The banana is the most popular fruit in the world, currently making up almost half of all global production of fruit. Every banana you buy at the store is genetically identical to the one next to it! This is because the banana only reproduces by creating clones of itself.

Most bananas grow in tropical climates between the equator and 30 degrees south of the equator. In the wild, bananas sexually reproduce like other plants. In farmed bananas, farmers do not allow the bananas to sexually reproduce. They clone the variety of plants that is best for commercial growing, harvest, and shipping to locations around the world.

Before the 1950s, the world’s choice of banana was the Gros Michel variety because it was creamier, sweeter, and easier to transport than other bananas (they had thick peels, which protected the bananas from bruising). However, between 1890 and 1950, the banana crop in Latin America was almost entirely destroyed. The culprit was a fungus called Fusarium oxysporum. The fungus lives in the soil and infects the roots of the banana plant. It slowly works its way up the plant, eventually choking the plant of nutrients and killing it. Because all Gros Michel individuals were genetically identical, the disease devastated their populations.

Analyze the maps below illustrating the Gros Michel populations in Latin America

A Possible Solution to the Banana Crisis

Currently, there are no banana varieties that are resistant to the TR4 fungus, so banana farmers are looking for another solution to their problem.

A scientist named James Dale found a wild banana called Musa acuminata malaccensis that is resistant to TR4, but it has hard seeds that make it difficult to eat. Dale was able to isolate the gene for resistance, RGA2, from the wild banana and insert it into the Cavendish banana plant. This created what is called a genetically modified variety. Dale created six versions.

Dale conducted a three-year trial on a banana plantation in Australia where TR4 infection was common and most Cavendish bananas had been killed by the fungus. He planted all Cavendish bananas–a typical variety that was not genetically modified and five genetically modified varieties of the RGA2 resistance gene from the Musa acuminata malaccensis, called RGA2-2, RGA2-3, RGA2-4, RGA2-5, and RGA2-7. The Cavendish and five genetically modified varieties were all grown in the same area, exposed equally to the TR4 fungus.

Imagine after the TR4 infection that Dale left his experimental population to reproduce on its own and the environmental conditions did not change. If he came back in 20 years, predict whether each variety would increase or decrease in proportion in the population