Some GMO crops are resistant to herbicides. Introduction of a herbicide-resistant bacterial gene into plant DNA makes the plant resistant to that herbicide. Genetically-modified soybeans, corn, cotton, potatoes and wheat resist herbicides sprayed on farms to kill weeds. This has increased total yield of these crops as farmers use less toxic herbicides and do not need to spray as often as for traditional crops.
Bt is a safe and effective insecticide used in farming. Insertion of this toxin-producing gene from bacteria into the DNA of corn and cotton makes them resistant to some insects and protects them from disease. These crops require less spraying of the insecticide, as the plants produce the toxin to kill the insects themselves. Similar to herbicide- and insecticide-resistance crops, genetically-engineered plants resistant to diseases caused by viruses were developed. The papayas plants grown in Hawaii are resistant to attack by some viruses.
Research is ongoing to develop crops that are resistant to extreme temperatures, have increased nutritive value and crops that produce human vaccines or medicinal drugs.
GM foods make up a vast majority of the foods available in the market today. Recombinant DNA has increased the overall production of crops, as well as decreased the amounts of herbicides and insecticides used by farmers. This means that the farmers produce larger amounts of food while spending less time caring for the crop and paying less for insecticides and herbicides. Higher yields also benefit the consumer, as more food is available at lower prices. GM foods are the new normal.