The 2020 Atlantic hurricane season is one for the record books. There were two storms in May, before the season’s official start\u00a0on June 1.\u00a0 This is the first year since storm record-keeping began in 1851, in which nine (9) named tropical cyclones have formed before August and thirteen (13) before September. Exceptionally warm ocean water, due in part to climate change, is driving the\u00a0record activity. It is irrefutable that there are\u00a0strong ties between climate change and more destructive Atlantic hurricanes.<\/p>\n
An active hurricane season is especially dangerous this year because of the compounded public health risks that evacuations or displacements\u00a0cause as COVID-19 continues to spread globally.\u00a0 This is furtherexacerbated by unemployment and the economic recession.<\/p>\n
Climate science at a glance<\/strong><\/p>\n Background information<\/strong><\/p>\n What factors influence hurricane development?<\/strong><\/p>\n Hurricane development requires heat energy from the ocean and low wind shear.\u00a0Wind shear\u00a0is often the most critical factor controlling hurricane formation and destruction. In general, wind shear refers to any change in wind speed or direction along a straight line. In the case of hurricanes, wind shear is important primarily in the vertical direction, from the surface to the top of the troposphere. When wind speed and direction changes significantly with height, this creates a shearing force that tends to tear storms apart. Wind shear is often low during the summer and fall from the coast of Africa through the Caribbean where Atlantic hurricanes form, increasing the chance\u00a0of hurricane formation.<\/p>\n What were recent seasons like and how were communities impacted?<\/strong><\/p>\n Storms attained Category 5 strength in four (4) straight years from 2016 through 2019 for the first time on record in the satellite era of storm monitoring (dating to the 1960s).\u00a0 2019’s Hurricane Dorian\u00a0tied for the second-strongest storm recorded in the Atlantic Ocean, with winds of 185 mph.\u00a0Hurricane Michael in 2018 made landfall at the Florida Panhandle at Category 5 strength making it one of the strongest landfalling hurricanes in US\u00a0history. In 2017,\u00a0Hurricanes Harvey, Irma and Maria ranked among the costliest hurricanes in history and affected millions of people in Texas, Louisiana, southwest Florida, North Carolina, Puerto Rico, Dominica and Puerto Rico.<\/p>\n The impacts of recent storms\u00a0disproportionately harmed poor communities, black communities, and communities of color.\u00a0These communities in the US and elsewhere contribute the least to the emissions that cause climate change but stand to suffer the most because of systemic and structural inequities that keep incomes low, make neighborhoods vulnerable to flooding, and limit access to medical care. \u00a0Poor people and people of color were disproportionately harmed during Hurricanes\u00a0Katrina,\u00a0Harvey, and\u00a0Florence. Puerto Rico and Dominica are\u00a0still recovering\u00a0from Hurricane Maria.<\/p>\n Climate signal breakdown<\/strong><\/p>\n Climate signal #1:\u00a0Increased storm surge<\/strong><\/p>\n Climate change can lead to increases in storm surge due to rising seas, increasing storm size, and increasing storm wind speeds. \u00a0Historically, storm surge has been the most important impact of tropical cyclones in coastal regions. \u00a0From 1963 to 2012, storm surge caused 49 percent of hurricane deaths, with rain accounting for 27 percent. \u00a0However, from 2016 to 2018,\u00a0extreme precipitation, not storm surge, was the top source of hurricane-related deaths.<\/p>\n Climate change has already contributed about 6.3 inches (0.16 meters)\u00a0to global sea level rise, and this has dramatically amplified the impact of hurricanes by\u00a0increasing baseline elevations for storm surge. \u00a0A small vertical increase in sea level can translate into a very large increase in horizontal reach by storm surge depending upon local topography. Storm surge worsened by climate change\u00a0increased the area flooded and infrastructure damaged during Hurricanes Florence,\u00a0Sandy, and Katrina.<\/p>\n Climate signal #2: Extreme precipitation<\/strong><\/p>\n One of the clearest changes in weather globally is the increasing frequency of extreme precipitation events. Warmer air can hold more moisture, which increases the amount of water available for storms to dump out as rain. \u00a0The fingerprint of global warming has been identified in increasing hurricane rainfall rates.<\/p>\n Storms reach out and\u00a0gather water vapor over regions that are 10-25 times as large as the precipitation area, thus multiplying the effect of increased atmospheric moisture. \u00a0As water vapor condenses to form clouds and rain, the conversion releases heat that adds buoyancy to the air and further fuels the storm. \u00a0This increases the gathering of moisture into storm clouds and further intensifies precipitation.<\/p>\n Over the period from 1994-2008, extreme precipitation events linked to hurricanes accounted for more than 33 percent of the observed increase in heavy events across the US. \u00a0The Southeast in particular saw a 40 percent increase in the amount of precipitation falling in the heaviest events, and 100 percent of this increase is linked to hurricane events.<\/p>\n Scientists have found that global warming increased rainfall for many individual tropical storms and hurricanes, including:<\/p>\n Ivan (2004)<\/p>\n Katrina (2005)<\/p>\n Sandy (2012)<\/p>\n Harvey (2017)<\/p>\n Irma (2017)<\/p>\n Maria (2017)<\/p>\n Florence (2018)<\/p>\n Imelda (2019)<\/p>\n Climate signal #3:\u00a0Intense Atlantic hurricane frequency increase<\/strong><\/p>\n Due to global warming and the corresponding increase in global ocean temperatures, a\u00a0greater proportion of tropical cyclones around the world are attaining major storm intensity. \u00a0The close correlation between observed trends in recent sea surface temperatures and observed trends in the intensity of tropical cyclones reflects the link between warming ocean temperatures and stronger storms.<\/p>\n Scientists have also identified the fingerprint of climate change in the increase in the number of hurricanes occurring in the North Atlantic since the 1980. \u00a0The Fourth National Climate Assessment states, \u201cIncreases in greenhouse gases and decreases in air pollution have contributed to increases in Atlantic hurricane activity [frequency and intensity] since 1970.\u201d<\/p>\n Climate signal #4:\u00a0Hurricane\u00a0steering change<\/strong><\/p>\n Hurricane motion is broadly\u00a0governed by large scale weather patterns and air flows called steering winds or steering currents.\u00a0 Hurricane steering is one of many measures of hurricane activity in the Atlantic that has changed since the\u00a01970s.<\/p>\n Climate signal #5: Increase in rapid intensification<\/strong><\/p>\n Climate change is making dangerous rapidly intensifying hurricanes\u00a0more common.\u00a0Many recent Atlantic\u00a0hurricanes\u00a0(2020’s Laura and also Harvey, Irma, Maria, and Michael) have undergone periods of rapid intensification before making landfall. A study from 2018 shows an increase of\u00a04.4 mph per decade\u00a0in Atlantic\u00a0hurricane\u00a0intensification from 1986 to 2015. \u00a0A\u00a02019 study\u00a0similarly shows an\u00a0increase in rapid intensification during the period 1982 – 2009 and finds\u00a0the trend can only be explained by including human-caused climate change\u00a0as a contributing cause. \u00a0The largest change occurred in the strongest five percent(5%)\u00a0of storms: for those, 24-hour intensification rates increased by about 3 \u2013 4 mph per decade between 1982 \u2013 2009.<\/p>\n Source: Climate Signals Beta, 2020 (www.climatesignals.org)<\/p>\n \n","protected":false},"excerpt":{"rendered":" The 2020 Atlantic hurricane season is one for the record books. There were two storms in May, before the season’s […]<\/p>\n","protected":false},"author":165,"featured_media":21672,"comment_status":"open","ping_status":"open","sticky":false,"template":"","format":"standard","meta":{"_acf_changed":false,"footnotes":""},"categories":[3192],"tags":[3203,3255,3257,3256,3258],"class_list":["post-21661","post","type-post","status-publish","format-standard","has-post-thumbnail","hentry","category-cdap-disaster-bulletin","tag-atlantic-hurricane-season","tag-climate-change","tag-hurricane-steering","tag-storm-surge","tag-wind-shear"],"acf":[],"aioseo_notices":[],"featured_image":"https:\/\/carilec.org\/wp-content\/uploads\/2020\/10\/landscape-water-nature-outdoor-mountain-cloud-385602-pxhere.com_-e1602647551526.jpg","month_date":"Oct","day_date":"13","_links":{"self":[{"href":"https:\/\/carilec.org\/api\/wp\/v2\/posts\/21661","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/carilec.org\/api\/wp\/v2\/posts"}],"about":[{"href":"https:\/\/carilec.org\/api\/wp\/v2\/types\/post"}],"author":[{"embeddable":true,"href":"https:\/\/carilec.org\/api\/wp\/v2\/users\/165"}],"replies":[{"embeddable":true,"href":"https:\/\/carilec.org\/api\/wp\/v2\/comments?post=21661"}],"version-history":[{"count":0,"href":"https:\/\/carilec.org\/api\/wp\/v2\/posts\/21661\/revisions"}],"wp:featuredmedia":[{"embeddable":true,"href":"https:\/\/carilec.org\/api\/wp\/v2\/media\/21672"}],"wp:attachment":[{"href":"https:\/\/carilec.org\/api\/wp\/v2\/media?parent=21661"}],"wp:term":[{"taxonomy":"category","embeddable":true,"href":"https:\/\/carilec.org\/api\/wp\/v2\/categories?post=21661"},{"taxonomy":"post_tag","embeddable":true,"href":"https:\/\/carilec.org\/api\/wp\/v2\/tags?post=21661"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}\n