Measures Must Be Taken Now to Mitigate Climate Change, Smith Says

May 9, 2014

On the heels of the most recent meeting of the United Nations Environment Programme's International Panel on Climate Change (IPCC), Berkeley Professor Kirk Smith visited CEU to deliver a lecture on “Climate Change, Air Pollution, and Health: Co-benefits and Cross-benefits.” At the May 5 event, Smith emphasized that the steps we take – or fail to take – to mitigate negative climate change have long-term effects.

“The policy issues that we have to start working on now to change things are based on what we can't even measure yet (until after 2050),” he said. “You're always 50 years behind, before you can actually start seeing the benefits of what you do now.”

Human action or inaction in the last 50 years has led to CO2 levels that are higher now than any time in the past 400,000 years and the surface of the earth has warmed .08 degrees since the pre-industrial era. Often people dismiss the idea of global warming when massive blizzards hit and during prolonged periods of very cold temperatures. However, it's not individual high or low temperatures that determine climate change, it's the overall trend. Smith pointed out that we now – since 1950 – have more record high temperatures in the Western U.S. than low.

The most recent meeting of the IPCC reveals bleak scenarios for the late 21st century, including high certainty that incremental warming will continue along with increased heat waves/spells. Sea-level will also continue to rise, and we can expect both an increase in heavy precipitation in some parts of the world, while persistent drought will plague other parts.

Cooking and heating fuels used in underdeveloped countries is the “the largest single risk regarding environmental health,” Smith said. Cleaner-burning fuels are available but not usually financially accessible for large, poor populations. Solar-powered, induction and other “greener” stoves are also available but are not yet being mass produced.

The key to mitigating climate change, Smith noted, is in balancing global inequality of resources, including food, reproductive health care, and technology. To put it in perspective, Smith gave the example of how weather events affect countries differently. “The same size hurricane or tropical storm can hit Bangladesh and kill 10,000 people and only ten in Florida, because Florida is better protected.” He also noted the very stark difference between the developed world and underdeveloped world by noting the effects of malaria, a curable disease. According to the World Heath Organization, in 2012, 90 percent of the world’s malaria deaths occurred in Africa and about 460,000 African children died before their fifth birthdays.

Access to reproductive healthcare is vital to helping the poor, too, and to overall climate protection, Smith said. The IPCC Fifth Assessment reports that, globally, several hundred million women who wish to limit their families have restricted access to birth control. Fertility rate could be reduced by 0.5 births per woman (worldwide) by satisfying unmet demand for contraception, and such a shift would lower CO2 emissions by a staggering 40 percent by 2100 and bring large health gains.

In addition to natural disasters and increased trauma for the poor, climate change will have devastating effects on the economy. “This is the single biggest economic effect that climate change will have – it's going to affect human productivity. We might be able to develop a strain of wheat that can survive at higher temps, but humans simply cannot,” Smith said. Of the worldwide working population, 60 percent work outdoors, he noted. If measures aren't taken now to mitigate climate change, there will eventually be places where people simply cannot work outside.

Smith's main message – as well as that of the IPCC – is that measures must be taken now to protect ourselves and our planet. “Human response can change the outcome.”

Smith's lecture was sponsored by CEU's Department of Environmental Sciences and Policy and the Center for Climate Change and Sustainable Energy Policy (C3SEP). For further information, visit: http://www.ceu.hu/event/2014-05-05/public-lecture-professor-kirk-smith-university-california-berkeley and http://ehs.sph.berkeley.edu/krsmith/Presentations/2014/CEU.pdf.

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Nearly half of the world’s population relies on fuels such as wood or dung for cooking and heating. In the 1980s, Kirk R. Smith, a member of the National Academy of Sciences and a professor of global health at the University of California at Berkeley, sounded the alarm that these fuels, when burned in open fires or traditional cook stoves, produce high levels of indoor air pollution that prematurely kill about 2 million people each year—more than either malaria or tuberculosis, according to Smith. Cleaner alternatives to traditional cook stoves exist, but convincing funding agencies and decision makers to invest in these technologies requires substantive evidence of their health benefits, he says. Today, Smith—a 2012 recipient of the Tyler Prize for Environmental Achievement—develops inexpensive, portable electronic monitors to measure exposures to indoor air pollution in developing countries. Here, he explains how his research can aid the design and dissemination of solutions to tackle this ancient but still widespread problem.

John Seinfeld, PhD, and Kirk R. Smith, MPH, PhD, recognized for their work to advance understanding of air pollution and its impact on the health of humans and the planet

Los Angeles, CA (March 20, 2012) – The Tyler Prize for Environmental Achievement honors two experts on air pollution with the 2012 Tyler Prize for their work to advance the scientific understanding of air pollution, and develop solutions to reduce the danger to human health and the impact on climate change.

Kirk R. Smith, MPH, PhD, of the University of California at Berkeley is recognized for his work identifying that household air pollution in developing nations is responsible for nearly two million premature deaths per year, disproportionately among women and children. John H. Seinfeld, PhD, of the California Institute of Technology, is recognized for his groundbreaking work leading to understanding of the origin, chemistry, and evolution of particles in the atmosphere. The fundamental understanding of the physics and chemistry of urban and regional air pollution that emerged from his research served as the basis for action to control the effects of air pollution on public health.

Since its inception in 1973 as one of the world’s first international environmental awards, the Tyler Prize has been the premier award for environmental science, environmental health and energy, given to those who confer great benefit upon humankind through environmental restoration and achievement. The Tyler Prize is administered by the University of Southern California.

“The Tyler Prize is the highest recognition in the field of environmental science,” said Seinfeld. “It’s a humbling honor.”

Previous laureates include Edward O. Wilson, recognized for his early work on the theory of island biogeography; Jane Goodall, selected for her seminal studies on the behavior and ecology of chimpanzees and her impact on wildlife awareness and environmental conservation; Jared Diamond, a renowned author who gave birth to the discipline of conservation biology; and Thomas Lovejoy, a central figure in alerting the world to the critical problem of dwindling tropical forests.

“Professors Smith and Seinfeld are giants in the efforts to understand and reduce the devastating impacts of air pollution,” said Tyler Prize Executive Committee Chair Owen T. Lind, Professor of Biology at Baylor University. “Their respective research has dramatically advanced our understanding of the ways in which air pollution threatens our health as individuals and the health of the planet.” 

This year each Tyler Prize laureate will receive a $100,000 cash prize and a gold medal. The Prize honors exceptional foresight and dedication in the environmental sciences – qualities that mirror the prescience of the Prize’s founders, John and Alice Tyler, who established it while the environmental debate was still in its infancy. 

We are delighted to announce that Impact Carbon received the 2011 Global Leadership Award from the Partnership for Clean Indoor Air (PCIA) at the 5th Biennial PCIA Forum in Peru earlier this month. This award, presented by the First Lady of Peru, recognizes Impact Carbon's success in improving health, livelihood, and quality of life through reduced exposure to indoor air pollution from household energy use. The award celebrates programs which have achieved excellence in the following areas: meeting social and behavioral needs, developing local markets, improving technology design and performance, and monitoring impacts.

As winners of this prestigious award, Impact Carbon's work will serve as a model of best practice for other programs striving to increase the use of clean, efficient, affordable, reliable and safe home cooking practices throughout the world.

Impact Carbon is a nonprofit organization with a mission to improve health, protect the environment and reduce poverty through clean energy projects. For the past nine years, we have worked with researchers and practitioners to bring innovative technologies such as clean-burning and efficient stoves to more than 735,000 people in developing countries. Impact Carbon?s projects are improving health, reducing fuel dependency within poor communities, and ensuring that climate change solutions generate sustainable livelihood opportunities at a local level.

Impact Carbon is internationally recognized as a leader in the field of energy solutions for health and development. In 2009 the organization won the Sustainable Products and Solutions Award, and was a finalist for the International Health Promotion Award in 2010.

Impact Carbon is implementing projects in China, Kenya and Uganda and is planning a number of expansion projects.