Another factoid from the NRC/NAS report:
" The mid-sized family farms (sales between $100,000 and $500,000) are examples of the prototypical “family farm” that has captured much of the public imagination and public policy debates over the future of American agriculture (Browne et al., 1992). According to the 2007 census, these mid-sized farms represented just under 10 percent of all U.S. farms, produced 16.5 percent of all farm sales, and managed another quarter of the nation’s farmland and nearly 30 percent of its cropland.
" Small and mid-sized family farms together owned two-thirds of the total value of farmland, buildings, and equipment and managed roughly 60 percent of all U.S. farmland and cropland in 2007."
Source: Committee on Twenty-First Century Systems Agriculture, "Toward Sustainable Agricultural Systems in the 21st Century", National Research Council, 2010, p. 49, http://www.nap.edu/catalog/12832.html
Tuesday, July 20, 2010
Local food markets account for a small but growing share of total U.S. agricultural sales
From USDA's Economic Research Service Report "Local Food Systems:
Concepts, Impacts, and Issues":
• Direct-to-consumer marketing amounted to $1.2 billion in current dollar sales in 2007, according to the 2007 Census of Agriculture, compared with $551 million in 1997.
• Direct-to-consumer sales accounted for 0.4 percent of total agricultural sales in 2007, up from 0.3 percent in 1997. If nonedible products are excluded from total agricultural sales, direct-to consumer sales accounted for 0.8 percent of agricultural sales in 2007.
• The number of farmers’ markets rose to 5,274 in 2009, up from 2,756 in 1998 and 1,755 in 1994, according to USDA’s Agricultural Marketing Service.
• In 2005, there were 1,144 community-supported agriculture organizations, up from 400 in 2001 and 2 in 1986, according to a study by the National Center for Appropriate Technology. In early 2010, estimates exceeded 1,400, but the number could be much larger.
• The number of farm to school programs, which use local farms as food suppliers for school meals programs and promote relationships between schools and farms, increased to 2,095 in 2009, up from 400 in 2004 and 2 in the 1996-97 school year, according to the National Farm to School Network. Data from the 2005 School Nutrition and Dietary Assessment Survey, sponsored by USDA’s Food and Nutrition Service, showed that 14 percent of school districts participated in Farm to School programs, and 16 percent reported having guidelines for purchasing locally grown produce.
Concepts, Impacts, and Issues":
• Direct-to-consumer marketing amounted to $1.2 billion in current dollar sales in 2007, according to the 2007 Census of Agriculture, compared with $551 million in 1997.
• Direct-to-consumer sales accounted for 0.4 percent of total agricultural sales in 2007, up from 0.3 percent in 1997. If nonedible products are excluded from total agricultural sales, direct-to consumer sales accounted for 0.8 percent of agricultural sales in 2007.
• The number of farmers’ markets rose to 5,274 in 2009, up from 2,756 in 1998 and 1,755 in 1994, according to USDA’s Agricultural Marketing Service.
• In 2005, there were 1,144 community-supported agriculture organizations, up from 400 in 2001 and 2 in 1986, according to a study by the National Center for Appropriate Technology. In early 2010, estimates exceeded 1,400, but the number could be much larger.
• The number of farm to school programs, which use local farms as food suppliers for school meals programs and promote relationships between schools and farms, increased to 2,095 in 2009, up from 400 in 2004 and 2 in the 1996-97 school year, according to the National Farm to School Network. Data from the 2005 School Nutrition and Dietary Assessment Survey, sponsored by USDA’s Food and Nutrition Service, showed that 14 percent of school districts participated in Farm to School programs, and 16 percent reported having guidelines for purchasing locally grown produce.
Friday, May 9, 2008
Feedlot cows produce more methane than pasture cows
As more researchers work to understand where ghg emissions occur in ag practices, we can begin to parse growing practices to determine which have a lower carbon footprint.
Environmental Health Perspectives posted recent research, Global Farm Animal Production and Global Warming: Impacting and Mitigating Climate Change, that does some of this parsing by combining the results of various related studies.
Here are some emerging facts from that article:
The first response seems obvious: eat less meat. The counterpoint is that we need protein. We can of course grow more pasture beef, but at current consumption habits we would have to expand land use for cattle quite significantly if we consume meat at current levels. Also, as health efforts (partially) succeed in getting us to reduce our red meat consumption in this country, as economic progress grows in developing nations, particularly China and India, meat consumption increases potentially negating any ghg reduction we have accomplished.
Ugh. So what can we do?
Since the climate is a global issue the pathway forward needs to incorporate global, national, and local concerns:
Secondary source (primary sources in brackets, available in article): Koneswaran G and Nierenberg D, Global Farm Animal Production and Global Warming: Impacting and Mitigating Climate Change, Environmental Health Perspectives Volume 116, Number 5, May 2008, www.ehponline.org/docs/2008/11034/abstract.html
Environmental Health Perspectives posted recent research, Global Farm Animal Production and Global Warming: Impacting and Mitigating Climate Change, that does some of this parsing by combining the results of various related studies.
Here are some emerging facts from that article:
- "Animal agriculture sector accounts for approximately 9% of total CO2 emissions, which are primarily the result of fertilizer production for feed crops, on-farm energy expenditures, feed transport, animal product processing and transport, and land use changes (Steinfeld et al. 2006)."
- "Burning fossil fuels to produce fertilizers for feed crops may emit 41 million metric tons of CO2 per year (Steinfeld et al. 2006)."
- " Farm animals and animal production facilities cover one-third of the planet's land surface, using more than two-thirds of all available agricultural land including the land used to grow feed crops (Haan et al. 1997). "
- "Typically, cattle confined in feedlots or in intensive confinement dairy operations are fed an unnatural diet of concentrated high-protein feed consisting of corn and soybeans. Although cattle may gain weight rapidly when fed this diet (Pollan 2002), it can cause a range of illnesses (Smith 1998). This diet may also lead to increased methane emissions."
- And this: "The standard diet fed to beef cattle confined in feedlots contributes to manure with a "high methane producing capacity" (U.S. EPA 1998). In contrast, cattle raised on pasture, eating a more natural, low-energy diet composed of grasses and other forages, produce manure with about half of the potential to generate methane (U.S. EPA 1998)."
The first response seems obvious: eat less meat. The counterpoint is that we need protein. We can of course grow more pasture beef, but at current consumption habits we would have to expand land use for cattle quite significantly if we consume meat at current levels. Also, as health efforts (partially) succeed in getting us to reduce our red meat consumption in this country, as economic progress grows in developing nations, particularly China and India, meat consumption increases potentially negating any ghg reduction we have accomplished.
Ugh. So what can we do?
Since the climate is a global issue the pathway forward needs to incorporate global, national, and local concerns:
- Reduce feedlot cattle consumption everywhere.
- Increase the production of pasture beef.
- Which also decentralizes manure production and reduces the necessity of using fossil fuels to create fertilizers, and then transport them to buyers.
- Generate large consumer awareness programs in developing nations that as they turn their diets towards more red meat consumption that they request pasture beef.
- Other research shows that pasture beef has more omega 3 fatty acids than feedlot beef (will get source).
- Encourage trade policies that incentivize the production of low carbon meat.
Secondary source (primary sources in brackets, available in article): Koneswaran G and Nierenberg D, Global Farm Animal Production and Global Warming: Impacting and Mitigating Climate Change, Environmental Health Perspectives Volume 116, Number 5, May 2008, www.ehponline.org/docs/2008/11034/abstract.html
Wednesday, February 20, 2008
Shipping emisssions recalculated
The UK Guardian ran a story last week entitled "True scale of CO2 emissions from shipping revealed: Leaked UN report says pollution three times higher than previously thought". The story is based on a report leaked from the UN to the Guardian that "calculates that annual emissions from the world's merchant fleet have already reached 1.12bn tonnes of CO, or nearly 4.5% of all global emissions of the main greenhouse gas." This number, 1.12 bn tons, is almost three times higher than previous estimates of a maximum 400 tons.
The report also mentions these points:
The best metric is still around volume or weight measurement. How much cargo is shipped that generates 1.12 billion tons of carbon for ships? How much cargo is shipped that generates the 325 million tons of airborn-shipping carbon?
Source: John Vidal, "True scale of CO2 emissions from shipping revealed, The Guardian, Wednesday February 13 2008, viewed online Feb. 20, 2008, http://www.guardian.co.uk/environment/2008/feb/13/climatechange.pollution
The report also mentions these points:
- " CO₂emissions are set to rise by a further 30% by 2020."
- " Other pollutants from shipping are rising even faster than CO₂emissions. Sulphur and soot emissions, which give rise to lung cancers, acid rain and respiratory problems are expected to rise more than 30% over the next 12 years."
- " A recent peer-reviewed study of shipping emissions found world shipping led directly to 60,000 deaths a year."
The best metric is still around volume or weight measurement. How much cargo is shipped that generates 1.12 billion tons of carbon for ships? How much cargo is shipped that generates the 325 million tons of airborn-shipping carbon?
Source: John Vidal, "True scale of CO2 emissions from shipping revealed, The Guardian, Wednesday February 13 2008, viewed online Feb. 20, 2008, http://www.guardian.co.uk/environment/2008/feb/13/climatechange.pollution
Wednesday, February 6, 2008
Economics of Buying Local, Part 1
Buying local has caught on around the country. Good for people, good for communities, good for health, good for farmers, good for ag land preservation, good for air, land, water, climate .... The beat goes on.
But is it good for the economy?
Separating out the economic return of growing local food for local consumption is gaining momentum as more governments and communities measure the economic return of going local.
New Jersey is one state that has measured such efforts. The state supports a Jersey Fresh program with an annual expenditure from state funds. From the 2004 NJ Agriculture Annual Report comes this fact:
Jersey Fresh Economic Impact – Using federal funds, a study was conducted to determine the economic impact of the Jersey Fresh Promotional Program. The study showed that each dollar spent on the Jersey Fresh program increased farm revenues by $31.54. That increase boosted farm-related businesses by an additional $22.95 of sales in agricultural support industries. In total, each dollar spent on Jersey Fresh promotion resulted in $54.49 of increased economic output in the State.
With a current budget for Jersey Fresh being about $800,000, this means an increase in farm revenues of $25.2 million, and a total increase in economic output for the state of $43.6 million.
Pretty good return.
Source: New Jersey Agriculture 2004 Annual Report, Agricultural Statistics, New Jersey Department of Agriculture / National Agricultural Statistics Service, USDA, http://www.state.nj.us/agriculture/04AnnualReport.pdf
But is it good for the economy?
Separating out the economic return of growing local food for local consumption is gaining momentum as more governments and communities measure the economic return of going local.
New Jersey is one state that has measured such efforts. The state supports a Jersey Fresh program with an annual expenditure from state funds. From the 2004 NJ Agriculture Annual Report comes this fact:
Jersey Fresh Economic Impact – Using federal funds, a study was conducted to determine the economic impact of the Jersey Fresh Promotional Program. The study showed that each dollar spent on the Jersey Fresh program increased farm revenues by $31.54. That increase boosted farm-related businesses by an additional $22.95 of sales in agricultural support industries. In total, each dollar spent on Jersey Fresh promotion resulted in $54.49 of increased economic output in the State.
With a current budget for Jersey Fresh being about $800,000, this means an increase in farm revenues of $25.2 million, and a total increase in economic output for the state of $43.6 million.
Pretty good return.
Source: New Jersey Agriculture 2004 Annual Report, Agricultural Statistics, New Jersey Department of Agriculture / National Agricultural Statistics Service, USDA, http://www.state.nj.us/agriculture/04AnnualReport.pdf
Tuesday, January 29, 2008
Ethanol and E Coli
New reports are emerging around a concern that the increase in ethanol production is fueling an increase in E. coli contamination. The connection is distiller's grain, a byproduct of ethanol production, that is becoming a cheap source of food for cattle.
As reported in the Des Moines Register on Jan 27, 2008: "Studies at two universities suggest that feeding cattle a byproduct of ethanol production known as distillers grains may increase levels of a deadly form of E. coli bacteria.
"Concerned about those findings, U.S. Department of Agriculture scientists have recently put 300 cattle on a diet of distillers grains and are testing them regularly for the bacteria. Results won't be known until later this year."1
The article continues to say that "Researchers at Kansas State University noticed the possible E. coli connection to distillers grains in 2005. A second study found a twofold increase in E. coli levels in cattle fed the product compared with those that ate only corn. Research at the University of Nebraska showed mixed results. Cattle fed a diet comprising 10 percent to 30 percent distillers grains actually had lower rates of E. coli than cattle on a diet of all corn. But cattle fed 40 percent to 50 percent distillers grains showed higher E. coli rates.
"That would suggest that there was something about these distillers grains diets that influenced the ability of these cattle to shed E. coli," said David Smith, one of the scientists who worked on the Nebraska research."2
Richard Raymond, the U.S. Department of Agriculture's undersecretary for food safety, was referenced as saying "the government had no intention of restricting the use of distillers grains even if the E. coli link is confirmed, and would instead leave it to the industry to decide how to address the issue. One possibility, he said, is to vaccinate cattle."3
This is an ironic twist to progressive policy solutions and shows that we are indeed in a new world needing new solutions for new problems. By increasing biofuels we are increasing the economics of 'factory farms'. "Closing the loop", or turning a waste in to a product, has meant that in ethanol production wet grain mash is being reused as a feed supply for cattle, thereby lowering the production costs of cattle and increasing the economic returns of Confined Animal Feeding Operations (CAFOs, a.k.a factory farms). As well, a wet grain is more energy efficient since you do not use additional energy to dry the grain after ethanol production, which means the net energy balance of corn based ethanol is better with wet distillers grain than dried grain.
As well, recent federal legislation encourages the expansion of ethanol production. This will mean an increase in distiller's grain. Will it mean an increase in E. coli as well?
Makes the stomach turn just thinking about it.
Sources:
1) Philip Brasher, "Scientists study possible link between ethanol byproduct and E. coli", Des Moines Register, January 27, 2008, http://www.desmoinesregister.com/apps/pbcs.dll/article?AID=/20080127/NEWS/801270330
2) Ibid.
3) A quote from same article, not exact quote from Raymond.
As reported in the Des Moines Register on Jan 27, 2008: "Studies at two universities suggest that feeding cattle a byproduct of ethanol production known as distillers grains may increase levels of a deadly form of E. coli bacteria.
"Concerned about those findings, U.S. Department of Agriculture scientists have recently put 300 cattle on a diet of distillers grains and are testing them regularly for the bacteria. Results won't be known until later this year."1
The article continues to say that "Researchers at Kansas State University noticed the possible E. coli connection to distillers grains in 2005. A second study found a twofold increase in E. coli levels in cattle fed the product compared with those that ate only corn. Research at the University of Nebraska showed mixed results. Cattle fed a diet comprising 10 percent to 30 percent distillers grains actually had lower rates of E. coli than cattle on a diet of all corn. But cattle fed 40 percent to 50 percent distillers grains showed higher E. coli rates.
"That would suggest that there was something about these distillers grains diets that influenced the ability of these cattle to shed E. coli," said David Smith, one of the scientists who worked on the Nebraska research."2
Richard Raymond, the U.S. Department of Agriculture's undersecretary for food safety, was referenced as saying "the government had no intention of restricting the use of distillers grains even if the E. coli link is confirmed, and would instead leave it to the industry to decide how to address the issue. One possibility, he said, is to vaccinate cattle."3
This is an ironic twist to progressive policy solutions and shows that we are indeed in a new world needing new solutions for new problems. By increasing biofuels we are increasing the economics of 'factory farms'. "Closing the loop", or turning a waste in to a product, has meant that in ethanol production wet grain mash is being reused as a feed supply for cattle, thereby lowering the production costs of cattle and increasing the economic returns of Confined Animal Feeding Operations (CAFOs, a.k.a factory farms). As well, a wet grain is more energy efficient since you do not use additional energy to dry the grain after ethanol production, which means the net energy balance of corn based ethanol is better with wet distillers grain than dried grain.
As well, recent federal legislation encourages the expansion of ethanol production. This will mean an increase in distiller's grain. Will it mean an increase in E. coli as well?
Makes the stomach turn just thinking about it.
Sources:
1) Philip Brasher, "Scientists study possible link between ethanol byproduct and E. coli", Des Moines Register, January 27, 2008, http://www.desmoinesregister.com/apps/pbcs.dll/article?AID=/20080127/NEWS/801270330
2) Ibid.
3) A quote from same article, not exact quote from Raymond.
Sunday, December 9, 2007
Food's enviro impact as great as transportation and housing
In May 2006 the European Commission released the results of research in to the Environmental Impact of Products (EIPRO). Using life cycle analysis and some input/output methods they concluded that products in three sectors had the greatest environmental impact: food and drink, private transport, and housing. The report did not rank these three but says that " together they are responsible for 70 to 80% of the environmental impact of consumption, and account for some 60% of consumption expenditure." Also from the report:
Food and drink cause 20 to 30% of the various environmental impacts of private consumption, and this increases to more than 50% for eutrophication. This includes the full food production and distribution chain ‘from farm to fork’. Within this consumption area, meat and meat products are the most important, followed by dairy products. Food and drink were covered by only some of the studies so the results for that area should be treated with more caution. However, the general conclusions can be taken with a reasonably high level of confidence.
The report continues to say that passenger transport has a total impact range of 15-35%, and housing (including furnishings and appliances) has a range of 20-35%.
The next step in this work is to study the environmental improvements of products (IMPRO). how to lessen the impact of meat and dairy is to be researched with initial results due late in 2007.
Source: "Environmental Impact of Products - Analysis of the life cycle environmental impact related to the final consumption of the EU-25", European Commission Joint Research Centre, May 2006, http://ec.europa.eu/environment/ipp/pdf/eipro_report.pdf
Food and drink cause 20 to 30% of the various environmental impacts of private consumption, and this increases to more than 50% for eutrophication. This includes the full food production and distribution chain ‘from farm to fork’. Within this consumption area, meat and meat products are the most important, followed by dairy products. Food and drink were covered by only some of the studies so the results for that area should be treated with more caution. However, the general conclusions can be taken with a reasonably high level of confidence.
The report continues to say that passenger transport has a total impact range of 15-35%, and housing (including furnishings and appliances) has a range of 20-35%.
The next step in this work is to study the environmental improvements of products (IMPRO). how to lessen the impact of meat and dairy is to be researched with initial results due late in 2007.
Source: "Environmental Impact of Products - Analysis of the life cycle environmental impact related to the final consumption of the EU-25", European Commission Joint Research Centre, May 2006, http://ec.europa.eu/environment/ipp/pdf/eipro_report.pdf
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