 |
|
Arctic pollution's surprising history
March 19, 2008Study: Early explorers saw particulate haze in late 1800s
Scientists know that air pollution particles from mid-latitude cities migrate to the Arctic and form an ugly haze, but a new University of Utah study finds surprising evidence that polar explorers saw the same phenomenon as early as 1870.
"The reaction from some colleagues - when we first mentioned that people had seen haze in the late 1800s - was that it was crazy," says Tim Garrett, assistant professor of meteorology and senior author of the study. "Who would have thought the Arctic could be so polluted back then? Our instinctive reaction is to believe the world was a cleaner place 130 years ago."
The study will be published soon in the March 2008 issue of the Bulletin of the American Meteorological Society.
By searching through historic records written by early Arctic explorers, Garrett and his collaborator Lisa Verzella, former undergraduate student at the University of Utah, were able to find evidence of an aerosol "dry haze" that settled onto the ice to form a layer of grayish dust containing metallic particles. The haze and dust were likely the byproducts of smelting and coal combustion generated during the Industrial Revolution.
"We searched through open literature, including a report in the second issue of the journal Science in 1883 by the famous Swedish geologist Adolf Erik Nordenskiold, who was the first to describe the haze," says Garrett. "We also looked through books describing Arctic expeditions that had to be translated from Norwegian and French."
The historic accounts show that more than 130 years ago, the Industrial Revolution was "already darkening the snow and skies of the far North," Garrett says.
History of Arctic Pollution
Garrett and Verzella say the first report of Arctic haze pollution usually is credited to a U.S. Air Force meteorologist J. Murray Mitchell, who in 1957 described "the high incidence of haze at flight altitudes" during weather reconnaissance missions from Alaska over the Arctic Ocean during the late 1940s and 1950s.
Mitchell was credited in the 1970s by Glenn Shaw from the University of Alaska, Fairbanks, and his collaborators Kenneth Rahn and Randolf Borys, from the University of Rhode Island, who were the first to discover the haze contained high levels of heavy metals, including vanadium, suggestive of heavy oil combustion.
In a later study, Rahn and Shaw said: "Arctic haze is the end product of massive transport of air pollution from various mid-latitude sources to the northern polar regions, on a scale that could never have been imagined, even by the most pessimistic observer."
Since humans had been generating aerosol pollution long before 1950 - namely, since sometime after the advent of the Industrial Revolution in the late 1700s - it made sense to Garrett that pollution generated from earlier times also might have made it to northern latitudes from Europe, Asia and North America.
"I thought that pollution had to be observed in the Arctic prior to 1950, so I decided to find out if that was true," says Garrett. So he hired Verzella to search historic records to determine if there was written evidence of early Arctic pollution.
Verzella found a number of published reports from the late 1800s to early 1900s that mention a whitish haze in the sky, or a gray or black dust on the ice. But Nordenskiold "was the first to explicitly draw attention to the haze phenomenon" during his 1883 expedition to Greenland, the researchers concluded.
Even during an earlier expedition in 1870, Nordenskiold observed "a fine dust, gray in color, and, when wet, black or dark brown, is distributed over the inland ice in a layer which I should estimate at from 0.1 to 1 millimeter."
He found that the dust contained "metallic iron, which could be drawn out by the magnet, and which, under the blowpipe, gave a reaction of cobalt and nickel." He believed it to be a "cosmic dust" possibly from meteors. However, the concentration of metallic iron, nickel and cobalt made it much more likely that the origin was industrial pollution generated at mid-latitudes.
Last year, other researchers found that the dust is present in ice core samples. "Recent Greenland ice cores show a rapid rise in anthropogenic soot and sulfate that began in the late 1800s, but with peak sulfate levels in the 1970s, and peak soot between 1906 and 1910," Garrett and Verzella say in their study. A higher composition of sulfate suggests oil combustion, while higher soot suggests coal combustion, consistent with the main sources of pollution generated in the 20th versus 19th centuries.
Early Arctic Warming
In a 2006 study, Garrett concluded that particulate pollution from mid-latitudes aggravates global warming in the Arctic. Did it do the same back in the 1800s?
"It is reasonable that the effect of particulate pollution on Arctic climate may have been greater 130 years ago than it is now, because during the Industrial Revolution, technologies were dirtier than they are now," says Garrett. "Of course, today carbon dioxide emissions are greater and have accumulated over the last century, so the warming effect due to carbon dioxide is much greater today than 100 years ago."
In fact, after fossil-fuel combustion became more efficient in the mid-1900s, the levels of particulate pollution in the Arctic dropped dramatically from levels earlier in the century. However, Garrett believes that we might be seeing another increase due to higher emissions from developing industrial countries such as China.
University of Utah
The study will be published soon in the March 2008 issue of the Bulletin of the American Meteorological Society.
By searching through historic records written by early Arctic explorers, Garrett and his collaborator Lisa Verzella, former undergraduate student at the University of Utah, were able to find evidence of an aerosol "dry haze" that settled onto the ice to form a layer of grayish dust containing metallic particles. The haze and dust were likely the byproducts of smelting and coal combustion generated during the Industrial Revolution.
"We searched through open literature, including a report in the second issue of the journal Science in 1883 by the famous Swedish geologist Adolf Erik Nordenskiold, who was the first to describe the haze," says Garrett. "We also looked through books describing Arctic expeditions that had to be translated from Norwegian and French."
The historic accounts show that more than 130 years ago, the Industrial Revolution was "already darkening the snow and skies of the far North," Garrett says.
History of Arctic Pollution
Garrett and Verzella say the first report of Arctic haze pollution usually is credited to a U.S. Air Force meteorologist J. Murray Mitchell, who in 1957 described "the high incidence of haze at flight altitudes" during weather reconnaissance missions from Alaska over the Arctic Ocean during the late 1940s and 1950s.
Mitchell was credited in the 1970s by Glenn Shaw from the University of Alaska, Fairbanks, and his collaborators Kenneth Rahn and Randolf Borys, from the University of Rhode Island, who were the first to discover the haze contained high levels of heavy metals, including vanadium, suggestive of heavy oil combustion.
In a later study, Rahn and Shaw said: "Arctic haze is the end product of massive transport of air pollution from various mid-latitude sources to the northern polar regions, on a scale that could never have been imagined, even by the most pessimistic observer."
Since humans had been generating aerosol pollution long before 1950 - namely, since sometime after the advent of the Industrial Revolution in the late 1700s - it made sense to Garrett that pollution generated from earlier times also might have made it to northern latitudes from Europe, Asia and North America.
"I thought that pollution had to be observed in the Arctic prior to 1950, so I decided to find out if that was true," says Garrett. So he hired Verzella to search historic records to determine if there was written evidence of early Arctic pollution.
Verzella found a number of published reports from the late 1800s to early 1900s that mention a whitish haze in the sky, or a gray or black dust on the ice. But Nordenskiold "was the first to explicitly draw attention to the haze phenomenon" during his 1883 expedition to Greenland, the researchers concluded.
Even during an earlier expedition in 1870, Nordenskiold observed "a fine dust, gray in color, and, when wet, black or dark brown, is distributed over the inland ice in a layer which I should estimate at from 0.1 to 1 millimeter."
He found that the dust contained "metallic iron, which could be drawn out by the magnet, and which, under the blowpipe, gave a reaction of cobalt and nickel." He believed it to be a "cosmic dust" possibly from meteors. However, the concentration of metallic iron, nickel and cobalt made it much more likely that the origin was industrial pollution generated at mid-latitudes.
Last year, other researchers found that the dust is present in ice core samples. "Recent Greenland ice cores show a rapid rise in anthropogenic soot and sulfate that began in the late 1800s, but with peak sulfate levels in the 1970s, and peak soot between 1906 and 1910," Garrett and Verzella say in their study. A higher composition of sulfate suggests oil combustion, while higher soot suggests coal combustion, consistent with the main sources of pollution generated in the 20th versus 19th centuries.
Early Arctic Warming
In a 2006 study, Garrett concluded that particulate pollution from mid-latitudes aggravates global warming in the Arctic. Did it do the same back in the 1800s?
"It is reasonable that the effect of particulate pollution on Arctic climate may have been greater 130 years ago than it is now, because during the Industrial Revolution, technologies were dirtier than they are now," says Garrett. "Of course, today carbon dioxide emissions are greater and have accumulated over the last century, so the warming effect due to carbon dioxide is much greater today than 100 years ago."
In fact, after fossil-fuel combustion became more efficient in the mid-1900s, the levels of particulate pollution in the Arctic dropped dramatically from levels earlier in the century. However, Garrett believes that we might be seeing another increase due to higher emissions from developing industrial countries such as China.
University of Utah
Air Pollution Current Events and Air Pollution News RSSHidden threat: Elevated pollution levels near regional airports
Scientists are reporting evidence that air pollution - a well-recognized problem at major airports - may pose an important but largely overlooked health concern for people living near smaller regional airports.
Consumption of certain fish during pregnancy associated with poorer cognitive performance
Children who eat fish more than 3 times per week show a worse performance in the general cognitive, executive and perceptual-manipulative areas.
Nitrogen loss threatens desert plant life, study shows
As the climate gets warmer, arid soils lose nitrogen as gas, reports a new Cornell study. That could lead to deserts with even less plant life than they sustain today, say the researchers.
Air pollution increases infants' risk of bronchiolitis
Infants who are exposed to higher levels of air pollution are at increased risk for bronchiolitis, according to a new study.
USC study finds big air pollution impacts on local communities
Heavy traffic corridors in the cities of Long Beach and Riverside are responsible for a significant proportion of preventable childhood asthma, and the true impact of air pollution and ship emissions on the disease has likely been underestimated, according to researchers at the University of Southern California (USC).
Researchers discover links between city walkability and air pollution exposure
A new study compares neighborhoods' walkability (degree of ease for walking) with local levels of air pollution and finds that some neighborhoods might be good for walking, but have poor air quality.
Shifting the world to 100 percent clean, renewable energy as early as 2030 -- here are the numbers
Most of the technology needed to shift the world from fossil fuel to clean, renewable energy already exists. Implementing that technology requires overcoming obstacles in planning and politics, but doing so could result in a 30 percent decrease in global power demand.
Report examines hidden costs of energy production and use
A new report from the National Research Council examines and, when possible, estimates "hidden" costs of energy production and use -- such as the damage air pollution imposes on human health -- that are not reflected in market prices of coal, oil, other energy sources, or the electricity and gasoline produced from them.
Improving China's acid rain control strategy
Scientists are reporting the first evidence that China's sharp focus on reducing widespread damage to soil by acid rain by restricting sulfur dioxide air pollution may have an unexpected consequence: Gains from that pollution control program will be largely offset by increases in nitrogen emissions, which the country's current policy largely overlooks.
Injury and hazards in home health care nursing are a growing concern
Patients continue to enter home healthcare ''sicker and quicker," often with complex health problems that may require extensive nursing care.
More Air Pollution Current Events and Air Pollution News Articles
 |
Fundamentals of Air Pollution, Fourth Edition by Daniel Vallero Dr. Vallero holds a Ph.D. in engineering from Duke University a Masters in Environmental Health Sciences from the University of Kansas a Masters in City and Regional Planning from Southern Illinois University and a Bachelors in the Earth Sciences and Psychology from SIU. (Author) Fundamentals of Air Pollution is an important and widely used textbook in the environmental science and engineering community. Written shortly after the passage of the seminal Clean Air Act Amendments of 1990, the third edition was quite timely. Surprisingly, the text has remained relevant for university professors, engineers, scientists, policy makers and students up to recent years. However, in light of the transition in the last five years from predominantly technology-based standards (maximum achievable control technologies or MACTs) to risk-based regulations and air quality standards, the text must be updated significantly. The fourth edition will be updated to include numerous MACTs which were not foreseen during the writing of the third edition, such as secondary lead (Pb)... |
 |
Air Pollution: Its Origin and Control (3rd Edition) by Kenneth Wark (Author), Cecil F. Warner (Author), Wayne T. Davis (Author) A well-respected air pollution text, this book is suitable for a variety of engineers and scientists who wish to gain an introduction to the field of air pollution. Known for its detailed development and application of equations, the text emphasizes an understanding of the relationship between sources and control of air pollution, rather than being a simple "handbook" on the subject. The book presents information on four broad areas of interest in the air pollution field: the effects of pollutants on health and welfare; the laws and regulations that have been passed in efforts to improve air quality; the modeling of atmospheric dispersion of pollutants; the approaches to the control of emissions (from both stationary and mobile sources). The third edition of... |
 |
Air Pollution (True Books: Environment) by Rhonda Lucas Donald (Author) Ideal for today's young investigative reader, each A True Book includes lively sidebars, a glossary and index, plus a comprehensive "To Find Out More" section listing books, organizations, and Internet sites. A staple of library collections since the 1950s, the new A True Book series is the definitive nonfiction series for elementary school readers. |
 |
Air Pollution Control (3rd Edition) by C. David Cooper (Author), F. C. Alley (Author) Since the First Edition appeared, Air Pollution Control: A Design Approach has become the leading air pollution control text on the strengths of good writing, comprehensive coverage, an emphasis on design, and excellent real-world examples. The Third Edition continues this tradition of excellence, incorporating new and updated information throughout the text while retaining the topical organization and features that have made it an invaluable learning tool for instructors and students alike. The Third Edition successfully achieves two main objectives. First, it presents detailed information about air pollution and its control. Causes, sources, effects, and regulation of air pollution are discussed, as well as the economic analysis necessary for efficient and effective control of air... |
 |
Atmosphere: Air Pollution and Its Effects (Our Fragile Planet) by Dana Desonie (Author) Earth's atmosphere supports and protects all of its life, giving the planet its blue skies, mild temperatures, and weather. But people use the atmosphere for another purpose: as a dump for waste gases and particles. Air pollution obscures vistas, damages ecosystems, and compromises human health. Combined with water in the atmosphere, air pollutants create acid rain. In the upper atmosphere, air pollutants damage the ozone layer, which protects life from the sun's harmful rays. Excess emissions of greenhouse gases like carbon dioxide and methane push global temperatures higher, creating global warming. While some pollutants are successfully regulated, as population grows and industries expand, more intensive solutions are needed to deal with the many types of air pollution and its... |
 |
Air Pollution: Problems and Solutions (Science and Society) by J. S. Kidd (Author), Renee A. Kidd (Author) The impact society has on the progress and acceptance of new science - and vice versa - is greater than most people think. For instance, over the past five years, events indicate that citizens' views have helped change the focus of the research and development carried out by both the U.S. Department of Agriculture and by the Environmental Protection Agency. Likewise, citizen actions have influenced the direction of the activities of organizations such as the World Bank in their efforts to improve agriculture and living conditions in the developing nations of the world. The new "Science and Society" set not only highlights the "what" of science, but also the "why," the "how," and the "who." Each volume provides an accessible, authoritative view of the history and current state of a... |
 |
Atmospheric Pollution by Mark Z. Jacobson (Author) This book provides a comprehensive introduction to the history and science of major air pollution issues. It begins with an introduction to the basic atmospheric chemistry and the history of discovery of chemicals in the atmosphere, and then moves on to a discussion of the evolution of the earth's atmosphere, and the structure and composition of the present-day atmosphere. It also offers a comprehensive and accessible discussion of the five major atmospheric pollution topics: urban outdoor air pollution, indoor air pollution, acid deposition, stratospheric ozone reduction, and global climate change. |
|
Nsca Pollution Handbook by Natl Soc for Clean Air The National Society for Clean Air and Environmental Protection publishes this annual guide to legislation in the UK for pollution control. | |
 |
Air Pollution, Smog, and Acid Rain DVD Starring: Artist Not Provided The thin layer of air that envelops the earth is essential to life. Unfortunately, modern living produces chemical by-products that threaten not only the quality of life, but also the number of living creatures and organisms that can survive in such conditions. |
 |
Air Pollution Engineering Manual by Air & Waste Management Association (Author), Wayne R. Davis (Editor) The definitive resource for information on air pollution emission sources and the technology available to control them. The Air Pollution Engineering Manual has long been recognized as an important source of information on air pollution control issues for industries affected by the Clean Air Act and regulations in other countries. Thoroughly updated to reflect the latest emission factors and control measures for reducing air pollutants, this new edition provides industry and government professionals with the fundamental, technological, and regulatory information they need for compliance with the most recent air pollution standards. Contributing experts from diverse fields discuss the different processes that generate air pollution, equipment used with all types of gases and... |
| © 2009 BrightSurf.com |