{"id":30071,"date":"2018-08-22T10:53:43","date_gmt":"2018-08-22T14:53:43","guid":{"rendered":"https:\/\/www.fondriest.com\/news\/?p=30071"},"modified":"2018-08-22T11:39:59","modified_gmt":"2018-08-22T15:39:59","slug":"biological-surfactants-reducing-atlantic-ocean-co2-exchange","status":"publish","type":"post","link":"https:\/\/www.fondriest.com\/news\/biological-surfactants-reducing-atlantic-ocean-co2-exchange.htm","title":{"rendered":"Biological Surfactants Reducing Atlantic Ocean CO2 Exchange"},"content":{"rendered":"

Recent research<\/span><\/a> from scientists in the UK reveals that the rate of CO<\/span>2<\/span> exchange between the Earth’s atmosphere and oceans is reduced by an invisible layer of biological surfactants on the water’s surface. This development will impact scientific forecasts of future climate change conditions.<\/span><\/p>\n

Around the world, our oceans are hard at work, absorbing about one-quarter of all anthropogenic CO<\/span>2<\/span> emissions. This ability to soak up CO<\/span>2<\/span> from the air makes our oceans the biggest long-term carbon sink on Earth. However, turbulence and wave action affect how quickly the atmosphere-ocean exchange of CO<\/span>2<\/span> happens.<\/span><\/p>\n

The research team, in this case, set out to determine how biological surfactants, naturally-occurring byproducts from, for example, phytoplankton and zooplankton grazing and excreting, affects this CO<\/span>2<\/span> exchange. To do this, they designed an innovative experimental system to compare the \u201csurfactant effect\u201d measured in real time, at different locations.<\/span><\/p>\n

\u201c[We determined the surfactant effect] using a gas exchange tank onboard a vessel, and measuring gas exchange using samples of sea water taken at 13 sample stations throughout the Atlantic on the AMT cruise,\u201d explains<\/span> Dr. Ian Ashton<\/span><\/a> of the University of Exeter’s Renewable Energy team. \u201cThis gives direct measurement of the level of gas exchange compared to that expected, the difference is due to surfactants. As such, we get a measure of the reduction in exchange due to surfactants (the suppression factor).\u201d<\/span><\/p>\n

Combined with satellite observations, this data allowed the team to determine that biological surfactants can reduce the rate of CO<\/span>2<\/span> exchange by up to 50 percent. As sea surface temperatures (SSTs) rise, surfactants do, too. This means that warmer SSTs will come with more surfactants forming an invisible barrier atop the oceans, and a reduction in the rate of gas exchange.<\/span><\/p>\n

An invisible barrier<\/span><\/h3>\n

Natural biological surfactants aren’t visible like foam or an oil spill, and it can be difficult to identify them, even using satellites imaging the surface of the ocean. The team needed reliable metrics and technologies suited to their task.<\/span><\/p>\n

\u201cSST was, in the end, selected partly, as it showed a strong correlation with the measured data, but also as it is an important parameter in production,\u201d adds Dr. Ashton.<\/span><\/p>\n

Next, the team derived relationships between the transfer velocity and total surfactant activity for Atlantic Ocean surface seawaters.<\/span><\/p>\n

\"surfactants\"

CO2 flux map developed by NOAA. (Credit: NOAA, https:\/\/www.pmel.noaa.gov\/co2\/file\/CO2+Flux+Map)<\/span><\/p><\/div>\n

\u201cUsing the observed relationship between suppression of exchange and SST from the measured data, we took satellite measurements of SST across the whole Atlantic and estimated the level of suppression,\u201d details Dr. Ashton. \u201cWe then used satellite wind data to estimate the transfer velocity and applied the suppression factor to account for surfactants when calculating gas exchange.\u201d<\/span><\/p>\n

The researchers then developed tools for experimentally determining transfer velocity.<\/span><\/p>\n

\u201cWhen estimating transfer velocity, the most common method is to use experimentally observed relationships with the wind speed,\u201d Dr. Ashton describes. \u201cWe have developed the<\/span> FluxEngine<\/span><\/a>\u2014an open source toolbox for calculating gas exchange\u2014that allows the user to directly calculate transfer velocity from gridded data (usually satellite data) using a wide range of previously published methods.\u201d<\/span><\/p>\n

In this work, the team also used the in situ evaluation of air-sea gas exchange parameterizations from Nightingale (2000), as well as results from others to assess uncertainties in the results.<\/span><\/p>\n

What will happen with surfactant activity as atmospheric temperatures rise? Rising levels of atmospheric CO<\/span>2<\/span> trigger increased carbon sink demand, but various factors affect surfactant activity.<\/span><\/p>\n

\u201cGas transfer also depends on other factors such as wind speeds (transfer velocity), salinity, and temperature (solubility of CO<\/span>2<\/span>),\u201d remarks Dr. Ashton. \u201cPredicting how each factor will change in future scenarios and the effect on gas exchange, is trying to predict a number of highly variable systems and how they will interact. However, this work gives us an important step towards understanding one part of the system better in support of that aim.\u201d<\/span><\/p>\n

According to Dr. Ashton, the team’s next steps will involve developing new methods for determining how naturally-occurring surfactants move, spread geologically, and affect gas exchange.<\/span><\/p>\n

\u201cSurfactants are likely playing an important role in the global carbon cycle, yet we do not fully understand their impacts and lack a satisfactory method for predicting their geographical spread,\u201d adds Dr. Ashton. \u201cThere is a wealth of new satellite data becoming available through new ESA launches and earth observation missions. Projects such as SOCAT are continually improving the CO<\/span>2<\/span> data available. These things make this research possible, so we will attempt to take advantage of these improvements to further define the role of surfactants.\u201d<\/span><\/p>\n

Top image: Monthly maps of the estimated difference in air\u2013water CO2 flux caused by surfactants. (Credit: Pereira et al., https:\/\/www.nature.com\/articles\/s41561-018-0136-2)<\/span><\/span><\/em><\/p>\n","protected":false},"excerpt":{"rendered":"

A research team has found that biological surfactants can reduce the rate of CO2 exchange between the oceans and atmosphere by up to 50%.<\/p>\n","protected":false},"author":31,"featured_media":30074,"comment_status":"open","ping_status":"open","sticky":false,"template":"","format":"standard","meta":{"footnotes":""},"categories":[23,7,8,52],"tags":[955,695,957,958,109,954,956,282],"class_list":["post-30071","post","type-post","status-publish","format-standard","has-post-thumbnail","hentry","category-earth-atmosphere","category-news","category-newsfeed","category-technology","tag-carbon-cycle","tag-co2","tag-fluxengine","tag-gas-exchange","tag-news-ticker","tag-sea-surface-temperature","tag-surfactants","tag-university-of-exeter"],"remote_post_permalink":false,"remote_post_featured_image":false,"yoast_head":"\nBiological Surfactants Reducing Atlantic Ocean CO2 Exchange<\/title>\n<meta name=\"description\" content=\"A research team has found that biological surfactants can reduce the 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