Last updated: January 25, 2021
Article
2019 Weather in Review: Fire Island National Seashore
Weather and climate play significant roles in driving both physical and ecological processes. For example, the active processes that shape the North Atlantic coastline are largely the result of meteorological events such as wind-driven waves. For research and long-term ecological monitoring, weather and climate data provide the potential for correlations to be made with observed physical and ecological pattern data.
This resource brief provides a summary of both historic and current (2019) weather and water level data for Fire Island National Seashore. Information in this brief represents county-scale weather data averaged from the county surrounding the park, Suffolk County, NY. Individual weather station data may vary from what is reported here. Data are available from the National Climate Data Center.
Temperature
Overall, 2019 was the 17th warmest year on record with an average temperature of 52.6 °F, 1.9 degrees above the normal average (Figure 1). Autumn and winter seasons fell within the "above normal" level and spring and summer reached the "much above normal" level as the 10th and 8th warmest seasons on record respectively. The warmest month was July with over 4 degrees above the normal monthly average (Table 1).
Month/ Year |
Average temperature (°F) | Departure from long-term average temperature (°F) |
January | 31.5 | +1.7 |
February | 33.8 | +3.6 |
March | 38.1 | +0.5 |
April | 50.7 | +3.7 |
May | 58.2 | +1.0 |
June | 67.9 | +1.5 |
July | 76.5 | +4.3 |
August | 72.8 | +1.9 |
September | 66.4 | +1.9 |
October | 57.3 | +3.1 |
November | 41.8 | -2.1 |
December | 36.6 | +2.4 |
2019 | 52.6 | +1.9 |
Precipitation
Overall, 2019 was the 22nd wettest year on record with a total level of 51.05 inches of precipitation (Figure 2, Table 2). Seasonally, the winter was near the normal amount, with summer falling to "much below normal" level. Both spring and autumn reaching almost "much above normal" levels as the 13th and 12th wettest seasons on record, respectively. Four months had less than average precipitation amounts including February, August, September and November, while December had the greatest amount at over three inches above the average.
Month/ Year |
Total precipitation (in) |
Departure from long-term average precipitation (in) |
January | 4.89 | +1.23 |
February | 3.26 | -0.21 |
March | 3.12 | -1.13 |
April | 6.13 | +2.23 |
May | 5.10 | +1.39 |
June | 4.31 | +0.93 |
July | 3.90 | +0.50 |
August | 3.46 | -0.49 |
September | 0.97 | -2.59 |
October | 6.32 | +2.68 |
November | 2.19 | -1.67 |
December | 7.40 | +3.33 |
2019 | 51.05 | +6.21 |
Temperature and Precipitation Trends (1895–2019)
Temperature and precipitation data are gathered from the U.S. Climate Divisional Database, which stores data from January 1895 to the present, and can be accessed via NOAA’s National Centers for Environmental Information (NCEI) website (Figure 3). Users can choose different geographic scales (i.e., global, national, statewide), different temporal scales, and display them in various types of graphical formats. Temperature and precipitation data presented in this brief are for Suffolk County, NY.
NCEI has placed each year and season into historical context by assigning a rank based on how the temperature and precipitation values compare within the entire record. The “below normal”, “near normal”, and “above normal” on Figures 1 and 2 represent the bottom, middle, and upper tercile (three equal portions) of the distribution of values from the entire record. The lowest and uppermost decile (10%) of the distribution are marked as “much below normal” and “much above normal”, respectively.
Wind
Data is downloaded from the Great South Bay Buoy #1, which among other parameters, records wind speed and direction (Figure 4). Each direction is divided up into categories called bins that are color coated to represent the frequency of a certain wind speed. The length of the bin represents the number of times wind comes from a given direction as well as the speed of the wind. The longer the length of the bin, the more frequent the given speed was recorded. This buoy and data are made possible by Charlie Flagg of Stony Brook University. More information about this initiative as well as other data products can be found at The Great South Bay Project website. Note, there are data gaps from January 1st through March 13th, and from April 7th through May 2nd.
Tide Levels
Water level data is collected from the NOAA NWLON station 8531680 on the high wave energy, ocean side of Fire Island. Located at Sandy Hook, NJ, this station has records dating back to 1910.
The data is graphed to show the difference in the predicted tide level verses what was observed (Figure 5). The offsets in height reflect the effect from storm surge on the normal, astronomically driven tide level.