As playing a critical feedback role to the atmosphere and closely relating to human life, land surface condition draws more and more attention since the 1990s. Based on satellite data and idealized model results, many previous studies stated that precipitation in the afternoon tends to occur when soil is wetter and where it is dryer. This is probably because of the convergence induced by spatial surface temperature heterogeneity and the subsequent updraft over dryer soil, as well as more available water vapor evaporated during wetter period. A recent study further shows that this negative “spatial soil moisture – precipitation feedback (spatial SM-P feedback)” may shift to positive when some soil conditions fulfill. Nevertheless, whether the development of both positive and negative spatial SM-P feedback emerges merely on the morning of the afternoon precipitation event or not is rarely discussed so far. It is because the lack of variables in observation that hard to be obtained globally, and because of the necessity of sufficient computational resources if using model. To act as a bridge between observation and model results, and figure out what had happened before the event day, ERA5, a state-of-the-art reanalysis data released only in recent years, is used in this study. Statistical results show that no matter the coupling is positive or negative, there is development of positive temperature and specific humidity anomaly, which can help destabilize the low atmosphere in the first place. The difference is that positive coupling moistens the air and accumulates energy which starts earlier due to the presence of richer soil moisture while the negative does it faster only on the event day with the help of fiercer convection that brings moisture in from the surroundings. This causes the moistening on the event day morning from the wet surface up to the atmosphere under positive cases while causing the moistening first happened in the atmosphere then down to the dry surface under negative ones. Though applying only one reanalysis data and not including firm causality, this study highlights the importance of the preconditions in the previous days. This may help improve the knowledge of spatial SM-P feedback, which may apply to forecasts on short to medium range, and climate change.