Purpose Respiratory‐correlated 4D‐MRI may provide motion characteristics for radiotherapy but is susceptible to irregular breathing. This study investigated the effectiveness of visual biofeedback (VBF) guidance for breathing regularization during 4D‐MRI acquisitions on an MR‐linac. Methods A simultaneous multislice‐accelerated 4D‐MRI sequence was interleaved with a one‐dimensional respiratory navigator (1D‐RNAV) in 10 healthy volunteers on a 1.5T Unity MR‐linac (Elekta AB, Stockholm, Sweden). Volunteer‐specific breathing amplitudes and periods were derived from the 1D‐RNAV signal obtained during unguided 4D‐MRI acquisitions. These were used for the guidance waveform, while the 1D‐RNAV positions were overlayed as VBF. VBF effectiveness was quantified by calculating the change in coefficient of variation (CVdiff$$ {\mathrm{CV}}^{\mathrm{diff}} $$) for the breathing amplitude and period, the position SD of end‐exhale, end‐inhale and midposition locations, and the agreement between the 1D‐RNAV signals and guidance waveforms. The 4D‐MRI quality was assessed by quantifying amounts of missing data. Results VBF had an average latency of 520 ± 2 ms. VBF reduced median breathing variations by 18% to 35% (amplitude) and 29% to 57% (period). Median position SD reductions ranged from −3% to 35% (end‐exhale), 29% to 38% (end‐inhale), and 25% to 37% (midposition). Average differences between guidance waveforms and 1D‐RNAV signals were 0.0 s (period) and +1.7 mm (amplitude). VBF also decreased the median amount of missing data by 11% and 29%. Conclusion A VBF system was successfully implemented, and all volunteers were able to adapt to the guidance waveform. VBF during 4D‐MRI acquisitions drastically reduced breathing variability but had limited effect on missing data in respiratory‐correlated 4D‐MRI.