Jamie Oliver Should Be Presenting Friday Night Farming Facts – Not Feasting On Foodie Fiction

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Commercial dairy cows in Cumbria – should they be “retired” before slaughter?

Good grief. Just when I think I’ve heard it all, another food pundit comes up with an idea so daft that you could bottle it and sell it as vegan, gluten-free, dairy-free, humanely-reared organic water. The latest brainwave from Jamie Oliver is to “retire” old dairy cows onto pasture, where they can graze for four years before producing highly-marbled beef. Contrary to most of the breed-related marketing, Holstein beef is pretty good, so it’s a mouth-watering concept until we take a step back and think about the actual sustainability impacts.

Producing beef from cull dairy cattle? Excellent idea. I once had a heated argument with an activist protestor outside the Smithsonian Museum in Washington DC who seemed surprised that, when he told me that most cull dairy cows end up as burgers, I didn’t renounce my heathen ways and immediately seek out the nearest tofu burrito. It makes perfect sense – where would be the logic in discarding an entire cow’s worth (~301 kg) of nutritious, delicious beef simply to bury, burn or use the meat for non-food purposes? Indeed, ~50% of the UK (and ~24% of the US) beef supply comes either from cull dairy cows or dairy calves reared for beef.

Is there an argument for giving extra feed to cows that are going to be culled so that they get a little fatter and produce tastier beef? Yes indeed, adding value to cull dairy cows is a great idea, especially when the beef price is high. But here’s the rub. The average dairy cow in the U.K. is culled at 6.4 years of age. By that time she should have reached her mature weight, which means that the majority of extra weight she puts on in “retirement” is fat. Although we love the streaks of intramuscular fat that we see in a steak (marbling) and enjoy the depth of flavour that gives to the meat, the vast majority of fat on a carcass isn’t particularly edible. So we’re feeding a cow for four years of retirement in order to discard (or rather render into tallow – perhaps to make some £5 notes?) a significant proportion of the weight that she gains.

A cow will eat 2-2.5% of her body weight in dry matter every single day. Four years of feeding a 700 kg cow = 4 x 365 days x 700 kg x 0.025 = 25,550 kg of feed dry matter, or 106,458 kg of fresh grass given that it’s only ~24% dry matter. Plus 4-years worth of drinking water, manure and greenhouse gas (GHG) emissions. A hefty environmental impact compared, for example, to rearing two beef steers on the same amount of pasture over a 4-year period, in addition to culling the dairy cow when she leaves the herd (sans retirement). That scenario would provide 200% more beef (~900 kg total, even allowing for the lighter weight for grass-finished vs. grain-fed steers) from the same amount of pasture and with a smaller total quantity of manure and GHG emissions because the growing animals are lighter in weight throughout, therefore excrete and emit less*.

I can’t decide whether the increasingly asinine proposals for sustainable food production propounded by Jamie Oliver’s “Friday Night Feast” programme, which recently left the casual viewer with the impression that welfare of housed dairy cows is equivalent to that of battery hens are serious, or simply a way to court fame through controversy. However, the number of tweets lauding the programme’s food philosophy is alarming given the amount of time devoted to non-sustainable ideology. Time for TV programmers to redress the balance with some Friday Night Facts vs. Fiction?

*Note that I have not accounted for the beef cows needed to produce the steers, nor for the cost of rearing the dairy cow or the heifer needed to replace her in dairy herd. This is not a full system assessment, but simply about the best use of a unit of pasture area – adding fat to a mature cow (less efficient) or adding muscle and fat to growing animals (more efficient)

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Defending Conventional Beef in The Wall St Journal Today!

WSJShameless self-promotion, but very excited to have an essay published in The Wall St Journal today defending conventional beef production.

Given my blog subtitle, I thought I should link to it! Would love to read your comments. Article here: http://www.wsj.com/articles/is-feedlot-beef-bad-for-the-environment-1436757037

Are We Increasing Resource Use and Taking Beef from the Mouths of Hungry Children?

Bull eatingCan we really afford to lose the sustainability advantages that productivity-enhancing tools provide?

Beta agonists have been a hotly debated topic in the media recently, after it was suggested that the use of Zilmax™ might be related to welfare issues in supplemented cattle (see note 1), and Tyson announced that they would not purchase cattle produced using the feed supplement.

As the global population increases and consumer interest in food production sustainability continues to grow, we know that to maintain the continuous improvements in beef sustainability that we’ve seen over the past half-century, we need to ensure that economic viability, environmental responsibility and social acceptability are all in place. All cattle producers obviously have the choice as to what tools and practices are used within their operation, but what are the big picture environmental and economic implications of removing technology use from beef production? Let’s look at two tools – beta agonists and implants (see note 2 below for an explanation of these tools).

Figure 1. Extra Cattle NeededIn a traditional beef production system using both tools, we’d need 85 million total cattle (see note 3) to maintain the U.S. annual production of 26 billion lbs of beef (see note 4). If we removed beta-agonists from U.S. beef production we’d need an extra 3.5 million total cattle to support beef production; losing access to implants would require an extra 9.9 million cattle; and removing both tools would increase total cattle numbers to 100 million (a 15 million head increase) to maintain the current beef supply (see note 5).

If we need more cattle to maintain beef supply, we use more resources and have a greater carbon footprint.

If we removed beta-agonists, we would need more natural resources to maintain U.S. beef production:

  • More water, equivalent to supplying 1.9 million U.S. households annually (195 billion gallons)
  • More land, equivalent to an area just bigger than Maryland (14.0 thousand sq-miles)
  • More fossil fuels, equivalent to heating 38 thousand U.S. households for a year (3,123 billion BTU)

If we removed implants, we would need more natural resources to maintain U.S. beef production:

  • More water, equivalent to supplying 4.5 million U.S. households annually (457 billion gallons)
  • More land, equivalent to the area of South Carolina (31.6 thousand sq-miles)
  • More fossil fuels, equivalent to heating 45 thousand U.S. households for a year (3,703 billion BTU)

If we removed both beta-agonists and implants, we would need more natural resources to maintain U.S. beef production:

  • More water, equivalent to supplying 7.3 million U.S. households annually (741 billion gallons)
  • More land, equivalent to the area of Louisiana (51.9 thousand sq-miles)
  • More fossil fuels, equivalent to heating 98 thousand U.S. households for a year (8,047 billion BTU)

Water infographic

Land infographicFuel infographicBeef production costs would also increase if these tools weren’t used. Feed costs would increase by 4.0% without beta-agonists, 8.1% without implants and 11.0% without both tools. These costs ultimately would be passed on through every segment of the beef supply chain (including the retailer or food service segment) and ultimately onto the consumer, making beef a less-affordable protein choice.

In a world where one in seven children currently do not have enough food, keeping food affordable is key to improving their health and well-being. If we use productivity-enhancing tools in one single animal, the extra beef produced is sufficient to supply seven schoolchildren with their beef-containing school meals for an entire year. Is that a social sustainability advantage that we can afford to lose?

Although animal welfare is paramount for all beef production stakeholders from the cow-calf operator to the retailer, it is possible that the consumer perception of productivity-enhancing tools  may be harmed by negative comments on media articles relating to Zilmax™. There is no doubt that we will need to use technologies within food production in order to feed the growing global population, yet we need consumer acceptance of both the technologies that we use, and the reasons why we use them, in order to continue to secure market access for U.S. beef.

Consumer acceptance therefore needs to be a key component of our mission to continuously improve beef sustainability. That does not mean giving in to the uninformed whims of those who blithely assert that we could feed the world by returning to the production systems of the 1940’s or ’50s, but does offer an opportunity to reach out, listen to and engage in a dialogue with our friends, family, customers and colleagues about the advantages that technology offers. We have a bright future ahead, but only if we keep the torch alight.

To read more conversation about the use of technologies within beef production (including the real-life experiences of feedyard operators who use these tools) and for facts and figures relating to beef production, please check out the following websites: Feedyard Foodie, Ask a FarmerFacts About Beef, and the U.S. Farmers and Ranchers Alliance.

Footnotes

1) Merck Animal Health have since pledged to conduct a thorough investigation into the issue and have temporarily suspended Zilmax™ sales in the U.S. and Canada.

2) Beta agonists are animal feed ingredients that help cattle maintain their natural muscle-building ability and add about 20-30 pounds of additional lean muscle instead of fat. Implants (sometimes called growth promotants or growth hormones), are placed into the ear and release hormones slowly, helping cattle maintain natural muscle-building ability while also decreasing the amount of fat gained. 

3) Includes beef cows, calves, bulls, replacement animals, stockers and feedlot cattle plus calves and cull cows from the dairy system.

4) Although this is a considerable amount of beef, it’s still not enough to fulfill current demand for beef in the USA and overseas. 

5) This work was presented as a poster at the Joint Annual Meeting of the American Dairy Science Association and American Society of Animal Science in Indianapolis, IN in July 2013. The poster is available for download here

Flawed Water Use Claims Are Huge Threat to Beef Sustainability

Let’s make a bet. I bet you that within the next five years, the biggest sustainability issue to hit the beef industry won’t be carbon emissions, hormone implant use or ethanol prices, it’ll be water use. Conflict over water rights and declining aquifer levels are already occurring in many areas and those battles will only increase as urban sprawl encroaches onto agricultural land.

Fortunately, scientists at the University of Twente in The Netherlands have calculated the water footprint* of humanity. Published in the highly prestigious Proceedings of the National Academy of Sciences, this study provides valuable evidence as to water consumption across different regions. Within the paper, beef production is singled out as contributing 6.7% to global water flows – less than cereals at 17% or industrial products as 12.2%.

Yet the message accompanying press coverage of the report is anything but positive for conventional beef production – a  ScienceNow press release (tagline: “Up to the minute news from science”) quotes Sandra Postel (director of the Global Water Policy Project) as saying:

…people can opt to eat less meat or to switch from grain-fed beef—which, again, requires about 5300 liters of water for each dollar’s worth of grain fed to a cow—to grass-fed beef, which typically requires only the rainwater falling on a pasture

Interestingly, the 5,300 liter (1,400 gallon) figure is not mentioned in the PNAS study, indeed there is no evidence as to the source for Ms. Postel’s claim. Furthermore, the figure is worthy of an award for what must be the most incomprehensible units ever assigned to water use. Expressing water use per acre or per unit of beef produced gives a solid foundation for understanding and comparison, but a volume unit per economic unit of feed fed to a beef animal? What happens when corn hits $10/bushel or falls to $3/bushel?

It’s a sad reflection upon my social life (or lack thereof) that I spent an hour last night calculating water use per dollar of corn fed. The entire calculation can be seen in the excel spreadsheet below, but in essence we simply need to know the current corn price ($6.335/bushel), the proportion of corn that is irrigated in the USA (15%), water use per acre of irrigated corn (2.1 acre-feet) and corn yield per acre (147.2 bushels).

Using these data, 110 gallons of water (417 liters) are used per $ of corn grain fed to a feedlot steer (equivalent to 44.9 gallons of water per lb boneless beef). That’s in line with the total water use of 367 gallons/lb boneless beef cited by Beckett and Oltjen at UC Davis.

Ms. Postel’s estimate is 12.7x higher than average USA data suggests. An error of this magnitude is huge and has the potential to do immense damage to the beef industry, especially when it’s used as a divisive argument against grain-fed production systems. Yet it’s published as factual data in a scientific press-release (without the need for citations or supporting evidence) and will be read by thousands of consumers with an interest in science. Just imagine the reaction from PETA and HSUS if the beef industry quoted environmental figures unsupported by science – instant loss of credibility.

As an industry, we need to be proactive and conduct assessments of resource use and environmental impact before the anti-animal groups or “impartial” environmental groups produce numbers for us. If we continue avoiding science for fear of what it might reveal, we may soon be reacting to a loss of consumer confidence and market share, rendering long-term sustainability impossible.

* Total water use by humans

Water use spreadsheet