most effective tool against climate change

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http://www.drmcdougall.com/misc/2006nl/dec/globalwarming.htm

 

A New Global Warming Strategy: How Environmentalists are Overlooking

Vegetarianism as the Most Effective Tool Against Climate Change in

Our Lifetimes

by Noam Mohr

 

Summary

Global warming poses one of the most serious threats to the global

environment ever faced in human history. Yet by focusing entirely on

carbon dioxide emissions, major environmental organizations have

failed to account for published data showing that other gases are the

main culprits behind the global warming we see today. As a result,

they are neglecting what might be the most effective strategy for

reducing global warming in our lifetimes: advocating a vegetarian

diet.

 

Global Warming and Carbon Dioxide

 

The environmental community rightly recognizes global warming as one

of the gravest threats to the planet. Global temperatures are

already higher than they've ever been in at least the past

millennium,1 and the increase is accelerating even faster than

scientists had predicted.2 The expected consequences include coastal

flooding, increases in extreme weather, spreading disease, and mass

extinctions.

 

Unfortunately, the environmental community has focused its efforts

almost exclusively on abating carbon dioxide (CO2) emissions.

Domestic legislative efforts concentrate on raising fuel economy

standards, capping CO2 emissions from power plants, and investing in

alternative energy sources. Recommendations to consumers also focus

on CO2: buy fuel-efficient cars and appliances, and minimize their

use.3,4

 

This is a serious miscalculation. Data published by Dr. James Hansen

and others5 show that CO2 emissions are not the main cause of

observed atmospheric warming. Though this may sound like the work of

global warming skeptics, it isn't: Hansen is Director of NASA's

Goddard Institute for Space Studies who has been called " a

grandfather of the global warming theory. " 6 He is a longtime

supporter of action against global warming, cited by Al Gore7 and

often quoted by environmental organizations, who has argued against

skeptics for subverting the scientific process.8 His results are

generally accepted by global warming experts, including bigwigs like

Dr. James McCarthy, co-chair of the International Panel on Climate

Change's Working Group II.9

 

The focus solely on CO2 is fueled in part by misconceptions. It's

true that human activity produces vastly more CO2 than all other

greenhouse gases put together. However, this does not mean it is

responsible for most of the earth's warming. Many other greenhouse

gases trap heat far more powerfully than CO2, some of them tens of

thousands of times more powerfully.10 When taking into account

various gases' global warming potential-defined as the amount of

actual warming a gas will produce over the next one hundred years-it

turns out that gases other than CO2 make up most of the global

warming problem.11

 

Even this overstates the effect of CO2, because the primary sources

of these emissions-cars and power plants-also produce aerosols.

Aerosols actually have a cooling effect on global temperatures, and

the magnitude of this cooling approximately cancels out the warming

effect of CO2.12 The surprising result is that sources of CO2

emissions are having roughly zero effect on global temperatures in

the near-term!13

 

This result is not widely known in the environmental community, due

to a fear that polluting industries will use it to excuse their

greenhouse gas emissions. For example, the Union of Concerned

Scientists had the data reviewed by other climate experts, who

affirmed Hansen's conclusions.14 However, the organization also cited

climate contrarians' misuse of the data to argue against curbs in

CO2.15 This contrarian spin cannot be justified.

 

While CO2 may have little influence in the near-term, reductions

remains critical for containing climate change in the long run.

Aerosols are short-lived, settling out of the air after a few months,

while CO2 continues to heat the atmosphere for decades to centuries.

Moreover, we cannot assume that aerosol emissions will keep pace with

increases in CO2 emissions.16 If we fail to start dealing with CO2

today, it will be too late down the road when the emissions catch up

with us.

 

Nevertheless, the fact remains that sources of non-CO2 greenhouse

gases are responsible for virtually all the global warming we're

seeing, and all the global warming we are going to see for the next

fifty years. If we wish to curb global warming over the coming half

century, we must look at strategies to address non-CO2 emissions. The

strategy with the most impact is vegetarianism.

 

Methane and Vegetarianism

 

By far the most important non-CO2 greenhouse gas is methane, and the

number one source of methane worldwide is animal agriculture.17

 

Methane is responsible for nearly as much global warming as all other

non-CO2 greenhouse gases put together.18 Methane is 23 times more

powerful a greenhouse gas than CO2.19 While atmospheric

concentrations of CO2 have risen by about 31% since pre-industrial

times, methane concentrations have more than doubled.20 Whereas human

sources of CO2 amount to just 3% of natural emissions, human sources

produce one and a half times as much methane as all natural

sources.21 In fact, the effect of our methane emissions may be

compounded as methane-induced warming in turn stimulates microbial

decay of organic matter in wetlands-the primary natural source of

methane.22

 

With methane emissions causing nearly half of the planet's

human-induced warming, methane reduction must be a priority. Methane

is produced by a number of sources, including coal mining and

landfills-but the number one source worldwide is animal

agriculture.23 Animal agriculture produces more than 100 million tons

of methane a year.24 And this source is on the rise: global meat

consumption has increased fivefold in the past fifty years, and shows

little sign of abating.25 About 85% of this methane is produced in

the digestive processes of livestock,26 and while a single cow

releases a relatively small amount of methane,27 the collective

effect on the environment of the hundreds of millions of livestock

animals worldwide is enormous. An additional 15% of animal

agricultural methane emissions are released from the massive

" lagoons " used to store untreated farm animal waste,28 and already a

target of environmentalists' for their role as a primary source of

water pollution in the U.S.29

 

The conclusion is simple: arguably the best way to reduce global

warming in our lifetimes is to reduce or eliminate our consumption of

animal products. Simply by going vegetarian (or, strictly speaking,

vegan), 30,31,32 we can eliminate one of the major sources of

emissions of methane, the greenhouse gas responsible for almost half

of the global warming impacting the planet today.

 

Advantages of Vegetarianism over CO2 Reduction

 

In addition to having the advantage of immediately reducing global

warming, a shift away from methane-emitting food sources is much

easier than cutting carbon dioxide.

 

First, there is no limit to reductions in this source of greenhouse

gas that can be achieved through vegetarian diet. In principle, even

100% reduction could be achieved with little negative impact. In

contrast, similar cuts in carbon dioxide are impossible without

devastating effects on the economy. Even the most ambitious carbon

dioxide reduction strategies fall short of cutting emissions by half.

 

Second, shifts in diet lower greenhouse gas emissions much more

quickly than shifts away from the fossil fuel burning technologies

that emit carbon dioxide. The turnover rate for most ruminant farm

animals is one or two years, so that decreases in meat consumption

would result in almost immediate drops in methane emissions. The

turnover rate for cars and power plants, on the other hand, can be

decades. Even if cheap, zero-emission fuel sources were available

today, they would take many years to build and slowly replace the

massive infrastructure our economy depends upon today.

 

Similarly, unlike carbon dioxide which can remain in the air for more

than a century, methane cycles out of the atmosphere in just eight

years, so that lower methane emissions quickly translate to cooling

of the earth.

 

Third, efforts to cut carbon dioxide involve fighting powerful and

wealthy business interests like the auto and oil industries.

Environmental groups have been lobbying for years to make

fuel-efficient SUVs available or phase out power plants that don't

meet modern environmental standards without success. At the same

time, vegetarian foods are readily available, and cuts in

agricultural methane emissions are achievable at every meal.

 

Also, polls show that concern about global warming is widespread, and

environmental activists often feel helpless to do anything about it.

Unless they happen to be buying a car or major appliance, most people

wanting to make a difference are given little to do aside from

writing their legislators and turning off their lights. Reducing or

eliminating meat consumption is something concerned citizens can do

every day to help the planet.

 

Finally, it is worth noting that reductions in this source of

greenhouse gas have many beneficial side effects for the environment.

Less methane results in less tropospheric ozone, a pollutant damaging

to human health and agriculture.33 Moreover, the same factory farms

responsible for these methane emissions also use up most of the

country's water supply, and denude most of its wilderness for

rangeland and growing feed. Creating rangeland to feed western

nations' growing appetite for meat has been a major source of

deforestation and desertification in third world countries. Factory

farm waste lagoons are a leading source of water pollution in the

U.S. Indeed, because of animal agriculture's high demand for fossil

fuels, the average American diet is far more CO2-polluting than a

plant-based one.34

 

Recommendations

 

l Organizations should consider making advocating vegetarianism a

major part of their global warming campaigns. At a minimum,

environmental advocates should mention vegetarianism in any

information about actions individuals can take to address global

warming.

 

l Government policy should encourage vegetarian diets. Possible

mechanisms include an environmental tax on meat similar to one

already recommended on gasoline, a shift in farm subsidies to

encourage plant agriculture over animal agriculture, or an increased

emphasis on vegetarian foods in government-run programs like the

school lunch program or food stamps.

 

ENDNOTES

_____________________

 

1 Some examples: U.S. PIRG's global warming site

(http://uspirg.org/uspirg.asp?id2=5235) advocates increasing fuel

efficiency standards, capping CO2 from power plants, shifting

investments from fossil fuels, and ratifying the Kyoto Protocol. The

Sierra Club global warming site

(http://www.sierraclub.org/globalwarming/overview/solutions.asp)

advocates energy efficiency in cars, power plants, and increasing

solar and wind energy. The Natural Resources Defense Council

(http://www.nrdc.org/globalWarming/gsteps.asp) recommends

energy-efficient appliances, fuel efficient cars, compact fluorescent

light bulbs, planting trees, weatherizing your home, and contacting

your representatives. The Union of Concerned Scientists' site

(www.ucsusa.org) recommends curbing our consumption of fossil fuels,

using technologies that reduce emissions, and protecting the world's

forests.

2 It's worth noting that buying fuel efficient cars and light trucks

do not directly reduce carbon dioxide emissions. Because auto

manufacturers are bound only by fleet-wide averages, every

low-gas-mileage car sold simply allows them to sell another gas

guzzler. However, choosing efficiency is not for naught: demand for

fuel efficiency may help drive technological innovation and reduce

industry opposition to improved fuel economy standards. Moreover,

since cars have stricter standards than light trucks, it is always

better to buy the former.

3. Hansen, James E. et al., " Global warming in the twenty-first

century: An alternative scenario, " Proceedings of the National

Academy of Sciences, vol. 97, no. 18, 29 Aug. 2000, p. 9876, 5.

 

4.Llanos, Miguel, " 'Alternative' view offered on battling climate

change; NASA scientist: CO2 still a factor but other gases are key " ,

MSNBC News - Environment, 31 Aug. 2000,

http://www.msnbc.com/news/447151.asp.

 

5. Gore, Albert, Earth in the Balance, Houghton Mifflin Co., 2000, p. 176.

 

6. Hansen, James E., " The Global Warming Debate " , NASA Goddard

Institute for Space Studies Education,

http://www.giss.nasa.gov/edu/gwdebate/.

7. Moser, Susi, " Review of Hansen et al.: 'Global warming in the

twenty-first century: An alternative scenario' " , Information Update,

The Union of Concerned Scientists, September 2000, p.2,

http://www.ucsusa.org/documents/reviewofalt.pdf.

 

8. SF6 has a global warming potential 23,900 times that of carbon

dioxide. HFC-23 has a global warming potential 11,700 times that of

carbon dioxide. " Global Warming Potentials " , National Emissions, U.S.

Environmental Protection Agency,

http://www.epa.gov/nonco2/econ-inv/table.html.

 

9. Hansen, James E. and Makiko Sato, " Trends of measured climate

forcing agents " , Proceedings of the National Academy of Sciences,

vol. 98, no. 26, 18 Dec. 2001, p. 14778-14783,

http://www.pnas.org/cgi/content/full/98/26/14778. The estimated

climate forcing of carbon dioxide from 1850 to 2000 is 1.4 W/m2,

while the combined forcings of methane, CFCs, nitrous oxide, and

tropospheric ozone is 1.6 W/m2 when indirect effects via water and

ozone are taken into account.

 

10. Hansen and Sato, supra note 11. Estimated climate forcing of

aerosols from 1850 to 2000, is -1.5 W/m2, larger than the positive

forcing of carbon dioxide. Admittedly, estimates of aerosol forcing

have large uncertainties; however, there are as likely to be too low

as too high. Among aerosols, black carbon warms the atmosphere, both

by absorbance and through semi-direct dirty cloud and snow effects,

while sulfates, nitrates, and organic aerosols have a cooling effect,

both by directly reflecting sunlight and by indirectly making clouds

less bright and reducing cloud cover. Hansen, et al., supra note 5.

 

11. However, Hansen points out that " Offsetting of global mean

forcings does not imply that climate effects are negligible. " Hansen,

et al., supra note 5.

 

12. Moser, p. 1-2, supra note 9.

 

13. Moser, p. 4, supra note 9.

 

14. Hansen, et al., supra note 5.

 

15. Animal agriculture is also a major source of nitrous oxide

emissions, another important greenhouse gas 310 times more powerful

than carbon dioxide. 73% of U.S. emissions of nitrous oxide come from

animal grazing, manure management, and crop growing practices-with

half of U.S. crops grown for livestock feed. Agricultural emissions

of nitrous oxide in the U.S. increased 9% from 1990 to 2002.

" Inventory of U.S. Greenhouse Gas Emissions: 1990-2002, " EPA

430-R-04-003, U.S. Environmental Protection Agency, 15 April 2004, p.

ES-16, http://www.epa.gov/globalwarming/publications/emissions.

 

16. Hansen and Sato, supra note NOTEREF _Ref90104934 \h 11.

Estimated climate forcing of methane from 1850 to 2000 is 0.7 W/m2,

while estimated forcing of CFCs, tropospheric ozone, and nitrous

oxide combined is 0.9 W/m2.

 

17. " Global Warming Potentials " , supra note 10.

 

18. Atmospheric CO2 concentrations have risen from 278 parts per

million (ppm) in 1750 to 365 ppm in 1998. Atmospheric concentrations

of methane have increased by 149% since 1750, from .700 ppm to 1.745

ppm. " Emissions of Greenhouse Gases in the United States 2002 " ,

Chapter 1, Energy Information Administration, U.S. Department of

Energy, October 2003, http://www.eia.doe.gov/oiaf/1605/ggrpt.

 

19. Natural sources emit 770 billion metric tons of CO2, and 239

million metric tons of methane, compared to 23.1 billion and 359

million, respectively, for anthropogenic sources. " Emissions of

Greenhouse Gases in the United States 2002 " , supra note 20.

 

20. Hansen, et al, supra note 5. It is also possible that warming may

dampen natural sources of methane by drying out wetlands.

 

21. Animal agriculture is responsible for 32% of global methane

emissions from human activity, including 28% from domesticated

livestock and 4% from livestock manure. Natural gas is the second

largest source, accounting for 15% of emissions. Kruger, Dina, " The

Role of 'Other Gases' in Addressing Climate Change " , U.S.

Environmental Protection Agency, 12 Feb 2004,

http://www.iges.or.jp/en/cp/output_all/

workshop/usjapan/pdf/06Kruger.pdf.

 

22. " Emissions of methane from livestock " , Climate Change Fact Sheet

32, Information Unit on Climate Change (IUCC), UNEP, 1 May 1993,

http://www.unep.ch/iucc/fs032.htm.

 

23. World meat production reached 242 million tons in 2002, from 122

million tons in 1977, and from 44 million tons in 1950. Additionally,

per capita meat consumption has more than doubled since 1950, from 17

to 39 kg per person. Vital Signs 2003, Worldwatch Institute, May

2003, p.30-31, http://www.worldwatch.org/pubs/vs/2003. The majority

of the meat is consumed by developed countries. Delgado, Christopher

et al., Livestock to 2020: The Next Food Revolution, " Food,

Agriculture, and the Environment Discussion Paper 28 " , International

Food Policy Research Institute, May 1999,

http://www.ifpri.org/2020/dp/dp28.pdf.

 

24. " The Role of 'Other Gases' in Addressing Climate Change " , supra

note 23. Methane emissions come particularly from ruminant animals,

like cows, sheep, buffalo, and goats, but also from non-ruminants

like pigs and horses. " Emissions of methane from livestock " , supra

note 24.

 

25. Not including methane released from manure, an adult cow produces

80-110 kg of methane a year. " Frequent Questions " , Ruminant

Livestock, U.S. Environmental Protection Agency,

http://www.epa.gov/rlep/faq.html.

 

26. " The Role of 'Other Gases' in Addressing Climate Change " , supra note 23.

 

27. " Water Quality Conditions in the United States " , U.S.

Environmental Protection Agency, August 2002,

http://www.epa.gov/305b/2000report.

 

29. Herein, the term " vegetarian " is used to refer not just to a

meatless diet, but to one free of animal products, i.e. a " vegan "

diet. Dairy cows, for example, produce even more methane per animal

than beef cattle. Logically, the same concerns extend beyond diet to

the consumption of other consumer goods derived from livestock, like

wool and leather.

 

30. Because ruminant livestock produce far more methane than

non-ruminant livestock, reductions in agricultural methane can also

be achieved by shifting consumption away from cows and sheep in favor

of chickens and pigs. However, the benefits of such shifts are not

simple; for example, in the U.S., manure from pigs produces more than

five times as much methane as manure from beef cattle. ( " Inventory of

U.S. Greenhouse Gas Emissions: 1990-2002 " , p. 181, supra note 17.)

Moreover, the large scale production of these animals in concentrated

animal feeding operations (CAFOs) is associated with numerous other

environmental harms already extensively documented by environmental

organizations, making the trade of one environmental danger for

another a Faustian bargain.

 

30. The U.S. Environmental Protection Agency's efforts to address

methane from livestock amount to encouraging changes in feed and

increasing the amount of product (meat, milk, offspring) per animal.

Even at best such efforts are unlikely to achieve large reductions in

emissions per animal, and any such reductions are easily swamped by

increases in the number of animals raised overall. Methane emissions

from manure can also be captured and used to produce energy.

 

31. Hansen, et al, supra note 5.

 

32. Pimentel and Pimentel estimate that the production of animal

products requires more than 10 times as much fossil fuel as the

production of plant foods, averaging 25 kcal of fossil fuel input per

kcal of animal protein, compared with 2.2 kcal of fossil fuel input

per kcal of plant protein. Pimentel, David and Marcia Pimentel,

" Sustainability of Meat-Based and Plant-Based Diets and the

Environment " , American Journal of Clinical Nutrition, Vol. 78, No. 3,

September 2003,pp. 660S-663S. On CO2 see Tidwell, Mike, " Food and the

Climate Crisis: What You Eat Affects the Sky " , Sierra Club Redwood

Chapter Newsletter, Dec./Jan. 2005,

http://www.redwood.sierraclub.org/articles/

December_04/FoodClimateCrisis.html.