UC Food Blog
Did you catch the buzz?
It's still a troubling scene for our nation's honey bees, but it appears that the total losses for the 2011-2012 winter aren't as bad as they could be.
In other words, managed honey bee colonies appear to be holding their own. Overall, they didn't take a sharp dive last winter.
The annual survey, conducted by the U.S. Department of Agriculture (USDA), the Bee Informed Partnership, and the Apiary Inspectors of America shows that the honey bee colony losses averaged 30 percent for the winter of 2011-2012.
Compare that to 34 percent for the 2009-2010 winter, 29 percent for 2008-2009 winter; 36 percent for 2007-2008, and 32 percent for 2006-2007.
Kim Kaplan of the Agricultural Research Service (ARS) of USDA wrote in a May 23 news release that 5,572 beekeepers responded to the survey, which covered the period from October 2010 to April 2011. These 5,572 beekeepers, he said, manage more than 15 percent of the country's estimated 2.68 million colonies.
As ARS entomologist Jeff Pettis, who helped conduct the study, said: "The lack of increase in losses is marginally encouraging in the sense that the problem does not appear to be getting worse for honey bees and beekeepers."
Pettis is a familiar name among scientists, beekeepers and the beekeeping industry. He leads the USDA's chief research agency, the Bee Research Laboratory, in Beltsville, Md.
ARS plans to publish a complete analysis of the data later this year, Kaplan reports, but for now, we know that the average losses didn't fall below 30 percent. Some beekeepers, however, recorded much heavier losses.
Why care about the declining bee population?
As author Norm Gary, emeritus professor of entomology at UC Davis, says in his book, Honey Bee Hobbyist; The Care and Keeping of Bees, "Bees play a fundamental role in food production. About one-third of the food we eat, at least in the United States, can't be produced without pollination by honey bees. Fruits, vegetables, berries, some fiber crops, domestic animal feed, and oil seed crops would be in extremely short supply without honey bee pollination."
And almonds. California, the world's largest producer of almonds, has some 800,000 acres of almonds and each acre requires two hives for pollination. Without bees, no almonds.
"Can you imagine the impact on our food supply and diet if honey bees weren't available for pollination?" Gary asks. "Without them, the human diet would consist mostly of grains and fish."
Think wheat, rice and fish.
No honey, either.
Speaking of honey, you might like to try this Cranberry Oat Bread recipe provided by the National Honey Board. It hasn't been a honey of a winter for the nation's bees, but this is a honey of a recipe.
Cranberry Oat Bread
3/4 cup honey
1/3 cup vegetable oil
1/2 cup milk
2-1/2 cups all-purpose flour
1 cup quick-cooking rolled oats
1 teaspoon baking soda
1 teaspoon baking powder
1/2 teaspoon salt
1/2 teaspoon ground cinnamon
2 cups fresh or frozen cranberries
1 cup chopped nuts
Combine honey, oil, eggs and milk in large bowl; mix well. Combine flour, oats, baking soda, baking powder, salt and cinnamon in medium bowl; mix well. Stir into honey mixture. Fold in cranberries and nuts. Spoon into two 8-1/2 x 4-1/2 x 2-1/2-inch greased and floured loaf pans.
Bake in preheated 350 degrees oven 40 to 45 minutes or until wooden toothpick inserted near center comes out clean. Cool in pans on wire racks 15 minutes. Remove from pans; cool completely on wire racks. Makes 2 loaves.
Aiming to energize the seed industry cluster surrounding UC Davis, Seed Central, an initiative of the Seed Biotechnology Center at UC Davis and SeedQuest, recently highlighted postharvest handling and food safety at their monthly forum. Recordings of invited guest speakers, Marita Cantwell, Trevor Suslow and Roberta Cook, UC Cooperative Extension specialists with expertise in post harvest science, show the passion they feel for their respective subjects and why we're fortunate to have them on our team. Cantwell and Suslow are in the UC Davis Department of Plant Sciences; Cook is in the UC Davis Department of Agricultural and Resource Economics.
Cantwell, a postharvest physiologist, specializes in handling and storage of intact and fresh-cut vegetables. In her talk, she describes the Postharvest Technology Center itself and gives an overview of the handling challenges of many vegetable varieties.
A plant pathologist, Suslow’s program centers on studying the effects of microflora on the postharvest quality of perishable produce. With much attention to current food safety a priority, Suslow’s produce safety overview and specific case examples help us all (ahem) digest this hot topic.
Cook, an agricultural economist, focuses on fresh produce marketing and food distribution. This presentation centers on North American vegetable markets. Even if you’re not a grower, shipper or retailer, Cook's description of trends in the produce industry are fascinating — we all eat fruits and vegetables every day. She talks about things we might not ever think about.
What will be the new food frontier? An article in the Wall Street Journal with the headline “Next Stop for Food Fanatics: Africa” predicts adventurous American palates may soon be craving sub-Saharan cuisines.
Have you heard of these?
- Nakati (Solanum macrocarpon, S. aethiopicum) Also called African eggplant, some types of nakati are eaten for their leafy greens, while others are eaten for their fruit (which can look like a tomato or eggplant).
- Cowpea leaves (Vigna unguiculata) This plant produces black-eyed peas, but the greens of the plant can also be eaten as a vegetable.
- Bbuga (Amaranthus Gracecizans) You might know this plant by its common American name: pigweed.
- Doodo (Amaranthus Dubius) Like bbuga, this type of amaranth is eaten for its leaves in many parts of Africa. In North and South America, varieties of amaranth are usually used as a grain.
- Jjobyo (Gynandropsis Gynandra, Cleome gynandra) Also called spider plant.
Many of these indigenous vegetables are rich in micronutrients such as iron, vitamin A and vitamin B. When it comes to alleviating malnutrition in developing countries of eastern Africa, indigenous vegetables offer workable solutions because they are not only nutritious, but also familiar to the region’s eaters and farmers.
Recently U.S. researchers have been working with indigenous crops like these in east African countries — with funding and support from the Horticulture Collaborative Research Support Program (Horticulture CRSP), led by Beth Mitcham at UC Davis with funding from USAID. In Kenya, Tanzania and Zambia, Stephen Weller of Purdue University is leading a Horticulture CRSP research project on production practices, seed resources, postharvest handling, marketing and nutrition of varieties of amaranth, spider plant and African nightshade.
Take a look at this short video for a little more background:
Just as bok choy, an Asian vegetable, has become familiar to many American households, perhaps one day you’ll find nakati or another African leafy vegetable on your plate.
In the meantime, researchers with Horticulture CRSP are working to get more African leafy vegetables into the research agendas, fields, markets and plates of our counterparts in eastern Africa.
Read more abut Horticulture CRSP and its projects around the world at http://hortcrsp.ucdavis.edu.
Manuel Jimenez of Tulare County, who has been studying blueberry production and varieties at the UC Kearney Agricultural Research and Extension Center since 1998.
California’s abundant sunshine enables growers to produce high-quality, very sweet Southern Highbush variety blueberries. But, blueberry plants are difficult and expensive to establish and maintain, in part because of California's soil chemistry.
“Blueberries are adapted to grow in forests, in acidic soils,” Jimenez said. “We’re growing them in a desert in alkaline soil. That requires that we acidify the soil when we establish the crop and continuously acidify the irrigation water – which is very costly.”
For example, a 2009 Blueberry Cost Study produced by UC Davis calculated that equipment needs for acidification - including a storage tank, pump and monitoring kit - amounts to $5,500. In addition, the growers must purchase large quantities of sulfuric acid to add to the soil and irrigation water.
Reducing acidification cost is the goal of a new blueberry trial at Kearney, in which Jimenez has grafted the most common commercial blueberry varieties on the roots of farkleberry plants (Vaccinium arboreum). Farkelberry is a small, stiff-branched evergreen bush that is more tolerant of alkaline soils than blueberries.
So far, the two-month-old plants seem to be growing well in their naturally alkaline soil. The coming years will reveal whether using this technique will improve the economic viability of California blueberry farms and provide California consumers with local, healthful and delicious blueberries at a reasonable cost.
The project is being conducted in collaboration with Oregon State University and Florida State University.
Learn more about the blueberry trial by viewing the video below:
Backyard chickens are pets with perks. Laying hens provide a steady supply of fresh, organic eggs; unusual breeds can satisfy birdwatchers' desire to observe an animal exploring its surroundings; and poultry manure is an excellent soil amendment.
Surprisingly, chickens are pretty good companion animals as well. My family keeps two chickens in a 10-foot-square pen in the side yard of our tract home. The birds are as thrilled to see us at the end of the day as our dog and cats. They provide enough eggs for us to share with neighbors and, as one might expect, their food expenses amount to chicken feed.
Chicken rearing in urban areas seems to be keeping pace with growing interest in gardening. Among the California cities that permit backyard chickens are San Francisco, Anaheim, Long Beach, Oakland, Bakersfield and San Diego. Last summer, the Sacramento City Council passed an ordinance that allows citizens to raise up to three chickens in their backyards. Before bringing home chickens, check to see whether they are permitted under local ordinances where you live.
UC Cooperative Extension offers resources on selecting and caring for chickens. A free pamphlet, Selecting Chickens for Home Use, has guidelines for people who want chickens for eggs, meat or exhibition stock.
The best egg-laying breeds, the authors say, are Rhode Island Red, New Hampshire Red and Single-Comp White Leghorn. Characteristics sought for meat producers include fast growth and efficient feed utilization. The most common meat chicken is a cross between White Plymouth Rock hens and White Cornish cocks.
Chicken rearing is a popular 4-H project that goes back to the inception of the program in California nearly 100 years ago. At the outset, UC Cooperative Extension 4-H placed a heavy emphasis on farm production and farm family activities. As the state became increasingly urban and suburban, the scope of 4-H expanded into such projects as recycling, robotics, foods and nutrition and leadership. Now that popular culture is turning Californians back to rural roots - raising chickens and tending vegetable gardens - 4-H is uniquely poised to show them how.
The California 4-H Poultry Project Sheet can be used to engage children in raising backyard chickens, whether they are enrolled in 4-H or not. The National 4-H poultry curriculum details the responsible and humane care and raising of chickens. It outlines the the best management practices used on farms and in industry and the value of poultry meat and eggs in human nutrition.
The 4-H poultry curriculum is available for a nominal cost in the 4-H online store.
Get more information about enrolling in 4-H on the UC 4-H Youth Development Program website.