This review discusses precision agriculture techniques that help reduce the effects of soil degradation and improve soil health, based on an analysis of studies published in scientific databases such as Web of Science, Scopus, IEEE Xplore, Google Scholar, and ScienceDirect, with an emphasis on recent field research. The methodology included a qualitative analysis of case studies and application experiments in different areas to evaluate the impact of technologies such as controlled traffic farming (CTF), mechanized guidance (MG), precision fertilization (PF), precision irrigation (PI), conservation tillage (CT), and precision tillage (PT). Research results showed, CT to maintain soil structure and reduce organic matter loss increases soil fertility in the long run. MG systems increase the efficiency of agricultural resource use and reduce field congestion, which improves soil health. However, by reducing unnecessary movement of agricultural equipment, CTF reduces soil degradation. In addition, PI and PF provide nutrients and water to plants in a balanced manner, which improves plant health and reduces environmental pollution; this, in turn, reduces soil degradation.
