Hitting Close to Home | Global Warming is Fueling Extreme Weather Across the U.S.

Every year, weather-related disasters injure or kill hundreds of Americans and cause billions of dollars in damage. [1] Many of the risks posed by extreme weather will likely increase in a warming world. Scientists have already noted increases in extreme precipitation and heat waves as global warming raises temperatures and exacerbates weather extremes. [2]
   

Weather-related disasters affect millions 

  • Every Connecticut citizen lives in a county affected by at least one federally declared disaster weather disaster since 2010.
  • Since September 2010 Connecticut experienced seven weather-related disasters, including severe storms, tropical storms, snow and ice storms, and droughts.  

New Online Map Shows Weather-Related Disasters and Extreme Weather’s Personal Impact

Environment Connecticut’s new interactive extreme weather map shows weather-related disasters in the United States over the last five years and tells the stories of the people and communities who have endured some of those disasters

Map visitors can focus in on specific types of weather and even add their own stories of how extreme weather has affected their lives.


Extreme weather causes widespread destruction

  • In February 2015 a large winter storm and associated cold wave impacted many central, eastern and northeastern states, including Connecticut. The storm and cold wave caused at least 30 deaths and the total estimated costs were over $1 billion in the affected region. 
  • In October 2012 Hurricane Sandy caused extensive damage across Connecticut due to high wind and a coastal storm surge. Hurricane Sandy caused at least 159 deaths and the total estimated costs were $67.6 billion in the affected regions.
  • In September 2011 Tropical Storm Lee resulted in record flooding in the northeast, including Connecticut, and caused at least 21 deaths. The total estimated costs of Tropical Storm Lee were $2.7 billion. [3]


Weather extremes are becoming more common 

Globally, 2015 was Earth’s hottest year on record, surpassing 2014. [4] Many types of extreme weather are expected to become more frequent or severe in a warming world, which could lead to more weather-related disasters. 

  • Tropical Storms and Hurricanes: Global warming has the potential to make tropical storms more destructive. Hurricanes and other coastal storms are likely to be more powerful [5] and rainier, [6] while storm surges could be more destructive as sea levels rise. [7]
  • Heavy Rain and Snow: Extreme precipitation is already increasing; continued trends could increase the risk of intense downpours, heavy snowstorms and severe flooding. [8]
  • Droughts and Wildfires: While global warming is anticipated to bring more rain to some areas, it will also likely elevate temperatures and extend dry spells. The potential for stronger drought—and greater area burned by wildfires—will increase, particularly in the West and Southwest. 

Connecticut must continue to cut global warming pollution

To protect our children and our communities from a future of worsening extreme weather, Connecticut, its cities, and the nation should limit global warming pollution to levels consistent with the Paris Climate Agreement. The state has set a target of 35 to 45 percent below 1990 emissions by 2030 and 80 percent below 2001 emissions by mid-century. Continued leadership from Connecticut is essential. Essential steps include: 

  • Strengthen the Regional Greenhouse Gas Initiative. Connecticut should reduce regional power plant pollution by more than half in the next 15 years, capping emissions at less than 40 million tons per year by 2030. 
  • Maximize energy efficiency. Connecticut and its cities should expand energy efficiency programs and adopt net-zero energy building codes and retrofit standards. 
  • Shift to 100 percent clean power. Meeting our climate goals will require accelerating deployment of clean, renewable energy sources such as solar and offshore wind power. The state should increase its clean energy standard and extend it beyond 2020. 
  • Use clean energy for transportation and heating. Connecticut should shift energy for transportation and heating away from fossil fuels and toward electricity or other forms of clean energy. 
  • Keep dirty fuels in the ground. To protect the global climate and our health, the nation must cease construction of any new fossil fuel infrastructure and leave our coal, oil and gas reserves in the ground. 

 

For full methodology, citations and the online map, please visit www.EnvironmentConnecticut.org/ExtremeWeather 
For the downloadable PDF, click here.

Sources

[1] National Oceanic and Atmospheric Administration (NOAA), “Billion-Dollar Weather and Climate Disasters: Table of Events,” archived at https://web.archive.org/web/20151016175308/https://www.ncdc.noaa.gov/billions/events, accessed on 1 March 2016.
[2] E.M. Fischer and R. Knutti, “Anthropogenic Contribution to Global Occurrence of Heavy-Precipitation and High-Temperature Extremes,”Nature doi: 10.1038/NCLIMATE2617, 27 April 2015. 
[3] Inside Energy (IE), “Data: Explore 15 Years of Power Outages,” archived at http://insideenergy.org/2014/08/18/data-explore-15-years-of-power-outages/, accessed 1 March 2016.
[4] Rebecca Lindsey, “No Surprise, 2015 Sets New Global Temperature Record,” Climate.gov by NOAA, 1 March 2016.
[5] Gabriele Villarini and Gabriel Vecchi, “Projected Increases in North Atlantic Tropical Cyclone Intensity from CMIP5 Models,” Climate, 26: 3232-3240, doi: 10.1175/JCLI-D-12-00441.1, 24 October 2012.
[6] E. Scoccimarro et al., “Intense Precipitation Events Associated with Landfalling Tropical Cyclones in Response to a Warmer Climate and Increased CO2,” Climate, 27(12):4642-4654, doi: 10.1175/JCLI-D-14-00065.1, June 2014.
[7] C. Tebaldi, B. Strauss and C. Zervas, “Modelling Sea Level Rise Impacts on Storm Surges Along US Coasts,” Environmental Research Letters, 7(1), 14 March 2012.
[8] Donald Wuebbles et al., “CMIP5 Climate Model Analyses: Climate Extremes in the United States,” American Meteorological Society Journal, 95(4), April 2014.