“Low-carbon diet” research looks at total energy usage of foods
California Agriculture 63(2):55-55.
Published April 01, 2009
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UC researchers are estimating the “farm to fork” energy usage for rice — including cooking — as part of the Agricultural Sustainability Institute's low-carbon diet project.
Is an organic tomato grown in Mexico better for the environment than a conventional one grown 150 miles away from your Bay Area home? Is it more sustainable to drive to a big-box store and buy lots of groceries to keep in the freezer, or to purchase ready-made meals or cook individual ingredients at home? These types of questions are at the heart of a UC Agricultural Sustainability Institute (ASI) project that is examining the food system's role in climate change.
“Changes in consumer food choices, as well as in our vast food-production system, could contribute substantially to meeting goals for reducing greenhouse gases,” ASI director Thomas Tomich says. “Individual foods vary tremendously in their carbon footprints.”
The low-carbon diet project uses life-cycle assessment methodology to tally the energy used to produce particular foods, then does computer modeling to estimate greenhouse-gas emissions. Researchers identify and collect data on farming practices, pest control, irrigation, harvesting, processing, transportation, refrigeration, storage and even cooking. “We're looking for all the inputs, from farm to fork,” says Gail Feenstra, ASI food systems analyst.
The project has collected data on processing tomatoes, dairy and rice, and Sonja Brodt and Alissa Kendall of UC Davis are currently crunching numbers to find the “break-even” point for the energy usage of rice. A new effort in conjunction with Cornell University, funded by the Kellogg Foundation, will examine the carbon footprints of local foods in California and elsewhere in the United States. ASI is also launching the California Nitrogen Assessment, funded by the Packard Foundation, to further quantify the scope of the state's greenhouse-gas emissions.
An estimated 15% of U.S. energy usage and greenhouse-gas emissions is related to the food system. The major contributors are livestock-related methane and nitrous oxide emissions (see page 79); synthetic nitrogen fertilizers (see pages 84, 91); air freight; heated greenhouse production; post-retail consumer transport and food storage; and food waste at multiple points along the supply system.
“We are developing information so that major food suppliers, food service professionals and retailers, as well as consumers, can figure out where to focus to make the biggest impact on climate change,” Feenstra says.