Natural disasters generate loss of human and material lives each year, and landslides cause of emergency attention most frequently. The generating mechanisms can be natural or anthropic, and prolonged high-intensity rains with long periods of duration are the most effective trigger to produce landslides. This research presents a multitemporal analysis of slope treatment using bioengineering techniques. This study aims to provide the intervention of a landslide with tree species in a specific area of the coffee axis, correlating geological, soil, relief, and climate conditions. The methodology comprised three phases. The first phase consisted of determining the geotechnical and anthropic factors associated with instability problems. The second phase was a comparison between a traditional civil engineering design and a bioengineering design on the slope. Finally, a temporal analysis was conducted to determine the behavior of the work with native species that were used for erosion control. The results show a friendly alternative to the environment that can provide a similar solution to civil works developed with reinforced concrete. Thus, the first slope with bioengineering techniques is effective over time. The main contribution of this research is made by showing a way to reduce the risk of landslides through prevention, which occurs with unforeseen events to identify the causes of the instability of the slopes, and make affordable corrective works due to low costs and effective protection of the environment. Keywords: Soil Bioengineering, Biotechnical Works, Landslides DOI: https://doi.org/10.35741/issn.0258-2724.58.4.90
