News / World News

    Giant sea salt aerosols play major role in Hawaii's coastal clouds, rain

    Despite their tiny sizes, aerosols — such as sea salt, dust and ash — play a significant role in shaping weather and climate. These particles scatter light, act as the starting point for cloud formation and can even initiate or limit rainfall.



    Plumes of sea salt aerosol entering the Ko'olau Mountains from a large swell on Hawaii's North Shore. Photo: Katie Ackerman


    Now, a study published by scientists at the University of Hawai'i at Mānoa reveals that the coastline can produce up to five times the concentration of giant sea salt aerosols compared to the open ocean and that coastal clouds may contain more of these particles — affecting cloud formation and rain around the Hawaiian Islands.

    "Aerosol-cloud interactions and rainfall are among the biggest uncertainties in projections of future climate," said Katherine Ackerman, lead author of the study. "Because freshwater is essential to the sustainability of life on the Hawaiian Islands, it is imperative to accurately predict where and how much it will rain as our climate changes."

    Alison Nugent, an atmospheric scientist and senior author of the study, and the team developed a lightweight and affordable 3D-printed instrument that measures aerosol size distributions rather than only aerosol concentration or mass, like many other sampling methods.

    They attached the device to kites, fishing rods and drones to sample how giant sea salt size distributions vary across different altitudes, locations from the coastline and a wide variety of environmental conditions.

    "Regular in situ observation of clouds is difficult because of the effort involved with reaching them," said Nugent.

    "So instead, much of our current research has focused on the giant sea salt particles that Hawaii's clouds form on and understanding the specific mechanisms that influence how they are produced and where they are able to travel after production."

    Ackerman added that "we identified the coast as a major source of giant sea salt aerosols which is important in understanding how they impact our coastal clouds.

    Their large size means they fall out of the atmosphere a lot faster than other aerosol types, so identifying their production locations is important in quantifying their potential impacts on the local atmosphere."

    The researchers also found that wave heights were the biggest predictor of giant sea salt aerosol concentrations. (U.S. National Science Foundation)

    JANUARY 28, 2024



    YOU MAY ALSO LIKE

    A new, comprehensive analysis of satellite data finds that majority of glaciers on the landmass have retreated significantly.
    Earth’s average surface temperature in 2023 was the warmest on record, according to an analysis by NASA.
    Human activities are making Earth's air, soil and freshwater saltier.
    The Arctic's status as a significant carbon reservoir faces a stark revelation as new findings illuminate the complex interplay between river runoff, thawing permafrost, and the region's ability to absorb and release CO2.
    The waiting is over. After weeks of ominous earthquake swarms and warnings from geologists about the possibility of an eruption, lava began to pour from a new fissure on the Reykjanes Peninsula in southwestern Iceland late on December 18, 2023.
    A long-term Arctic biological data set maintained by University of Maryland Center for Environmental Science (UMCES) scientists has been instrumental in determining the cause of a series of die-offs of eastern Pacific gray whales.

    © 1991-2024 The Titi Tudorancea Bulletin | Titi Tudorancea® is a Registered Trademark | Terms of use and privacy policy
    Contact