university of maryland

Could looking through trees be the view to a greener future? Trees replacing the clear pane glass in your windows is not a work of science fiction. It’s happening now.

About one mouthful in three in our diets directly or indirectly benefits from honey bee pollination. That makes bees critically valuable to humans’ existence. For this reason the U.S. Department of Agriculture’s Animal and Plant Health Inspection Service (APHIS) documents issues affecting honey bee health through the annual National Honey Bee Survey (NHBS). The survey collects data on bee health to understand long term trends, factors that drive bee health, ways to safeguard bee populations in the United States. Bee pollination is responsible for $15+ billion in added crop value -- particularly for specialty crops such as almonds and other nuts, berries, fruits, and vegetables. We need the economic benefits, as well as the nourishment, that bees provide to us through their role in pollination.

The December 2014 to June 2015 avian influenza outbreak was the largest animal health emergency in U.S. history. The virus contributed to the death of more than 48 million birds, either due to infection with the virus or depopulation to prevent additional spread.  The virus was introduced into the U.S. by wild migratory waterfowl and then spread from farm to farm in a number of ways.  This included farms sharing equipment, vehicles moving between farms without being cleaned or disinfected, employees moving between infected and non-infected farms, rodents and small wild birds reported inside some poultry houses, and feed stored outside or without appropriate biosecurity measures. The virus spread was also assisted by instances of noncompliance with industry-recommended biosecurity practices.

Fortunately, avian influenza poses little threat to human health and food safety. Human infections with avian influenza are rare and most often occur after direct contact with an infected bird. Avian influenza does, however, adversely affect food availability and the economy. If a single bird became infected with the highly pathogenic avian influenza virus during the 2014-15 outbreak, every bird in the same commercial poultry house – which contains an average of 30,000 birds – was depopulated.

Without pollinators, we don’t eat—it’s simple as that—and, at the moment, large numbers of pollinators are dying.  With the world’s population projected to exceed 9 billion in just the next 30 years or so, that is not a good position for us to be in.

More than 90 species of U.S. specialty crops require pollination, and various animals, including bees, butterflies, moths, bats, and birds are a critical part of the pollinator-plant ecosystem.  Despite the myriad species of pollinators available, American farmers rely on one species of honey bee, Apis mellifera, for most of the pollinator services to pollinate their crops. Wild and managed bees together add $15 billion in crop value each year.

Nutritional security is defined as “a situation that exists when all people, at all times, have physical, social, and economic access to sufficient, safe, and nutritious food that meets their dietary needs and food preferences for an active and healthy life.”

Achieving nutritional security in the context of the burgeoning population, climate change, diminishing land and water resources, environmental degradation, and changing incomes and diets will require not just approaches to sustainably producing more food, but also smarter ways of producing food, dealing with food waste, and promoting improved nutritional outcomes.  The National Institute of Food and Agriculture (NIFA) invests in and advances agricultural research, education, and extension and seeks to make transformative discoveries that solve these societal challenges. NIFA’s portfolio of support for nutritional security and sustainable agriculture includes literally thousands of impactful efforts across our nation; below are just a handful that speak to the transformative work transforming lives.  For example:

Historically black colleges and universities, particularly the “1890 land-grant universities (LGUs),” have conducted groundbreaking studies to further advance agricultural research in this country, such as eradicating peanut allergens and food borne illnesses.  Now, they’re making significant impacts abroad by strengthening U.S. global outreach in agribusiness.

In summers of 2011 to 2015, Florida A&M University (FAMU) students, in collaboration with University of Maryland Eastern Shore (UMES), took part in an 18-day program in South Africa to improve that country’s agricultural performance in table grape and aquaculture production and educational value chains.  The trip was supported by USDA’s National Institute of Food and Agriculture (NIFA), through its 1890 Capacity Building Program, and the U.S. Agency for International Development (USAID) Farmer-to-Farmer Program.

“Who better to share the benefits of intensive rotational grazing than farmers who are actually doing it on their lands?” asked Beth L. McGee, Chesapeake Bay Foundation Senior Regional Water Quality Scientist.

Intensive grazing systems, a type of rotational grazing that uses higher per acre stocking rates in smaller grazing or pasture units, can provide multiple benefits for farmers and the environment. These systems can help maintain and enhance farm profitability while reducing labor and input costs. Compared to more traditional confinement operations, intensive grazing can result in improved soil health, an increase in sequestered carbon and decreased emissions of other greenhouse gases.

Booker T. Washington.  George Washington Carver.  Educators par excellence.  Pioneers in food and agricultural scientific research. Dedicated their lives to helping "lift the veil of ignorance" by bringing knowledge to African-Americans and others with limited resources.

For 125 years, since passage of the Second Morrill Act on Aug. 30, 1890, which created a "broader education for the American people in the arts of peace, and especially in agriculture and mechanics arts," the legacy of innovations has been sustained.

July in America.  It is summer time and school’s out. It is about vacations and maybe a trip to the beach. It is Independence Day—the 4^th of July—and parades and fireworks.  It is about barbecues, hotdogs, and burgers. 

2015 marks America’s 239^th birthday.

July is also the month for another important birthday in America—passage of the Morrill Act on July 2, 1862, which established the land-grant university system, ensuring access to education for all people.

Like many city kids growing up in Richmond, Va., Carolyn Brooks didn’t know much about agriculture and had never heard of 4-H. That changed quickly, however, as she was the first in her family to graduate from college—earning a B.S. and then a M.S. in biology from one of the foremost agricultural schools in the country, Tuskegee University, where she said, many people “helped me, guided me, and cared about my success.”

Brooks said that before moving to Tuskegee, Ala., she “knew nothing about the South. I had never been in that kind of environment – in a predominantly black community.”