Understanding groundwater recharge mechanisms is essential for reliable groundwater recharge estimation for sustainable groundwater resource assessment and management, especially in arid and semiarid areas. In this study, chloride, together with stable isotopes ( 18 O and 2 H), in 1-year rainfall, soil water from representative profiles, and groundwater samples, collected in the Ordos Plateau, northern China were analysed. Groundwater recharge was estimated using unsaturated-and saturated-zone chloride mass balance (CMB). An equation that describes the relationship between chloride concentrations in saturated zone water (C sz ) and soil water residence time (τ) was derived. With the help of the relationship, chloride concentrations in unsaturated zone water (C uz ) and in groundwater (C sz ) can be used to uncover water flow and chloride transport in the unsaturated zone. The relationship between C sz and C uz indicates that, the groundwater was recharged mainly by intense rainfall events. Small rainfall events did not lead to groundwater recharge but contributed to the flux of chloride to soil surface. Stable isotopic compositions of 18 O and 2 H provided corroborative evidence of the recharge processes. The relationship between C sz and τ indicates further that there is no source of chloride in the groundwater other than that from precipitation. Thus, C sz can give more reliable recharge estimates. C uz was influenced by heavy rainfall-induced runoff, run-on and bypass flow events and cannot give reliable recharge estimates. However, if used jointly with C sz , C uz can help to gain insights into recharge processes and yield groundwater recharge estimates with higher certainty. The outcomes of this study can assist for groundwater recharge investigation and assessment in regions where the assumptions and boundary conditions necessary for the correct application of the CMB method may not be met. K E Y W O R D S chloride mass balance, groundwater recharge, saturated zone, semiarid and arid areas, unsaturated zone 1 | INTRODUCTION Groundwater is an important water resource for both domestic and agricultural purposes. Due to climate changes (Berdugo et al., 2020; Huang et al., 2017) and anthropogenic pressures (Chen et al., 2019; Rulli et al., 2013), especially arid and semiarid areas are likely to experience increased water stress in the coming decades (Gleeson