Although there were 3,500 native bee species of bees pollinating the flowers and food crops of North America when European settlers landed on its shores in the 17th century, the colonists were interested only in their Old World honeybees’ wax and honey. They imported the insects, and by the mid-1800s, both feral and domesticated colonies of honeybees were scattered all over the United States. As a result of disease, pesticides, and climate changes, the honeybee population has been nearly decimated, but since the demand for the bees’ honey and other products remains high, these tiny animals are factory-farmed, much like chickens, pigs, and cows are.
Why Bees Need to Keep Their Honey
Plants produce nectar to attract pollinators (bees, butterflies, bats, and other mammals), who are necessary for successful plant reproduction. Bees collect and use nectar to make honey, which provides vital nourishment for them, especially during the winter. Since nectar contains a lot of water, bees have to work to dry it out, and they add enzymes from their own bodies to convert it into food and prevent it from going bad. A single worker bee may visit up to 10,000 flowers in one day yet and, in his or her lifetime, produce only one a teaspoonful of honey.
Honeybees Do Not Pollinate as Well as Native Bees
Approximately one out of every three mouthfuls of food or drink that humans consume is made possible by pollinators—insects, birds, and mammals pollinate about 75 percent of all food crops. Industrial beekeepers want consumers to believe that honey is just a byproduct of the necessary pollination provided by honeybees, but honeybees are not as good at pollinating as many truly wild bees, such as bumblebees and carpenter and digger bees. Native bees are active earlier in the spring, both males and females pollinate, and they are unaffected by mites and Africanized bees, which can harm honeybees. But because most species of native bees hibernate for as many as 11 months out of the year and do not live in large colonies, they do not produce massive amounts of honey, and the little that they do produce is not worth the effort required to steal it from them. So although native bees are more effective pollinators, farmers continue to rely on factory-farmed honeybees for pollination so that the honey industry can take in more than 176 million pounds of honey every year, at a value of more than $215 million.
Manipulating Nature
Profiting from honey requires the manipulation and exploitation of the insects’ desire to live and protect their hive. Like other factory-farmed animals, honeybees are victims of unnatural living conditions, genetic manipulation, and stressful transportation.
The familiar white box that serves as a beehive has been around since the mid-1850s and was created so that beekeepers could move the hives from place to place. The New York Times reported that bees have been “moved from shapes that accommodated their own geometry to flat-topped tenements, sentenced to life in file cabinets.”
Since “swarming” (the division of the hive upon the birth of a new queen) can cause a decline in honey production, beekeepers do what they can to prevent it, including clipping the wings of a new queen, killing and replacing an older queen after just one or two years, and confining a queen who is trying to begin a swarm. Queens are artificially inseminated using drones, who are killed in the process. Commercial beekeepers also “trick” queens into laying more eggs by adding wax cells to the hive that are larger than those that worker bees would normally build.
Since late 2006, farmed honeybee populations have succumbed yearly to a disease called “colony collapse disorder.” Although scientists have yet to find a cause, the U.S. Department of Agriculture says researchers continue to focus on key possibilities that include “bee management stress,” “pesticide poisoning,” and “inadequate forage/poor nutrition.
References
1) Sue Hubbell, “Trouble With Honeybees,” Natural History 106 (1997): 32-42.
2) Mid-Atlantic Apiculture Research and Extension Consortium, “The Colony and Its Organization,” Fundamentals of Beekeeping.
3) Mid-Atlantic Apiculture Research and Extension Consortium.
4) Norbert M. Kauffeld, “Seasonal Cycle of Activities in Honey Bee Colonies,” Beekeeping in the United States, U.S. Department of Agriculture, Agricultural Handbook Number 335 (1980): 30-2.
5) Kauffeld.
6) Fred C. Dyer, “When It Pays to Waggle,” Nature 31 Oct. 2002.
7) Carl Anderson and Francis L.W. Ratnieks, “Worker Allocation in Insect Societies: Coordination of Nectar Foragers and Nectar Receivers in Honey Bee (Apis mellifera) Colonies,” Behavioral Ecology and Sociobiology (1999): 73-81.
8) Martin Giurfa et al., “The Concepts of ‘Sameness’ and ‘Difference’ in an Insect,” Nature 19 Apr. 2001.
9) Fred C. Dyer, “Spatial Memory and Navigation by Honeybees on the Scale of the Foraging Range,” The Journal of Experimental Biology 199 (1996): 147-54.
10) Gérard Arnold et al., “Kin Recognition in Honeybees,” Nature 8 Feb. 1996.
11) Judith Reinhard et al., “Scent-Triggered Navigation in Honeybees,” Nature 29 Jan. 2004.
12) Maryann Frazier, “Honey—Here’s to Your Health,” Beeaware: Notes & News on Bees & Beekeeping, Mid-Atlantic Apiculture Research and Extension Consortium, Jan. 2003.
13) Ann Evans, “Exploring Hive of Activity,” Coventry Evening Telegraph 18 Jun. 2005.
14) National Biological Information Infrastructure, “The Value of Pollinators,” Pollinator Declines, U.S. Geological Service.
15) Lane Greer, “Alternative Pollinators: Native Bees,” Appropriate Technology Transfer for Rural Areas, U.S. Department of Agriculture, Aug. 1999.
16) Greer.
17) Greer.
18) Agricultural Statistics Board, “Honey,” U.S. Department of Agriculture, 25 Feb. 2011.
19) Anne Raver, “Bees Buzz a Path to His Hive,” The New York Times 31 May 2001.
20) Raver.
21) British Columbia Ministry of Agriculture and Lands, “Apiculture Factsheet,” Factsheet #404, Nov. 2005.
22) Peter Schley, “Instrumental Bee Insemination: Process,” Instrumental Insemination of Bee Queens (Künstliche Besamung von Bienenkönigennin), n.d.
23) Raver. 24) Environmental Protection Agency, “Pesticide Issues in the Works: Honeybee Colony Collapse Disorder,” About Pesticides 18 Feb. 2011
Why Bees Need to Keep Their Honey
Plants produce nectar to attract pollinators (bees, butterflies, bats, and other mammals), who are necessary for successful plant reproduction. Bees collect and use nectar to make honey, which provides vital nourishment for them, especially during the winter. Since nectar contains a lot of water, bees have to work to dry it out, and they add enzymes from their own bodies to convert it into food and prevent it from going bad. A single worker bee may visit up to 10,000 flowers in one day yet and, in his or her lifetime, produce only one a teaspoonful of honey.
Honeybees Do Not Pollinate as Well as Native Bees
Approximately one out of every three mouthfuls of food or drink that humans consume is made possible by pollinators—insects, birds, and mammals pollinate about 75 percent of all food crops. Industrial beekeepers want consumers to believe that honey is just a byproduct of the necessary pollination provided by honeybees, but honeybees are not as good at pollinating as many truly wild bees, such as bumblebees and carpenter and digger bees. Native bees are active earlier in the spring, both males and females pollinate, and they are unaffected by mites and Africanized bees, which can harm honeybees. But because most species of native bees hibernate for as many as 11 months out of the year and do not live in large colonies, they do not produce massive amounts of honey, and the little that they do produce is not worth the effort required to steal it from them. So although native bees are more effective pollinators, farmers continue to rely on factory-farmed honeybees for pollination so that the honey industry can take in more than 176 million pounds of honey every year, at a value of more than $215 million.
Manipulating Nature
Profiting from honey requires the manipulation and exploitation of the insects’ desire to live and protect their hive. Like other factory-farmed animals, honeybees are victims of unnatural living conditions, genetic manipulation, and stressful transportation.
The familiar white box that serves as a beehive has been around since the mid-1850s and was created so that beekeepers could move the hives from place to place. The New York Times reported that bees have been “moved from shapes that accommodated their own geometry to flat-topped tenements, sentenced to life in file cabinets.”
Since “swarming” (the division of the hive upon the birth of a new queen) can cause a decline in honey production, beekeepers do what they can to prevent it, including clipping the wings of a new queen, killing and replacing an older queen after just one or two years, and confining a queen who is trying to begin a swarm. Queens are artificially inseminated using drones, who are killed in the process. Commercial beekeepers also “trick” queens into laying more eggs by adding wax cells to the hive that are larger than those that worker bees would normally build.
Since late 2006, farmed honeybee populations have succumbed yearly to a disease called “colony collapse disorder.” Although scientists have yet to find a cause, the U.S. Department of Agriculture says researchers continue to focus on key possibilities that include “bee management stress,” “pesticide poisoning,” and “inadequate forage/poor nutrition.
References
1) Sue Hubbell, “Trouble With Honeybees,” Natural History 106 (1997): 32-42.
2) Mid-Atlantic Apiculture Research and Extension Consortium, “The Colony and Its Organization,” Fundamentals of Beekeeping.
3) Mid-Atlantic Apiculture Research and Extension Consortium.
4) Norbert M. Kauffeld, “Seasonal Cycle of Activities in Honey Bee Colonies,” Beekeeping in the United States, U.S. Department of Agriculture, Agricultural Handbook Number 335 (1980): 30-2.
5) Kauffeld.
6) Fred C. Dyer, “When It Pays to Waggle,” Nature 31 Oct. 2002.
7) Carl Anderson and Francis L.W. Ratnieks, “Worker Allocation in Insect Societies: Coordination of Nectar Foragers and Nectar Receivers in Honey Bee (Apis mellifera) Colonies,” Behavioral Ecology and Sociobiology (1999): 73-81.
8) Martin Giurfa et al., “The Concepts of ‘Sameness’ and ‘Difference’ in an Insect,” Nature 19 Apr. 2001.
9) Fred C. Dyer, “Spatial Memory and Navigation by Honeybees on the Scale of the Foraging Range,” The Journal of Experimental Biology 199 (1996): 147-54.
10) Gérard Arnold et al., “Kin Recognition in Honeybees,” Nature 8 Feb. 1996.
11) Judith Reinhard et al., “Scent-Triggered Navigation in Honeybees,” Nature 29 Jan. 2004.
12) Maryann Frazier, “Honey—Here’s to Your Health,” Beeaware: Notes & News on Bees & Beekeeping, Mid-Atlantic Apiculture Research and Extension Consortium, Jan. 2003.
13) Ann Evans, “Exploring Hive of Activity,” Coventry Evening Telegraph 18 Jun. 2005.
14) National Biological Information Infrastructure, “The Value of Pollinators,” Pollinator Declines, U.S. Geological Service.
15) Lane Greer, “Alternative Pollinators: Native Bees,” Appropriate Technology Transfer for Rural Areas, U.S. Department of Agriculture, Aug. 1999.
16) Greer.
17) Greer.
18) Agricultural Statistics Board, “Honey,” U.S. Department of Agriculture, 25 Feb. 2011.
19) Anne Raver, “Bees Buzz a Path to His Hive,” The New York Times 31 May 2001.
20) Raver.
21) British Columbia Ministry of Agriculture and Lands, “Apiculture Factsheet,” Factsheet #404, Nov. 2005.
22) Peter Schley, “Instrumental Bee Insemination: Process,” Instrumental Insemination of Bee Queens (Künstliche Besamung von Bienenkönigennin), n.d.
23) Raver. 24) Environmental Protection Agency, “Pesticide Issues in the Works: Honeybee Colony Collapse Disorder,” About Pesticides 18 Feb. 2011