JIJITANG2014-11-10 2:57 PM


Ammonium deposited over the open ocean comes almost entirely from natural marine sources, not from human activities like agriculture, as was previously believed, a new study of rain samples taken in Bermuda suggests.

At different times of the year, prevailing winds blow into Bermuda from the open ocean to the south or from the continental United States—making the area an ideal laboratory for studying pollution generated by human activity. To understand the extent to which human activities are polluting Earth’s atmosphere and oceans, it’s important to distinguish human-made pollutants from compounds that occur naturally.

“That was a bit of a surprise,” says Meredith Hastings, assistant professor of Earth, environmental, and planetary sciences at Brown University. “We have some sense of what the ammonium emissions are in the United States, so we would expect to see that signature in Bermuda, but we don’t see it.”

The findings, published in Global Biogeochemical Cycles, don’t necessarily mean that ammonium emissions are lower than was previously thought, Hastings says. It could be that the ammonium is simply deposited closer to the continent before it reaches Bermuda, which is about 600 miles off the coast. Either way, the findings suggest that humans are not adding nearly as much ammonium to the ocean as some researchers had assumed.

Understanding the human contribution of ammonium is important because ammonium is a source of nitrogen. Too much nitrogen added to rivers and oceans can disrupt aquatic ecosystems.

“We see a lot of deleterious effects of increased nitrogen pollution on our waterways and our drinking water,” Hastings says. “So if you want to make policy to limit emissions and reduce these pollution impacts, we need to have a good handle on what sources are natural and what are anthropogenic.”


The island of Bermuda is an ideal place to study the origins of pollutants, Hastings says. The weather over the island is dominated by tropical air masses that blow in from the south. But for part of the year, when tropical high pressure shifts, air masses coming off the continental United States work their way into the region. Those air masses can contain pollutants from industry, agriculture, and other human activities on the continent.

“It’s a really nice setup where we have these different air masses at different times of the year,” Hastings says. “We can separate what’s coming in from anthropogenic continental sources and what’s coming in from natural marine sources.”

Over two years, the researchers collected rain samples and matched each sample with air mass history data supplied by the National Oceanic and Atmospheric Administration. They then tested the samples, looking for the amount of ammonium in each sample. They also looked for specific isotopes of nitrogen in the ammonium (the molecule is made from one nitrogen atom and four hydrogen atoms). Compounds from different sources often have different isotopes of certain elements, so scientists can use them as a tracer.

Regardless of air mass, the samples had generally the same amount of ammonium and the same nitrogen isotopes. There was no clear signal of an anthropogenic source for the ammonium, even when continental air masses entered the region. Using a model of the exchange of ammonia from the ocean to the atmosphere, the researchers were able to explain the amount of ammonium and the nitrogen isotopes in the rainwater using only marine sources.


The results were in stark contrast to research done by the same team looking at nitrate, another nitrogen-based pollutant, in Bermuda. For nitrate, there was a very clear signal in the isotope data of anthropogenic sources coming in from the continent.

“We expected to see the same thing with ammonium,” Hastings says, “and I think it’s pretty surprising that we didn’t.”

Emissions of nitrate, which are linked largely to the burning of fossil fuels, are much better studied than ammonium, Hastings says. As policymakers work to curb fossil fuel emissions, other sources of nitrogen, including ammonium, may become more important.

“That’s one of my interests in using this isotope tool,” Hastings says. “We want to see if we can track all of these different sources of nitrogen to see if they’re man-made or if they’re natural. That helps us to understand what perturbations humans are having on natural systems.”

Researchers from University of Cape Town in South Africa, Princeton University, and the Bermuda Institute of Ocean Sciences are coauthors of the study. The National Science Foundation and the NOAA Climate and Global Change Fellowship Program supported the work.

Source: Brown University

Original Article:

《Isotopic evidence for a marine ammonium source in rainwater at Bermuda》, Published on Journal《Journal of Global Biogeochemical Cycles》On 10th Oct, 2014.







0 Following 3 Fans 0 Projects 310 Articles


Changes to the Special Supplemental Nutrition Program for Women, Infants, and Children (WIC) have resulted in families eating more fruits and vegetable

Read More

In contests drawn from game theory, chimpanzee pairs consistently outperform humans in games that test memory and strategic thinking.A new study, condu

Read More

Publishing is one of the most ballyhooed metrics of scientific careers, and every researcher hates to have a gap in that part of his or her CV. Here’s

Read More

Pornography triggers brain activity in people with compulsive sexual behaviour -- known commonly as sex addiction -- similar to that triggered by drugs

Read More

In a recent survey, academic staff at the University identified the interrelated skills of writing and reasoning as the two most important skills for s

Read More

In a recent survey, academic staff at the University identified the interrelated skills of writing and reasoning as the two most important skills for s

Read More

Reading cautionary tales like The Boy Who Cried Wolf and Pinocchio to little kids might not be the best way to teach them to tell the truth.New researc

Read More

Those flat, glassy solar panels on your neighbor’s roof may be getting a more efficient makeover, thanks to a new class of solar-sensitive nanoparticle

Read More

Physicists have overcome a major challenge in the science of measurement using quantum mechanics. They’ve used multiple detectors to measure photons in

Read More

If you want to slow down long enough to smell the proverbial roses, you might want to move to a neighborhood with fewer drive-thru restaurants, researc

Read More