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Climate change worsens effects of nutrient pollution on marine ecosystems



Aug. 17 (UPI) — Nutrient overload caused by excess agricultural runoff can seriously harm coastal marine ecosystems, triggering algal blooms that emit toxins and rob marine life of oxygen.

Research published Monday in the journal Frontiers in Marine Science suggests the damage is magnified by other human activities, including overfishing and climate change.

For the new study, researchers reviewed dozens of papers on nutrient pollution, or eutrophication, revealing the complexity of the problem.

To slow and reverse the damage, authors of a new paper suggest a multifaceted approach absorbs the insights of a variety of experts and considers both land-use and ecology.

“The threats posed by eutrophication include reduced water clarity, oxygen depletion, and toxic algal events that result in critical habitat losses such as coral reefs, seagrass meadows and mangrove forests,” study author Thomas Malone said in a news release.

“Other serious consequences include mass mortalities of marine animals, loss of biodiversity and threats to human health,” said Malone, a professor of ecology at the University of Maryland Center for Environmental Science.

In reviewing the literature on eutrophication, Malone and co-author Alice Newton, professor of marine science at the University of Algarve in Portugal, identified more than 700 dead zones, where algal blooms regularly deplete oxygen levels.

Their mapping effort showed many problem areas overlap with many of the wonders of the ocean world, including the Great Barrier Reef.

Their analysis showed that while agricultural fertilizers account for the majority of the nutrient pollution that enters the ocean, human sewage, animal manure and fossil fuel combustion also contribute to the problem.

The new research showed that the problem of eutrophication is made worse by overfishing and other human-caused problems, including climate change. Warming temperatures are also partially responsible for increased river runoff, which helps carry larger amounts of nutrients into the ocean.

As well, as human release more carbon dioxide into the atmosphere, the ocean absorbs more and more CO2, increasing ocean acidity. Oxygen-deprived ocean layers amplify the problem of acidification, causing problems for calcifying organisms including shellfish, planktonic pteropods and corals.

Malone and Newtown suggest any comprehensive solution to the problem of eutrophication should consider the input of scientists, policy makers and the public.

While more sustainable agricultural practices and land-use changes can help reduce nutrient overload at its source, the researchers suggest ecosystem solutions, like restoring mangroves and marshes, can help prevent excess nutrients from reaching marine ecosystems.

“This valuable review shows the commonalities in the timing, causes and consequences of nutrient pollution of coastal waters in many otherwise very different regions of the world,” said Donald Boesch, a professor of marine science at the University of Maryland.

“Our progress in reversing this important cause of ecosystem degradation will be limited unless we can reduce agricultural pollution through more effective regulations and incentives,” said Boesch, who was not involved in the research.

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Apple recalls shipment of iPhone 6 Plus due to photo glitch



CUPERTINO, Calif., Aug. 23 (UPI) — Apple has recalled a shipment of its iPhone 6 Plus due to a technological glitch that produces blurry photos in the device’s camera, the company announced.

The recall affects a small number of iPhone 6 Plus devices, Apple said in a statement, which have demonstrated a glitch in the iSight camera.

Apple said it’s “a component that may fail causing your photos to look blurry.”

Apple created a web page where users can enter their phone’s serial number to determine if they are affected by the recall.

The iPhone 6 and larger iPhone 6 Plus were released last September.

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‘Invisible’ words reveal common structure among famous stories



Aug. 7 (UPI) — Storytelling requires a narrative arc, but the trajectory of a dramatic arc isn’t always obvious.

By tracing the abundance of “invisible” words — pronouns, articles and other short words — researchers were able to identify patterns shared by a diversity of stories, from Shakespeare to Spielberg, according to a study published Friday in Science Advances.

“Over the years, these ‘invisible’ words have been found to be related to a whole mess of psychological processes — how people use small words like articles and pronouns tell us about a person’s mental health, thinking style, their social status, and even how well they get along with other people,” study lead author Ryan Boyd told UPI.

“In many ways, it was a natural progression to look at what these words can tell us how the nature of stories,” said Boyd, a lecturer in behavioral analytics at the University of Leeds.

For the study, Boyd and his colleagues used a range of statistical techniques to analyze the abundance and distribution of invisible words in 40,000 fictional texts, including short stories, novels and movie scripts.

The analysis revealed a common structure — a so-called narrative curve — featuring three distinct phases.

During the “staging” phase, authors use prepositions and articles in greater abundance, peppering their prose with “a” and “the.” These words are more useful at the beginning, when authors must set the scene and provide the audience with basic information.

The middle phase is defined by plot progression, which is revealed by a greater abundance of auxiliary verbs, adverbs and pronouns — or interactional language. During this phase, “the house” from the staging phase becomes “her home” or “it.”

During the third phase, cognitive tension is ramped up as the narrative arc reaches a climax. As the author guides the reader or viewer through the process of conflict resolution, cognitive-processing words like “think,” “believe,” “understand” and “cause” begin to crop up in greater numbers.

Researchers found this three-phase narrative shape remained consistent, regardless of a stories length.

“A 25,000 word story has the same shape as a 250 word story,” said Boyd, lead author of the new study. “It seems, then, that we are able to do a good job of structuring our stories in an optimal way regardless of how much space we have to do it in.”

The researchers set up a website showing the shapes of staging, plot progression and cognitive tension in eight texts at The Arc of Narrative website.

The patterns left by invisible words proved both good and bad stories — tales spun by amateurs, as well as professionals — utilize similar structures.

“Our results confirm what people have long believed about stories,” Boyd said. “Like DNA, we knew about it long before we could actually see it and measure it. With these new methods, we are able to see and measure the ‘DNA’ of stories and understand them in more objective, scientific ways.”

According to Boyd, studying the patterns of stories can offer insights into cognitive processes unique to humans.

“What these story shapes seem to tell us is that we have, to some degree, evolved to process information in certain ways,” he said. “We need to understand the ‘who’ and ‘what’ in order to understand the ‘why’ of our everyday lives and the lives of others.”

The authors of the latest story are already mining text for other language patterns that might help researchers determine whether a story-teller is telling the truth, or perhaps reveal the secrets to a “good” story.

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Florida Current study confirms decline in strength of Gulf Stream



Aug. 7 (UPI) — New research suggests the strength of the Florida Current, which forms the beginning of the Gulf Stream, has weakened considerably over the last century.

The findings, published Friday in the journal Nature Climate Change, corroborate the predictions of several models that suggest the Gulf Stream has slowed over the last several decades.

The Florida Current is a thermal ocean current that flows from west to east around the tip of Florida, joining the Gulf Stream off Florida’s east coast.

Scientists have been tracking the strength of the Florida Current since the early 1980s — not long enough to identify multi-decadal or centennial trends.

To better understand the current’s historical changes, Christopher Piecuch, researcher at the Woods Hole Oceanographic Institution in Massachusetts, decided to study the relationship between coastal sea level and the strength of near-shore currents.

While researchers have only been measuring the Florida Current for a few decades, scientists have been recording sea level data since the early 1900s. Piecuch was able to use the data to predict historic changes in the strength of near-shore currents.

“In the ocean, almost everything is connected,” Christopher Piecuch, sole author of the new study, said in a news release. “We can use those connections to look at things in the past or far from shore, giving us a more complete view of the ocean and how it changes across space and time.”

The statistical analysis performed by Piecuch showed the Florida Current and Gulf Stream are the weakest they’ve been during the last 110 years.

The findings are in agreement with ocean current models that suggest climate change has caused a slowdown of the Atlantic Meridional Overturning Circulation, of which the Gulf Stream is a part.

Piecuch said he hopes his research will help other scientists use coastal current data to study changes in bigger currents like the Gulf Stream.

“If we can monitor something over the horizon by making measurements from shore, then that’s a win for science and potentially for society,” he said.

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