Archive for the Category »future food «

bug eating Our Future Food?

It’s here now…if only we could stomach it….

“Mmmmm,” Jill uttered breathlessly, in the rapt voice of someone joyously surprised with herself. “Perfumy, tastes like salty apples.”

“Like a scented candle blended with an artichoke,” added her friend, scooping out and swallowing the grayish, slightly greasy “meat”.

What ARE they eating that is so delectable, you might ask? Well…you asked… It is a 3-inch long South Asian water bug that looks uncannily like a cockroach. Ironically, as a biologist, I harbor an unreasonable aversion to that insect.

The giant water bug (Lethocerua indicus) is just one of many insects available for the tolerant palate. In fact, 1,400 species of insects are commonly eaten around the world with the practice dating back thousands of years. Cave paintings in Altamira, north Spain, dated to about 9,000 to 30,000 BCE, depict the collection of wild bee nests. At the time people must have eaten bee pupae and larvae with the honey. Cocoons of wild silkworm (Theophilia religiosae) were found in ruins in the Shanxi province of China, dating from 2,000 to 2,500 years B.C. The cocoons had large holes in them, suggesting the pupae were eaten (Capinera, 2004). Many ancient entomophagy practices have been passed down to the present, forming traditional entomophagy (Wikipedia). In Botswanna and Zimbabwe, insect gathering has become commercialized. Rural villages in southern Africa harvest caterpillars from the local mopane trees, which have been a traditionally important source of protein but more recently are being packaged and sold as a regional delicacy, according to Josie Glausiusz of Discover Magazine (May, 2entomophagy Our Future Food?008). “Kungu cakes” – made from midges – are a delicacy in parts of Africa. Mexico is an insect-eating – or entomophagous – hotspot, where more than 200 insect species are consumed. Demand is so high that 40 species are now under threat, including white agave worms. These caterpillars of the tequila giant-skipper butterfly fetch around $250 a kilogram (New Scientist, March, 2007). Lana Unger, of the University of Kentucky, and Gene R. De Foliart of the University of Wisconsin, provide extensive lists of insect snacks from around the world.

In Colombia Hormiga culona (literally “fatass ant”) Atta laevigata is served at movie theaters in addition to popcorn.

There is good reason to believe that these somewhat unsavory creatures (at least to most North Americans) can provide a significant portion of our nutritional needs in the future. Given the latest figures from the United Nations of 854 million people around the world who went hungry in 2003, here are some good reasons to consider them:

1. A United Nations report released in 2006 placed the livestock industry in the top three most significant contributors to the most serious environmental problems we are facing, from local to global. The report noted that livestock production was responsible for 18% of global greenhouse-gas emissions, more than what is produced by transportation worldwide. Meat production is expected to double by 2050.
2. Insects are very nutritious. The female gypsy moth, for instance, is about 80 per cent protein. While they contain slightly less protein by weight than beef (e.g., a 100 grams of giant water bugs, for example, contains 20 grams of protein to 27 grams protein for the same weight of beef), grasshoppers contain one third of the fat of beef and water bugs almost four times the iron. Insects generally have a higher food conversion efficiency than more traditional meats. For example, studies concerning the house cricket (Acheta domesticus), when reared at 30°C or more and fed a diet of equal quality to the diet used to rear conventional livestock, show a food conversion twice as efficient as pigs and broiler chicks, four times that of sheep, and six times higher than steers when losses in carcass trim and dressing percentage are counted (Capinera, 2004). Most insects are cheap, tasty and a good natural protein source requiring less land and feed than raising cows or pigs. By weight, termites, grasshoppers, caterpillars, weevils, house flies and spiders are better sources of protein than beef, chicken, pork or lamb according to the Entomological Society of America. Also, insects are low in cholesterol and low in fat.
3. Raising insects has low impact on the environment and require little water. While it takes 869 gallons of water to produce a third of a pound of beef (a large hamburger), a quarter pound of crickets only requires a moist paper towel, refreshed weekly. Many insects are far cleaner than other creatures. For example, grasshoppers and crickets eat fresh, clean, green plants whereas crabs, lobsters and catfish eat any kind of foul, decomposing material as a scavenger (bottom water feeder).

Along with nutrition comes the added benefit of good taste, according to William F. Lyon of Ohio State University (check out his recipes!). Doug Whitman, Entomologist at Illinois State University, enjoys eating raw yellowjacket larvae which have a sweet, nutty flavor. Gene R. DeFoliart, retired Entomologist at the University of Wisconsin, prefers the greater wax moth larvae (deep-fried will melt in your mouth, tasting like bacon) and crickets deep-fried have a crunchy, tangy flavor. He feels the honey bee has a good chance of becoming an American bug food. A pound of honey bees is about 3,500 bees. They can be put in an oven at low heat for eight hours and then used in flour for cookies. Some feel insect popcorn, using crickets, would be a new theater treat.

Insect-eating even has its own term: entomophagy.

Dentomophagy02 Our Future Food?avid Gracer is a self-described “geeky poet/nature boy” who teaches in Rhode Island and founded a company called Sunrise Land Shrimp. He recently attended a United Nations workshop on entomophagy in Thailand. “I would love to counteract the portrayal of entomophagy that we see on Fear Factor and Survivor,” he said to Josie Glausiusz of Discover Magazine.

Another advocate of entomophagy is Robert Kok, chairman of the department of bioresource engineering at McGill University in Montreal, Quebec. “I’ve been working for a long time on trying to convince people that farming insects for the production of animal protein and other materials might be a good idea,” said Kok to Discover Magazine. “Even if they didn’t want to eat them ‘whole hog’ so to say, it would be possible to extract the protein and oil from them and then manufacture food products from those components.”

Well? I’m not rushing off for cricket popcorn just yet… but perhaps I should at least try it… I’ll let you know… Any takers?

References:
Capinera, John L. (2004). Encyclopedia of Entomology.
Kluwer Academic Publishers. ISBN 0-7923-8670-1.

Share and Enjoy:
  • services sprite Our Future Food?
  • services sprite Our Future Food?
  • services sprite Our Future Food?
  • services sprite Our Future Food?
  • services sprite Our Future Food?
  • services sprite Our Future Food?
  • services sprite Our Future Food?
  • services sprite Our Future Food?
  • services sprite Our Future Food?
  • services sprite Our Future Food?
  • services sprite Our Future Food?
  • services sprite Our Future Food?
  • services sprite Our Future Food?