Lightning is an intensely energetic phenomena that causes substantial loss of life and property. Lightning also perturbs atmospheric composition that regulates the natural cleansing power of the atmosphere and plays a key role in the natural fire cycle of ecosystems. Lightning changes the atmospheric composition by emitting nitrous oxides, a gas that contributes to the Earth’s warming in the ozone. Microscopic particles in the atmosphere, known as aerosols, act as cloud condensation nuclei (CCN). More aerosol particles, such as due to air pollution, lead to more, smaller cloud droplets when clouds form. More, smaller cloud droplets have been theorized to cause more collisions between cloud ice and liquid droplets and thus more charge separation in cumulonimbus (or thunderstorm) clouds which may be correlated with a greater frequency of lightning. We are analyzing global patterns in lightning frequency that may be influenced by variations in aerosol particle pollution. We are using data from the World-Wide Lightning Location Network (WWLLN), a network of stations that detects lightning from the specific frequencies of electromagnetic radiation it emits and that travel through the atmosphere. Our results indicate that some tropical urban areas have an increased lightning frequency, up to a factor of 7, when compared to the surrounding area. The results suggest that human activity can be linked with increased lightning with implications for climate, air quality, and wildfire frequency.