History of Agriculture

Due to its temperate climate and rich soil, hunter-gatherers began to settle in small communities in the "Fertile Crescent," the area between the Euphrates and the Tigris rivers. They learned to produce their own food as farmers began to plant harvest grains.

In 9000 BCE, people in Mesopotamia, modern day Iraq, began breeding plants and animals found in nature to make them edible. Over the next thousands of years, farmers worldwide began to domesticate crops by saving seeds and replacing them over seasons. The creation of agriculture enabled previously nomadic cultures to settle in one region, spawning the first urban centers and propelling civilization forward.

8700BCE Corn is farmed in Central America
The earliest known ancestor of corn is a variety of Mexican wild grass called teosinte. By suppressing the number of branching stalks in the species, farmers were able to grow larger ears with more kernels that more closely resembles corn today. 7000BCE Chinese farmers begin to grow rice
Rice farming transformed nomadic cultures. More so than any crop, rice drove societies and economies, and spawned some of the first urban centers, empires and dynasties.

6700-6500 BCE
Sheep are farmed in Mesopotamia As wild game populations became depleted, sheep, goats and pigs were increasingly raised for food production. Consistent exposure to human settlements caused the animals to grow more tame and become an accessible food source.

5000 BCE
Farmers harvest potatoes in Central America
Because the tuber of wild potatoes contain poisonous alkaloids, one of the first steps ancient farmers made toward developing the potato we know today was to replant a variety with a lower alkaloid content. Farmers also chose to plant larger specimens due to the naturally small size of wild potatoes.

3500 BCE
Squash and beans domesticated in Central America Developing a new crop through plant breeding would often take centuries, if not millennia, to complete. However, squash became domesticated quickly, selected based on traits like edibility, seed size and rind thickness. Beans were chosen for grain size and seed coat thickness.

300 BCE
Ancient Greeks develop new plant breeding process The Greeks develop grafting, a plant breeding process that joins parts from two different plants to produce a new plant, and apply the innovation to crops. Grafting made the farming of woody plants, such as apples, pears and plums, possible.

The Renaissance created the foundation of today's scientific method, the experimentation process researchers still follow today. This helped to reignite experimentation and innovation in food production. During this period, crossbreeding, the process of breeding two different varieties of plants or animals to develop an improved variety, took off. Access to better, more reliable food sources helped save billions from hunger and improve food security for many around the world.

1760-1795
Farmers breed sheep for their size and wool English farmer Robert Bakewell revolutionized sheep and cattle farming by methodically breeding animals, based on the traits he saw in them, for better meat and wool production.

1859
Charles Darwin publishes On the Origins of Species He writes, "We can not suppose that all the breeds were suddenly as perfect and as useful as we see them now... Nature gives successive variations; man adds them up in certain directions useful to him. In this sense he may be said to make for himself and useful breeds."

1865
New discoveries about genetic traits and inheritance Friar Gregor Mendel proposes his "principles of inheritance", the result of his experiments on pea plants, showing how traits are passed down over generations.

1903-1933
Horticulturists develop stronger, better varieties of crops Through continued experimentation, scientists are able to advance cross-breeding practices. By 1933, hybrid corn varieties were widely available on the commercial market.

1944
Scientists combat global hunger with dwarf wheat Norman Borlaug uses cross-breeding to develop dwarf wheat varieties in Mexico, which were high-yielding and disease-resistant. By expanding access to food, his work in Mexico and India saved a billion lives. His research improved food security in these nations and launched the Green Revolution.

THE DNA AGE Agricultural innovation was transformed as scientists began to better understand genes and DNA. Using this knowledge, they were able to make precise changes to plants and animals’ genetic code, to develop stronger, healthier varieties. These discoveries paved the way for the agricultural innovations of today. By continuing to cultivate a better understanding of nature, scientists can find more sustainable solutions to tomorrow's problems.

1953
Scientists discover DNA's double helix structure Drawing on Rosalind Franklin's research, Francis Crick and James Watson discover DNA's double helix structure. Their discovery showed how DNA replicates and how hereditary information is coded on it. It also paved the way for ongoing discoveries in the field of molecular biology.

1953-1999
Advances in genetic understanding of plants and animals Researchers worldwide further explore the genetic code of plants and animals, making future innovations possible.

2000
First plant genome squenced Scientists sequence the first genome sequencing of a flowering plant, Arabidopsis thaliana, which contains more than 25,000 genes, helping to clarify the specific functions different genes play. By better understanding genomes, plant scientists can more efficiently develop new varieties.

2003
The billionth acre of genetically modified crops is planted Scientists developed these crops by making minor changes to their genetic code to make them resistant to diseases, pests and more.

2012
CRISPR is discovered, changing the gene editing landscape Scientists publish a landmark paper describing CRISPR, an enzyme that can edit an organism's DNA, to turn on and off certain genes. The discovery opens the door to exciting innovations in plant and animal breeding.