FUTURE: rising sea levels, strengthening storms, and changing precipitation in Monmouth County3/23/2018 Climate changes and the local environment: Monmouth County spans across the lower portion of the neck of New Jersey, extending to the eastern coastline. A 2011 report from Columbia University identifies sea level, storm surge, and precipitation, all of which are expected to increase within the next century, as primary climate change associated concerns for New Jersey’s coastal areas. High concentrations of long-lived greenhouse gases like carbon dioxide and methane in the atmosphere are causing warmer global temperatures. The result is thermal expansion and melting glacier mass that contribute to an increase in sea levels. Sea levels along the Jersey Shore have already risen 0.36 meters in the last century, and that number will increase sixfold to 2 meters by 2100. Moreover, a 2ºC increase in global temperatures will further this sea level increase to 4.7 meters. The renown beaches of the area will cease to exist as a result of sea level rise, negatively affecting marine life. Resulting higher flood levels will also disrupt wetlands and terrestrial life further in the county as they become open water. Plant composition and communities will, in fact, change, a disruption that will resonate with other organisms. Warming global temperatures will also increase the amount of precipitation the county will experience. Early snowmelt will make for wetter winter and spring months though this will actually intensify summer dryness. The warmer ocean surface temperatures are also likely to increase both the frequency and intensity of hurricanes that hit the area. Hurricanes increase both in frequency and in strength with warming sea surface temperature (SST). Projections predict more hurricanes like 2011’s Irene and 2012’s Sandy, both of which disrupted activity in Monmouth County, mostly due to flooding. How we know: These projections primarily rely on two tools that are freely accessible online: the National Oceanic and Atmospheric Administration (NOAA) Climate Explorer app, and the Climate Central Surging Seas, Mapping Choices app. The Climate Explorer tool uses weather information recorded by meteorological instruments at weather stations to reconstruct past climate changes. It uses supercomputer simulations of future climate changes under both high and low emissions scenarios. The Surging Seas tool combines historic flood statistics and local sea level trends with global scenarios of sea level increases, which were compiled in the 2014 U.S. National Climate Assessment. Human consequences: The continuing increase in global temperatures will impact important industries, local businesses, and homes significantly as sea levels rise due to warming oceans and melting glacier mass. Beach erosion will contribute to much of the blow the region receives since they serve as a great source of revenue for the area by attracting tourists and allowing the growth of local businesses. The county’s coastal lakes are also integral in its commercial and recreational activities, and significant changes in the waters present an alarming concern for Monmouth county inhabitants. Notably, the shellfish industry that makes up 66% of New Jersey’s commercial fishing revenue is at risk as the population of such organism decrease as a result of ocean acidification. Similarly, homes along the coast will be destroyed due to greater storm surges. Over 9,000 homes ($5 billion in property value) housing 18,000 people will be at a 97% risk if Monmouth County sea levels reach the projected 4.7 meters. Thus, the livelihood of the county’s coastal inhabitants is in danger due to anthropogenic global warming leading to rising sea levels and flooding. The impacts of these climate change related changes will be especially hard-felt among low-income communities who have a high vulnerability. Moreover, hazardous waste sites that in areas predicted to experience high level of flooding present an additional worry for Monmouth County as flood waters can release harmful materials. While 2100 and the projected sea level and flooding changes seem far away, the threat they pose calls for immediate action. New Jersey has taken several mitigation measures to increase the resilience of its inhabitants. However, these efforts only confer higher taxes on the population in order to push forward rebuilding initiatives. Further reading: Article author: Armelle Déjoie, Georgetown University
Article editor: Dr. Dagomar Degroot, Georgetown University
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Climate changes and the local environment:Genesee County, Michigan has warmed steadily for more than a century. Although average annual temperatures in the state have climbed more slowly than the global trend, they have still risen by around 0.6° C (1.1° F) relative to twentieth-century averages. Michigan is known for its long and snowy winter seasons. Rising temperatures, however, have sharply shortened the length of winter across the state. The total number of days in the winter season with at least 2.5 cm (1 inch) of snow cover has declined sharply since 1920, with most of the decline happening since 1980. As winter grows shorter, snow falls less frequently. Yet that does not necessarily mean that winters have become less snowy across the state. Snowfall trends from county to county vary widely, in large part because water in the nearby Great Lakes cools more slowly than air. If the lakes are largely ice-free, warm water can heat up otherwise cool air blowing into Michigan. The air then absorbs moisture and deposits it as "lake-effect" snow in some, but not all of, Michigan. Now that the Great Lakes are ice-free for much longer than they were, on average, in the twentieth century, blizzards have grown more common in Michigan even as winters have grown shorter. Overall, precipitation in all seasons has increased across Michigan, at a rate of roughly 1.5 mm/year since the 1930s. Much of the increase has come not through extreme events, but a steady rise in wet days that follow wet days. There are signs that cloudiness is now more frequent than it was in the twentieth century. In this context, Genesee County in Michigan has recently endured particularly extreme and destructive weather. In March 2012, for example, temperatures in a normally cold month soared to a record-shattering 31° C (88° F). In January 2014, a severe snowstorm dropped 18 inches of snow on the county, the second-heaviest fall since 1975. How we know:These reconstructions rely on the National Oceanic and Atmospheric Administration (NOAA) State Annual and Seasonal Time Series and a freely available report, "Historical Climate Trends in Michigan and the Great Lakes Region," by Dr. Jeffrey Andresen of the Department of Geography at Michigan State University. NOAA's State Annual and Seasonal Time Series relies largely on weather station measurements. Adresen's report largely draws on data collected by weather instruments but also includes information from other sources, such as observations from aircraft. Human consequences:Heat waves and blizzards brought about by rising temperature trends have imposed high costs on Michigan, including Genesee county. Nation-wide statistics suggest that the elderly, especially those with limited mobility and insufficiently insulated or air conditioned houses, are in great danger during both extreme heat and blizzards. Heat waves can also damage roads and train tracks, impose strains on energy and water resources, and lower crop yields if they arrive in key development stages. Yet in Michigan, a trend towards wetter weather may also have had beneficial impacts for regional agriculture. Computer simulations show that increases in soil moisture available to corn at mid-season, and a rise in plant-available water in the soil profile over the whole season, have both increased corn yields across Michigan. Until now, global warming has therefore had a complex mix of beneficial and destructive impacts on Michigan, and therefore on Genesee county. Article author: Diana Lowitt, Georgetown University
Article editor: Dr. Dagomar Degroot, Georgetown University |