Prolonged exposure to 10 microns particulate matter (PM10) is associated with an increase in heart and lung diseases in the susceptible population. The city of Bogotá has been characterized in recent years by presenting air quality alerts related to particulate matter, with Kennedy (LK) being one of the most polluted. Additionally, the ecological connectivity of this area has been diminished due to changes in land use. Therefore, it is necessary to implement strategies focused on improving air quality and increasing the connectivity of the main ecological structure of the town and especially in densely populated and polluted areas. This research designs by means of geographic information systems an ecological corridor that supports the connectivity of the main ecological structure. Proposing an arborization strategy that at the same time favors the reduction of PM10 concentrations in LK. For which tree species capable of adapting to the environmental conditions of the southwestern polygon are identified. Sixteen species were selected, taking into account the optimal distance, the proximity to bodies of water and parks, the connectivity with the main ecological structure and also avoiding the loss of ecosystem services already present in the area. The results show that it is possible to generate a considerable decrease in PM10 and in turn a connection between the wetlands El Techo, El Burro and La Vaca, and El Lago Timiza.