Advances in biotechnology have enabled the development of a range of new agricultural tools. From DNA sequencing to plant tissue culture and gene editing, these advances are facilitating the development of better crops. Genetically modified organisms (GMOs) are one well-known example of agricultural biotechnology. GMOs are organisms whose genetic material has been artificially altered by inserting a piece of foreign DNA. This DNA may be synthetic in origin or sourced from other organisms. Genome editing (also called gene editing or GEd) involves making precise changes to an organism’s genome without the integration of foreign DNA elements. Several approaches to genome editing have been developed. A well-known one is called CRISPR-Cas9, in which scientists make precise “cuts” in the DNA to create a new genetic variation. Unlike with GMOs, this introduces only minor modifications that are indistinguishable from natural mutations, typically by transplanting genes that code desirable traits from one species into another. GEd technology has been recognized and supported by the Food and Agriculture Organization of the United Nations (FAO). Thirteen FAO-member countries who are also members of the Organization for Economic Cooperation and Development (OECD) announced their support of the use of GEd technology for commercial uses and consumption at a recent WTO meeting. In addition, over 40 countries around the world, such as Argentina, Australia, Brazil, Canada, Chile, China, England, Japan, Kenya, the Philippines, Russia, the UK, and the US, have published policies emphasizing that foods free of transgenes (i.e., foods that do not contain genes transferred from external sources) are not GMOs, concluding that GEd plants are as safe as normal plants. In February 2024, the European Parliament approved new genomic techniques (NGTs), or GEd. As a result, plants that are produced using GEd technology are not classified by the EU as GMOs, and the EU