Skip to Content.
Sympa Menu

permaculture - Re: [permaculture] News: Study: Ocean Microbes In Sea Spray Affect Atmosphere

permaculture@lists.ibiblio.org

Subject: permaculture

List archive

Chronological Thread  
  • From: Lawrence London <lfljvenaura@gmail.com>
  • To: permaculture <permaculture@lists.ibiblio.org>
  • Subject: Re: [permaculture] News: Study: Ocean Microbes In Sea Spray Affect Atmosphere
  • Date: Tue, 19 May 2015 04:18:58 -0400

Ocean spray controls more weather than you realize
http://www.slashgear.com/ocean-spray-controls-more-weather-than-you-realize-18384122/

"You can read more about this process in the paper "Microbial Control of
Sea Spray Aerosol Composition: A Tale of Two Blooms", as published by ACS
Central Science, authored by Xiaofei Wang, Camille M. Sultana, Jonathan
Trueblood, Thomas C. J. Hill, Francesca Malfatti, Christopher Lee, Olga
Laskina, Kathryn A. Moore, Charlotte M. Beall, Christina S. McCluskey,
Gavin C. Cornwell, Yanyan Zhou, Joshua L. Cox, Matthew A. Pendergraft,
Mitchell V. Santander, Timothy H. Bertram, Christopher D. Cappa, Farooq
Azam, Paul J. DeMott, Vicki H. Grassian, and Kimberly A. Prather. DOI:
10.1021/acscentsci.5b00148
<http://pubs.acs.org/doi/abs/10.1021/acscentsci.5b00148>"

On Tue, May 19, 2015 at 4:05 AM, Lawrence London <lfljvenaura@gmail.com>
wrote:

>
> http://news.brevardtimes.com/2015/05/study-ocean-microbes-in-sea-spray.html
>
> Study: Ocean Microbes In Sea Spray Affect Atmosphere
> Proteins and lipids from organic matter that make sea foam frothy when
> ocean water is agitated are also released into the atmosphere, which then
> affect cloud composition. Credit: *Brevard Times* / File.
>
> A factor that determines the properties of clouds that help moderate
> the planet’s temperature may be decided by ocean microbes contained in sea
> spray, according to a new study
> <http://pubs.acs.org/doi/pdfplus/10.1021/acscentsci.5b00148> published on
> Monday.
>
> A team of researchers led by scientists at UC San Diego found that the
> process by which marine bacteria consume phytoplankton has an apparent
> direct role in affecting cloud properties. As the bacteria feed,
> phytoplankton break down into component molecules such as fats and lipids.
> The molecules the bacteria leave unconsumed can become airborne as the
> ocean’s surface churns. Once in the atmosphere, these organic-enriched sea
> spray particles join dust and other particles, or aerosols, in becoming the
> framework for the drops of moisture that ultimately congeal into clouds.
>
> This conclusion, reported in the journal ACS Central Science May 18, comes
> nearly one year after researchers created a replica ocean on the campus of
> Scripps Institution of Oceanography, UC San Diego, to observe in a
> controlled setting the types of marine particles that contribute to cloud
> formation and possibly human health issues once they become airborne.
> Because cloud cover and precipitation are major variables in climate, the
> field of aerosol research has achieved increasing prominence in recent
> decades. Researchers say that understanding the dynamics of clouds is
> imperative for the creation of climate simulations that attempt to
> replicate atmospheric phenomena.
>
> “It is exciting to finally be able to find a connection between microbes
> in seawater and atmospheric sea spray,” said Kimberly Prather, a
> distinguished chair in atmospheric chemistry with appointments at Scripps
> and the Department of Chemistry and Biochemistry at UC San Diego. “These
> chemical changes ultimately affect the reflectivity of marine clouds and
> thus could have profound impacts on climate over a large portion of the
> planet.”
>
> Prather, who leads UC San Diego’s Center for Aerosol Impacts on Climate
> and the Environment (CAICE), and colleagues began with the observation that
> as plankton are broken down by bacteria, they can release many different
> insoluble fat-like compounds that later get aerosolized when waves break,
> producing sea spray. These chemicals include a vast array of molecules
> including proteins and their building blocks, as well as sugars and fats.
>
>
> Schematic for the pathways of organic enrichment in sea spray aerosol
> and their possible relationships with biological processes in seawater.
> Credit: CAICE
>
> But understanding the factors that control the transfer of chemicals from
> the ocean to the atmosphere in sea spray has proven elusive. Some previous
> studies have reported that phytoplankton are the chief driver of the
> organic content of sea spray, but this has not been consistently observed
> in field studies.
>
> The researchers sought to analyze sea spray in a controlled
> ocean-atmosphere environment to reveal which chemical components are
> transferred and when. The group recreated the ocean on a large experimental
> scale by importing 13,000 liters (3,400 gallons) of natural seawater from
> the California coast into a 33-meter-long tank that mechanically generates
> waves. Their results show that variations in the specific microbes in the
> bloom affected the concentrations of less water-soluble molecules such as
> lipids in seawater. In turn, bursting bubbles from the waves launched these
> molecules into the atmosphere.
>
> Prather said the study has provided a new understanding of the importance
> of the complex interactions between microbes in seawater and how they
> control the composition and cloud-forming ability of sea spray aerosol.
> Such information will help researchers build better climate models. Among
> the cloud properties influenced by this microbial process is the clouds’
> brightness. That brightness helps determine if solar energy is absorbed on
> Earth’s surface or reflected away from it, and thus influences temperature.
>
> Researchers say that, with the ability to generate sea spray aerosols in
> the laboratory during blooms, future studies will focus on developing a
> better understanding of the effects of biological compounds in sea spray on
> human health. Given that the biological compounds are inhaled by beachgoers
> and residents of coastal communities every day, their impacts could be
> substantial, but as of yet these effects are unclear.
>




Archive powered by MHonArc 2.6.24.

Top of Page