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Abstract Kagome materials are of topical interest for their diverse quantum properties linked with correlated magnetism and topology. Here, we report anomalous hydrostatic pressure (p) effect on ErMn₆Sn₆through isobaric and isothermal-isobaric magnetization measurements. Magnetic field (H) suppresses antiferromagneticT_Nwhile simultaneously enhancing the ferrimagneticT_Cby exhibiting dual metamagnetic transitions, arising from the triple-spiral-nature of Er and Mn spins. Counter-intuitively, pressure enhances bothT_CandT_Nwith a growth rate of 74.4 K GPa⁻¹and 14.4 K GPa⁻¹respectively. Pressure unifies the dual metamagnetic transitions as illustrated throughp-Hphase diagrams at 140 and 200 K. Temperature-field-pressure (T-H,T-p) phase diagrams illustrate distinct field- and pressure-induced critical points at (T_cr= 246 K,H_cr= 23.3 kOe) and (T_cr= 435.8 K,p_cr= 4.74 GPa) respectively. An unusual increase of magnetic entropy by pressure aroundT_crand a putative pressure-induced tricritical point pave a unique way of tuning the magnetic properties of kagome magnets through simultaneous application ofHandp.