Abstract

Since the mid-1950s, native pines in the San Bernardino Mountains (SBM) in southern California have shown symptoms of decline. Initial studies in 1963 showed that ozone (O₃) generated in the upwind Los Angeles Basin was responsible for the injury and decline of sensitive trees. Ambient O₃ decreased significantly by the mid-1990s, resulting in decreased O₃ injury and improved tree growth. Increased growth of trees may also be attributed to elevated atmospheric nitrogen (N) deposition. Since most of the N deposition to mixed conifer forest stands in the SBM results from dry deposition of nitric acid vapor (HNO₃) and ammonia (NH₃), characterization of spatial and temporal distribution of these two pollutants has become essential. Although maximum daytime O₃ concentrations over last 40 years have significantly decreased (~3-fold), seasonal means have been reduced much less (~1.5-fold), with 2-week long means occasionally exceeding 100 ppb in the western part of the range. In the same area, significantly elevated concentrations of HNO₃ and NH₃, up to 17.5 and 18.5 μg/m³ as 2-week averages, respectively, have been determined. Elevated levels of O₃ and increased N deposition together with long-term drought predispose the SBM forests to massive bark beetle attacks making them susceptible to catastrophic fires.