Abstract
Eggs loaded for trucking to market near Chesterfield, SC.
Photo by Dave Warren. Courtesy of USDA. |
The term ‘food miles’ refers to the distance food travels from the location where it is grown to the
location where it is consumed, or in other words, the distance food travels from farm to plate. Recent
studies have shown that this distance has been steadily increasing over the last fifty years. Studies
estimate that processed food in the United States travels over 1,300 miles, and fresh produce travels
over 1,500 miles, before being consumed. This publication addresses how food miles are calculated,
investigates how food miles affect producers and consumers, and evaluates methods for curbing the
energy intensiveness of our food transportation system.
Funding for the
development of this publication was provided by the USDA Risk
Management Agency. |
Table of Contents
Introduction
The food mile is a fairly new concept referring
to the distance food travels from the
location where it is produced to the location
where it will eventually be consumed.
Food miles have become one method for
evaluating the sustainability of the global
food system in terms of energy use. This
concept has received an increasing amount
of attention over the last decade as climate
change patterns have become ever more
apparent. This publication investigates
the amount of energy invested in food
transportation, addresses how food miles
affect both producers and consumers and
suggests possibilities for creating a more
sustainable food system.
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Background
Trends
The United States food system has changed
substantially over the last fifty years due
to a large variety of circumstances including
the globalization and centralization of
the food industry and the concentration of
the food supply onto fewer, larger suppliers.
A report released in 1998 by the USDA
found that 80% of the meat industry is controlled
by only four firms.(1) In his essay
entitled “Food Democracy,” Brian Halweil
states that half of the food items in a typical
supermarket are produced by no more than
10 multinational food and beverage companies.(2) The majority of food consumed
today passes through a complex, indirect
network of a few large, centralized producers,
processors, transporters and distributors
before reaching the consumer.
An additional change in the food system is
the increasing trend of these multinational
firms sourcing food from outside of regional,
state and even national boundaries in order
to provide consistent products at low prices. Figure 1 illustrates the steady increase in
world agricultural trade between 1961 and
2000.(3)
Fig. 1: Volume of World Agricultural Trade, 1961-2000.
Source: Brian Halweil. Home
Grown: The Case for Local Food in a Global Market. 2002.
The development of global food transport
systems has resulted in higher consumer
expectations. Consumers now have the ability
to choose from a wide variety of food
items, regardless of the season or their location,
all at a low price.
The ability to enjoy consistent produce and
exotic ingredients at all times of the year
is a luxury that, according to many food
system analysts, has its price. The farther
food travels and the longer it takes en
route to the consumer, the more freshness
declines and the more nutrients are lost.
Many fruits and vegetables are engineered
for a long shelf life, sacrificing taste and
nutrition for preservation.
As large multinational companies gain control
over the food industry, small local farmers
suffer. Since 1979, 300,000 farmers
have gone out of business and those remaining
are receiving 13% less for every consumer
dollar for farm goods.(1) Large distributors
are able to drive prices down on
imported goods, forcing many small farms
to either export their crop as a raw commodity
or replace regional crops with something
more profi table. For example, in 1870
100% of the apples consumed in Iowa were
produced in Iowa. By 1999, Iowa farmers
grew only 15% of the apples consumed
in the state.(4) This phenomenon limits
the potential for local self-sufficiency and
increases dependency on outside sources.
Changes in the food system have resulted in
a broad range of social and economic implications,
but the present food system also
has an environmental cost. The farther food
travels, the more fossil fuels are required
for transport. The burning of fossil fuels
leads to the emission of greenhouse gases,
which contribute to global warming. The following
sections will investigate the extent to
which food miles contribute to high energy
consumption levels and CO2 emissions.
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Related ATTRA Publications
|
The Energy Embedded in Our Food
The Carbon Footprint of the Food System
While studies vary, a typical estimate is
that the food industry accounts for 10% of
all fossil fuel use in the United States.(5)
Of all the energy consumed by the food system,
only about 20% goes towards production;
the remaining 80% is associated with
processing, transport, home refrigeration
and preparation.
Recent research at the University of Chicago
has investigated the energy consumption
of the food system and compared it to the
energy consumption associated with personal
transportation in the United States.
Personal transportation is often recognized
as a major contributor to greenhouse
gas emissions, as evident in the movement
towards higher efficiency vehicles. This
study found, however, that the average
American uses between 170 and 680 million
BTUs of energy in personal transportation
annually and roughly 400 million
BTUs in food consumption.(6) The food
industry accounts for a considerable portion
of energy consumption in the United States
and merits closer evaluation.
According to one study, food transportation
accounts for 14% of energy use within the
food system. Figure 2 demonstrates the
energy use required for each step of the food
industry process.(7) Food miles, although
a fraction of the U.S. energy consumption
as a whole, remain a considerable source of
carbon emissions, especially when considering
that the United States is the single largest
emitter of greenhouse gases in the world,
accounting for 23% of the global total at
nearly 1,600 million metric tons annually.
The U.S. food system alone uses as much
energy as France’s total annual energy
consumption.(8)
Fig. 2: Transportation accounts for 14% of energy use within the food system.
Source:
Heller and Keoleian. Life Cycle-Based Sustainability Indicators for Assessment of the U.S.
Food System. 2000.
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Calculating Food Miles
How Far Does Food Travel?
The Leopold Center for Sustainable Agriculture
has been the leading researcher of
food miles in the United States and has conducted
several studies comparing the distance
food travels if it is sourced locally
rather than conventionally. A 1998 study
examined the distance that 30 conventional
fresh produce items traveled to reach the
Chicago Terminal Market.
The Leopold Center found that only two
food items, pumpkins and mushrooms,
traveled less than 500 miles. Six food items
including grapes, lettuce, spinach, broccoli,
cauliflower and green peas traveled over
2,000 miles to reach the Chicago market.
The average distance traveled amounted
to 1,518 miles.(9) Figure 3 shows the distance that select produce items
traveled before reaching their destination at
the Chicago Terminal Market.
Fig.3: Distance Produce Traveled to Reach Chicago Market.
Source: Leopold Center for Sustainable Agriculture
Another study conducted in the Waterloo
Region of Southwestern Ontario investigated
the food miles associated with 58 commonly
eaten, imported foods. The study found
that each food item traveled an average of
4,497 kilometers or 2,811 miles, producing
51,709 tons of greenhouse gas emissions
annually.(10)
These calculated distances don’t include the
distance consumers travel to shop for food
or the distance that waste food travels to be
disposed of. It is apparent that food is traveling
long distances, but the extent to which
food miles have an effect on the environment
is more complex. The following sections
will cover the formulas used to calculate
food miles and investigate the energy
involved in the transportation of food.
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How Are Food Miles Calculated?
A series of formulas for calculating food miles has been developed and has become
widely accepted. Calculating the distance a
food item has traveled varies in complexity
depending on whether the item is made up
of a single ingredient or multiple ingredients
and the mode of transportation used to
carry the item.
The Weighted Average Source Distance
(WASD) formula was developed by Annika
Carlsson-Kanyama in 1997 and takes into
account the amount of food transported in
weight and the distance that it travels from
the place of production to the place of sale.
Fruits and vegetables and other items consisting
of only one ingredient would utilize the
WASD formula for calculating food miles.
The Weighted Total Source Distance
(WTSD) formula was developed by the
Leopold Center for Sustainable Agriculture
and accounts for multiple-ingredient foods
by calculating the weight and distance
traveled for each ingredient.
Foods like flavored
yogurt, bread, and other
processed foods would
employ the WTSD formula
for calculating food miles.
While both WASD and
WTSD convey an estimate
of the distance food travels
between the producer
and consumer, neither formula
addresses greenhouse
gas emissions associated
with this distance traveled.
The Weighted Average
Emissions Ratio (WAER)
formula takes into account both distance
and the associated greenhouse gas emissions
for different modes of transportation.
This formula was developed by the nonprofit organization LifeCycles, in 2004.
For detailed information about food miles
formulas and calculating food miles,
see the Leopold Center’s publication, Calculating food miles for a multiple ingredient
food product (PDF / 293K).
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Mode of Transportation
As suggested by the Weighted Average
Emissions Ratio formula, the mode by
which food is transported is an important
factor when considering the environmental
impact of food miles. A food item traveling
a short distance may produce more CO2
than an item with high food miles, depending
on how it is transported.
Figure 4 contains the estimated values
of energy consumption and greenhouse
gas emissions for four different transportation
modes measured in the UK.(11) Air transportation
is, by far, the most energy intensive
means of transporting food and other goods.
Fig.4: Energy use and emissions for different modes of freight transport.
Source: Transport for a Sustainable Future: The Case for Europe. (11)
A study released in the UK in 2005 found
that air transport is the fastest growing
mode of food distribution and although
air transport accounts for only 1% of food
transport in the UK, it results in 11% of
the country’s CO2 emissions. The UK report
also estimated that the social and economic costs of food transport including accidents,
noise and congestion amount to over 9
billion British pounds every year or 18
billion American dollars.(12)
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Food Miles and Energy
Is Local Food Less Energy Intensive?
Proponents of reducing food miles often
suggest that buying local food will reduce
the amount of energy involved in the transportation
process, as food sourced locally
travels shorter distances. The Leopold Center
for Sustainable Agriculture has conducted
several studies that compare the distance
traveled by conventional versus local
foods. Figure 5, compiled by the
Leopold Center, compares food miles for
local versus conventional produce traveling
to Iowa. In all cases, the locally grown food
travels a significantly shorter distance than
the conventionally sourced food.
Fig. 5: Food miles for local versus conventional produce.
Source: Leopold Center for Sustainable Agriculture.
Another study conducted by the Leopold
Center in 2001 investigated the distance
that food traveled to institutional markets
such as hospitals and restaurants in Iowa
using three different food sources: conventional,
Iowa-based regional and Iowa-based
local. The study found that food sourced from the conventional system used 4 to 17
times more fuel than the locally sourced
food and emitted 5 to 17 times more CO2.(4)
The Leopold Center used this information
to estimate the distance, fuel consumption
and CO2 emissions that could potentially be
saved by replacing 10% of the Iowa’s current
food system with regional or locally sourced
food. This information is displayed in Figure 6. It is interesting to note
that when the transportation method was
taken into account, the local food system
required more energy and emitted more CO2
than the regional system. This is because the
trucks supplying food locally
had a smaller capacity, therefore
requiring more trips and
logging more miles.
It has been shown that local
food systems do reduce food
miles, which in turn tend to
reduce energy consumption,
but there are exceptions.
Local transportation systems
may not always be as efficient
as regional systems, depending
on the mode of transport
and load capacity.
Fig.6: Estimated fuel consumption, CO2 emissions and distance traveled for conventional, Iowa-based regional, and Iowa-based local food systems for produce.
Source: Leopold Center for Sustainable Agriculture.
Does Reducing Food Miles Reduce Energy Use?
A Japanese group, Daichio-Mamoru Kai (The
Association to Preserve the Earth) conducted a study that found
that a typical Japanese family could
reduce their CO2emissions by 300 kilograms
annually by eating locally.(13) The
Canadian Waterloo Region study mentioned
above estimated that sourcing
the 58 food items in the study locally and
regionally rather than globally could reduce
greenhouse gas emissions by 49,485 tons
annually. This is the equivalent of removing
16,191 vehicles from the road.(11)
The food miles issue becomes even more
complex when considering factors besides
distance traveled and mode of transportation.
The energy required to grow some
foods in unsuitable climates may override
the energy of transporting food from locations
where the food is more easily grown.
For example, a Swedish study found that
tomatoes traveling from Spain to Sweden
were less energy intensive than tomatoes
raised in Sweden, because of the process by
which they were grown. The Spanish tomatoes
were raised in the open ground, while
the Scandinavian climate required tomatoes
to be raised in heated greenhouses utilizing
more fossil fuels.(4)
A New Zealand report found that exporting
some foods to the UK consumes less
energy than producing the same food in
the UK because the agricultural system in
New Zealand tends to use less fertilizer and
raises year round grass-fed livestock, which uses less energy than housing and feeding
animals.(14)
The UK Department for Environment, Food
and Rural Affairs (DEFRA) released a
report in 2005, which determined that food
miles alone are not a valid indicator of the
sustainability of the food system. In some
cases, reducing food miles may reduce
energy use, but there may be other social,
environmental or economic trade-offs. The
consequences of food transport are complex
and require a group of indicators to determine
the global impact of food miles.(13)
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Life Cycle Assessment
There is increasing significance in considering
all stages of energy consumption in
the food system. Many organizations have
investigated the idea of life-cycle-based
analysis to determine the sustainability of
the food system.
Life cycle assessment (LCA) is a method
used to analyze the consumption and environmental
burdens associated with a product.
LCA takes into account energy input
and output involved in all stages of the life
cycle including production, processing,
packaging, transport and retirement. Life
cycle evaluation accounts for a matrix of
sustainability indicators beyond greenhouse
gas emissions, including resource depletion,
air and water pollution, human health
impacts and waste generation. This method
provides a more holistic approach to assessing
the impact our food choices have on the
environment.(7)
Life cycle assessments of various conventional
food products have found that the
current food production and consumption
patterns are unsustainable.(15) Adopting
a “life cycle thinking” approach to
food consumption would be a productive
method for increasing the sustainability of
the food system.
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What Producers Should Know
Cranberries loaded on truck for shipment.
Photo by Earl J. Otis. Courtesy of USDA. |
In general, the idea of reducing food miles
is good news for producers. Reducing
energy costs equates to saving money and consumers who are reducing food miles help
to create local markets. There are many
ways of reducing the energy intensiveness
of your operation. Reducing fuel consumption,
maintaining equipment and assessing
field practices can have great impacts
that will both reduce your energy use and
save you money. The ATTRA Farm Energy
Web pages contain a host of information
about managing energy-related costs on
the farm. You will find links to farm energy
calculators, renewable energy information
and links to food miles resources.
Marketing
For producers, reducing food miles means
selling products to a more local or regional
market. While, this may be an intimidating
prospect for farmers who have no experience
with alternative markets, the opportunities
are significant and diverse, including farmers’ markets, CSAs and farm-to-institution
programs, all of which are looking for local
producers. The following sections briefly
examine some of the markets and methods
available for a producer looking to reduce
the energy involved in transporting food.
Direct Marketing
Direct marketing allows farmers to compete
with wholesale market channels and
mass supermarket systems, thereby creating
a local food network and reducing the
distance that food travels. Direct marketing
networks could include farmers’ markets,
wholesale food terminals and community-supported
agriculture. The ATTRA publication Direct Marketing offers information
about alternative marketing systems, with
an emphasis on value-added crops.
Farmers’ Markets and CSAs
Selling produce at farmers’ markets is one
alternative marketing strategy available for
producers. By removing brokers from the
distribution chain, farmers are able to reap
a greater profit. Farmers’ markets also benefit community interaction and economic
development. For more information about
how to join or start a farmers’ market successfully,
see the ATTRA publication Farmers’ Markets: Marketing and Business Guide.
Community supported agriculture (CSA)
offers another option for marketing to a
local or regional clientele. CSAs typically
have members that are “share-holders” in
the farm, paying for the anticipated costs
of the farm operation. The ATTRA publication Community Supported Agriculture contains information about production considerations
and using the Internet as a means
of information dissemination to members.
The number of farmers’ markets and CSAs
has grown substantially over the last decade
indicating both the potential of success for
the farmer and the growing demands of
consumers for fresh, local food.
Farm-to-Institution Programs
Selling food directly to schools, hospitals,
prisons and other institutions is becoming
an increasingly popular option. Selling food
to institutions creates a reliable market for
the farmer and provides great health and
economic benefits to the consumer. Farm-to-institution
programs also reduce food miles.
The University of Montana’s Farm to College
program estimated that replacing a year’s
supply of conventionally sourced hamburgers
and French fries with local ingredients saved
43,000 gallons of fuel and the associated
greenhouse gasses from being emitted.(16)
For more information about setting up a farm-to-institution program in your area, see the
ATTRA publication Bringing Local Foods to
Local Institutions: A Resource Guide for Farm-to-School and Farm-to-Institution Programs.
Ecolabels
Ecolabels offer one method for educating
consumers about locally grown, sustainably
raised foods, and have proven effective in
product marketing. An ecolabel is a seal or
a logo indicating that a product has met a
certain set of environmental and/or social
standards or attributes.
The Leopold Center for Sustainable Agriculture
has researched the impact that labeling
food with ecolabels containing information such as food miles and CO2 emissions has
on consumers. The study aimed to determine
consumer opinion of locally produced
food and food miles. Surveys found that
consumers were more responsive to labels
that focused on the food product’s freshness
and quality rather than environmental
impact or CO2 emissions. Consumers
perceive that locally grown food is fresher;
therefore ecolabels that contain information
such as “locally grown by family farmers” may be effective in influencing consumer
food choices. The study also found that
consumers are willing to pay more for food
that has low environmental impacts.(17) Figure 7 is an example of a food label
containing food miles information.
Fig. 7: Food miles ecolabel example.
Source: Leopold Center for Sustainable Agriculture
The Western Montana Sustainable Growers
Union is a group of 12 Missoula-area
organic farms that has developed the “Homegrown” label, which informs consumers
that the food item they are purchasing
was grown within 150 miles. Producers
in the group pledge “to grow naturally, protect
air and water, maintain fair labor practices
and, most importantly, to sell and buy
in their communities.” Groups such as this
are jumping up across the country and having
an impact on their markets.(18)
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Consumer Considerations
Consumer Demand
Producers may question the extent to
which consumers are using food miles as
a basis for their food choices. In general
food choices are no doubt based on price,
taste and appearance and a large section of
the public knows and cares little about climate
change, especially with regard to food
choices.(19)
There has been increasing demand for food
produced in accordance with ethical and
environmental standards, however, such as
organic and fair trade. Food mile concerns
may grow as well. Increasing food security
and the domestic supply chain may be other
arguments for reducing food miles.
Why Consumers Should Care
About Food Miles
For consumers, convenience and cost are
often driving factors when purchasing food.
The choices consumers make, however, can
have a great deal of infl uence on the direction
our food system is headed. Reducing
the energy intensiveness of our food has
several economic, social and environmental
benefits. Consumers who are reducing their
food mile footprint:
- Enjoy fresher, healthier food
- Support local farmers
- Keep their money in the community
- Know where their food comes from
- Reduce their carbon footprint
Diet and Energy
Buying local and regional food is just one of
many dietary choices with important environmental
consequences. The FAO estimates
that livestock are responsible for 18%
of global greenhouse gas emissions.(20) A
study at the University of Chicago compared
the energy consumption associated with
animal-based diets versus plant-based diets
and found that consuming a typical American
diet of both animals and plants results
in 1,485 kg more CO2 than a diet based on
plant sources only.
This study concludes that “For a person
consuming a red meat diet at 35% of calories
from animal sources, the added GHG
burden above that of a plant eater equals
the difference between driving a Camry and
an SUV. These results clearly demonstrate
the primary effect of one’s dietary choices
on one’s planetary footprint, an effect comparable
in magnitude to the car one chooses
to drive.”(6)
Local vs. Organic
There has been a great amount of public
interest over the last few years in organic
food systems. This is an indication of consumers’ increasing awareness of where their
food is coming from. Organic food is grown
without synthetic fertilizers or pesticides.
Since these chemicals are usually made from
natural gas and other fossil fuels, through a
highly energy-intensive process, eliminating
synthetic fertilizer and pesticides can significantly reduce the amount of energy required
for production. However, increased demand
for organics has resulted in retailers sourcing
organically grown food from around the globe,
creating increased emissions in the transportation
process. Some locally grown nonorganic
foods may be less energy intensive
than organic foods traveling long distances.
When evaluating our food options, the decisions
are complex, especially if you want to
make sustainable choices. Local, organic,
fair-trade and other forms of sustainably produced
food all play a role in creating sustainable
food consumption patterns. The following
table provides some guidelines for making
ethical food decisions.
Table 1. What individuals can do to reduce food miles. Adapted from Brian Halweil’s Home Grown: the Case for Local Food in a Global Market. 2002. |
- Learn what foods are in season in your area and try to build your diet around them.
- Shop at a local farmers’ market. People living in areas without a farmers’ market might try to start one
themselves, linking up with interested neighbors and friends and contacting nearby farmers and agricultural
officials for help. People can do the same with CSA subscription schemes.
- Eat minimally processed, packaged and marketed food. Generally speaking, the less processing and packaging
you see, the less energy went into production and marketing, the less global warming pollution was created.
- Ask the manager or chef of your favorite restaurant how much of the food on the menu is locally grown, and
then encourage him or her to source food locally. Urge that the share be increased. People can do the same at
their local supermarket or school cafeteria.
- Consolidate trips when grocery shopping. Consider carpooling, public transportation, or a bike trailer for
hauling groceries to reduce your personal contribution to food miles.
- Take a trip to a local farm to learn what it produces.
- Limit the amount of meat you consume and when you do buy meat, look for organic or free-range meat
produced on sustainable farms.
- Produce a local food directory that lists all the local food sources in your area, including CSA arrangements, farmers’ markets, food co–ops, restaurants emphasizing seasonal cuisine and local produce, and farmers
willing to sell direct to consumers year-round.
- Buy extra quantities of your favorite fruit or vegetable when it is in season and experiment with drying,
canning, jamming, or otherwise preserving it for a later date.
- Plant a garden and grow as much of your own food as possible.
- Speak to your local politician about forming a local food policy council to help guide decisions that affect the
local foodshed.
|
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Food Miles Tools
The Life Cycles food calculator determines
the distance and amount of greenhouse
gases saved if a certain food product
is bought locally as opposed to imported.
A tool for residents within the UK to
calculate their food carbon footprint to
better understand the extent to which food
decisions impact global warming.
A tool for acquiring an aggregated description
of emissions, waste and the resource use from
soil to kitchen per unit of different food items.
This calculator was designed to help users
determine expanding markets in Iowa if
consumers ate more locally grown fresh
fruits and vegetables rather than produce
from conventional sources outside the state.
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Conclusion
Truck on highway near Petersburg, West Virginia.
Photo by Ken Hammond. Courtesy of USDA. |
Food miles are a growing cause of concern
due to the greenhouse gas emissions
released through the transportation
of our food—and rightly so, as food miles
consume a considerable amount of energy.
However, we must consider the many complexities
of the food system besides just
the distance our food is traveling. Other
important issues include the mode of transportation,
the production method, and packaging
considerations, as well as our own
personal dietary choices. Each consumer
food decision provides an opportunity to
make a difference (large or small) in the
way energy is used and greenhouse gases
are emitted. At the same time, growing consumer
interest in local and regional foods
is creating new marketing opportunities
and new possibilities for partnerships with
agricultural producers.
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References
- United States Department of Agriculture. 1998. A
Time to Act: A Report on the USDA National
Commission on Small Farms. www.csrees.usda.gov/nea/ag_systems/pdfs/time_to_act_1998.pdf (PDF / 860K)
- Halweil, Brian. 2006. Food Democracy: Nourishing a Fundamental Freedom. Heifer International
World Ark. Jan/Feb 2006: 6-13.
www.heifer.org/site/c.edJRKQNiFiG/b.1009907/
- Halweil, Brian. 2002. Home Grown: The Case for
Local Food in a Global Market.
www.worldwatch.org/system/files/EWP163.pdf (PDF / 336K)
- Pirog, Rich, et al. 2001. Food Fuel, and Freeways:
An Iowa Perspective on How Far Food Travels,
Fuel Usage, and Greenhouse Gas Emissions.
Leopold Center for Sustainable Agriculture.
www.leopold.iastate.edu/pubs/staff/ppp/food_mil.pdf (PDF / 828K)
- Horrigan, Leo, et al. 2002. How Sustainable Agriculture
can Address the Environment and
Human Health Harms of Industrial Agriculture.
Environmental Health Perspectives. May
2002: 445-456.
www.ehponline.org/members/2002/110p445-456horrigan/EHP110p445PDF.PDF (PDF / 571K)
- Eshel, Gidon and Pamela Martin. 2005. Diet,
Energy and Global Warming. University of
Chicago, Department of Geophysical Sciences.
http://geosci.uchicago.edu/~gidon/papers/nutri/nutri3.pdf (PDF / 1.6M)
- Heller, Martin C., and Gregory A. Keoleian. Life
Cycle-Based Sustainability Indicators for
Assessment of the U.S. Food System. Ann
Arbor, MI: Center for Sustainable Systems,
University of Michigan, 2000: 42. Report No.
CSS00-04. http://css.snre.umich.edu/css_doc/CSS00-04.pdf (PDF / 853K)
- Murray, Danielle. 2005. Oil and Food: A Rising
Security Challenge. www.earthpolicy.org/Updates/2005/Update48.htm
- Pirog, Rich. 2002. How Far Do Your Fruit
and Vegetables Travel? Leopold Center for
Sustainable Agriculture.
www.leopold.iastate.edu/pubs/staff/ppp/food_chart0402.pdf (PDF / 186K)
- Xureb, Marc. 2005. Food Miles: Environmental
Implication of Food Imports to Waterloo
Region.
www.leopold.iastate.edu/research/marketing_files/foodmiles_Canada_1105.pdf (PDF / 249K)
- Whitlegg, J. 1993. Transport for a Sustainable Future:
The Case for Europe. Bellhaven Press, London.
- Smith, A. et al. 2005. The Validity of Food Miles
as an Indicator of Sustainable Development.
Oxon, United Kingdom: Department of Environment,
Food, and Rural Affairs.
http://statistics.defra.gov.uk/esg/reports/foodmiles/execsumm.pdf (PDF / 303K)
- Kyodo News. March 2, 2005. Biztrend:
Consumption of Local Food Helps Cut CO2
Emissions.
www.farmtotable.org/index.php?cmd=F2TNews&method=view&id=262
- Saunders, Caroline, et al. 2006. Food Miles Comparative
Energy/Emissions Performance of
New Zealand’s Agriculture Industry.
www.beehive.govt.nz/Documents/Files/Food%20Miles%20Executive%20Summary.doc (MS Word / 131K)
- Carlsson-Kanyama, Annika. 1998. Climate
change and dietary choices – how can emissions
of greenhouse gases from food consumption
be reduced? http://seminar.mannlib.cornell.edu/topics/food_security/resources/FS01.pdf
(PDF / 1.4M)
- Hassanein, Neva, et al. 2007. Tracing the Chain:
An in Depth Look at the University of Montana’s
Farm to College Program.
www.growmontana.ncat.org/docs/tracing_the_chain_e_summary_new.pdf (PDF / 344K)
- Pirog, Rich, et al. 2003. Ecolabel Value
Assessment: Consumer and Food Business
Perceptions of Local Foods.
www.leopold.iastate.edu/pubs/staff/ecolabels/ecolabels.pdf (PDF / 1.7M)
- Sooter, Tad. 2006. Western Montana Growers
Go Beyond Organics and Get Local. www.newwest.net/index.php/main/article/bringing_organics_home/
- Garnett, T. 2003. Wise moves. Exploring the relationship
between food, road transport and
CO2. Transport2000.
www.thepep.org/ClearingHouse/docfiles/wise_moves.pdf (PDF / 513K)
- Steinfield, Henning et al. 2006. Livestock’s Long
Shadow: Environmental issues and options.
www.virtualcentre.org/en/library/key_pub/longshad/A0701E00.pdf (PDF/ 4.8M)
Food Miles: Background and Marketing
By Holly Hill
NCAT Research Specialist
Tracy Mumma, HTML Production
IP312
Slot 311
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