The effect of vertical component is usually neglected in the design process of new structures. Some building codes, such as the Ecuadorian Standard (NEC-15), suggest a value of 2/3 of the horizontal component when the structure is located near an active fault; however, the definition of “near" remains under discussion.
Using the data recorded by the local strong motion network since 2009, a comparison with ground motion prediction equations (GMPEs) for the vertical component is performed. Data show that low-magnitude crustal events can generate vertical accelerations comparable to the ones observed on the horizontal counterparts. In this article, the city of Quito- Ecuador is chosen as a case study to demonstrate the effect of vertical acceleration in existing buildings. For this city, several earthquakes between 4.5 and 5.1 magnitudes, generated by a local fault system, have produced high accelerations. On the other hand, records of subduction earthquakes, including the 2016 megathrust Muisne event, are used to define appropriate distance metrics.