanding nutrient dynamics and for informing water quality management strategies. This study analysed the catchment using the Generalized Watershed Loading Functions (GWLF) model. The model was calibrated and validated with measured hydrological and water quality data collected at the catchment outlet. The calibrated GWLF model was used to simulate Discharge, total nitrogen (TN), and total phosphorus (TP) at the outlet from the Sava Bohinjka River catchment till its confluence with the Jezernica River (i.e., Sub-catchment 1), from 2007 to 2021. Model performance was evaluated using statistical measures such as coefficient of determination (R2 ), Nash Sutcliffe Efficiency (NSE), percent bias (PBIAS), and Root Mean Standard Deviation Ratio (RSR). The normality of the residuals between observed and simulated values was checked using Jarque-Bera (JB) test and Q-Q plot. All performance ratings were within acceptable range. The results showed that the mean annual TN and TP from the Subcatchment 1 were 21.7 and 0.38 kg/ha, respectively. Groundwater was identified as the primary contributor to the overall TN load, while pastures were the main source of TP load. Per unit surface area, cropland contributed the highest nutrient loads, while forests had minimal nutrient export. Comparing the nutrient loads from the Sub-catchment 1 and from Lake Bled, higher TN export was found in the former, while the latter appeared to be a distinctive contributor of TP.