Datasets

Data Availability Name Description Objective Dates
Description onlyNH OzoneMeasured ambient concentrations of ozone pollution to determine compliance with the National Ambient Air Quality Standard. Sample duration is 1-hour.1986-04-01 (ongoing)
DownloadableNY OzoneMeasured ambient concentrations of ozone pollution to determine compliance with the National Ambient Air Quality Standard. Sample duration is 1-hour.1986-04-01 (ongoing)
DownloadableOzone Concentration in Bennington and Underhill, Vermont (8-hour average)Measured ambient concentrations of ozone pollution to determine compliance with the National Ambient Air Quality Standard. Sample duration is 8-hour average.Determine compliance with 8-hour National Ambient Air Quality Standard (0.070ppm) at air quality monitoring site in Bennington and Underhill, Vermont.1987-03-01 (ongoing)
DownloadableOzone Concentration in Bennington, Vermont (Hourly sample)Measured ambient concentrations of ozone pollution to determine compliance with the National Ambient Air Quality Standard. Sample duration is 1-hour.Determine compliance with 8-hour National Ambient Air Quality Standard (0.070ppm) at air quality monitoring site in Bennington, Vermont1987-04-01 to 2018-09-30
DownloadableOzone Concentration in Underhill, Vermont (Hourly Sample)Measured ambient concentrations of ozone pollution to determine compliance with the National Ambient Air Quality Standard. Sample duration is 1-hour.Determine compliance with 8-hour National Ambient Air Quality Standard (0.070ppm) at air quality monitoring site in Underhill, Vermont1995-01-01 to 2017-06-30
DownloadableVT OzoneMeasured ambient concentrations of ozone pollution to determine compliance with the National Ambient Air Quality Standard. Sample duration is 1-hour.Ground-level ozone is formed through a chemical reaction between air-born organic compounds (VOCs) and nitrogen oxides (NOx) when exposed to sunlight1. High levels of ozone exposure can cause leaf damage, which can reduce the efficiency of processes such as photosynthesis. Foliar damage due to ozone exposure is the first visible sign of injury, and indicates impaired physiological processes in the leaves1. For some trees, ozone exposure can increase the likelihood of secondary stressors, like damage caused by diseases, insects, or weather events. Ozone is expressed as the average concentration (in parts per million) between the hours of 8:00 am and 8:00 pm2 from April 1 to September 30. Due to regulations, ground-level ozone pollution has improved gradually over the past decade.1990-04-01 (ongoing)