Carl Tripp professor of chemistry (left) and Mark Wells professor of oceonagraphy (right) are reflected in silicon wafers held by Eric Roy a PHD candidate at the University of Maine in Orono. They won a grant to farther develop technology that enables the accurate measurement of the trace amounts of iron and copper in ocean water with a more simple process than previously used. Small pieces of the speciallty coated silicone wafers were immersed in the waters of the open ocean and later analized. The research is importent because the metals are important for sustaining microscopic ocean plants that also sequester carbon dioxide, the predominant greenhouse gas. If the research is expanded the data can be used in large scale global climate change modeling. Buy Photo
ORONO, Maine — Two University of Maine scientists and a colleague from Colby College in Waterville recently received a $1.3 million grant for their work on technology that measures iron and copper in ocean water and could have implications for climate change research.
The four-year National Science Foundation grant allows professors Mark Wells and Carl Tripp of UMaine and Whitney King of Colby to develop a small sensor which can be attached to a mooring, a drifting float or to underwater gliders. The third option is ideal, Wells said, because gliders are controlled remotely and their data-gathering sensors can run 24 hours a day, seven days a week.
Wells, Tripp, King, UMaine doctoral graduate Cuihong Jung and doctoral candidate Eric Roy have spent the past three years developing a nanostructured surface technology that binds iron from seawater. The grant will help refine the surface so it can be incorporated into a prototype sensing device for use on ocean-observing platforms.
The sensor is actually a 1- centimeter-by-1-centimeter film of an organic molecule that is made from bacteria. The film binds with iron from seawater and allows scientists to analyze iron levels. Copper levels also can be measured, although not to the extent of iron.
“It’s a film we can put on different [surfaces],” said Wells, a professor of oceanography in the school of marine sciences. “That is something which has eluded many people for a long time. It’s a major jump forward in trying to analyze things found in ocean waters.”
Wells said the sensors eventually could be used on something such as the Gulf of Maine Ocean Observing System, known as GoMOOS, a buoy system that has a partnership with UMaine. Eventually, the data gathered from the sensors could be sent back to researchers by cellular or satellite technology.
The process now used to measure iron and copper requires that samples be collected individually from large research vessels and analyzed in a laboratory.
Iron and copper are metals important for sustaining the natural growth of phytoplankton, the tiny oceanic plants that serve as the foundation of marine ecosystems.
Phytoplankton also sequester carbon dioxide, the predominant greenhouse gas responsible for global warming. Scientists who model climate change examine phytoplankton levels in the ocean because they’ve found that the more phytoplankton, the lower the levels of carbon dioxide. Low levels of iron would indicate low levels of phytoplankton.
“There is some indication that copper might be involved but there is really no question now that iron is involved,” Wells said. “Climate change scientists need a lot more data about iron concentration in the ocean and how that iron changes over time.”
There are plenty of ways to take measurements of, say, temperature and salinity, and there are relatively easier ways to measure levels of nutrients in water. The challenge in measuring iron is in its extremely low levels.
“That’s a big challenge because iron in the open ocean is at very, very low levels,” Wells said. “To put it in perspective, we must measure a drop of food coloring added to an Olympic-size pool. The difference between a drop and half a drop could have major consequences for how much carbon dioxide phytoplankton can sequester.”
The researchers tested the film over the past few years in the Gulf of Alaska, which is known to have particularly low iron levels. The results mimicked the numbers found in already accepted testing methods, Wells said.
The next step for the group is developing a different type of surface on which to place the film in order to maximize the water flow by the sensor. The researchers also are hoping to miniaturize the whole system, which is now the size of a steamer trunk, to the size of a shoebox or even a cell phone.
“Certainly [the grant will help] make a lot of progress toward it,” Wells said. “There’s every reason to be optimistic.”
On 1/7/09 at 8:43 AM,
lifeinmaine wrote:
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Sea ice levels in the Arctic are at 1979 levels, 2008 was the coldest year in the decade, Europe and China have experienced record cold, and oh yea - 15,000 years ago there was an ice sheet ONE MILE thick where the BDN sits now - so yes global warming is real, so is global cooling, but it has been happening for a lot longer than humans have been releasing carbon, so the whole notion that we accelerate, and Obama can stop, global warming are a bigger scam than Bernie Madoff got away with - wake up and do your own research.
On 1/7/09 at 11:06 AM,
boogyman wrote:
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It is in the best interest of the professers at UMO to promote the theory of human induced global climate change. It means $$$$$ to them pure and simple. Just another scam to waste taxpayer dollars.
On 1/7/09 at 4:55 PM,
bobbuntrock wrote:
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Lifeinmaine and boogyman are guilty, like too many, of selective data interpratation and politicisation of a very complex but real phenomenon. Note that trace nutrients for phytoplankton, a fundamental food for much of sea life is being monitored, valuable data for fisheries of all kinds (including lobster) which are under great pressure from pollution, over fishings, and yes, climate change. Granted, the climate has been variable, both globaly and regionally, for almost the entire history of the earth, but there should be no question that there are climatic effects from human activities, and those net effects tend to be warming. Not a waste of money at all but research well spent.
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