New Crop Varieties Improve Tomato and Soybean Yields in Cuba

The island, which has a tropical climate, is seeing rising temperatures, changing rainfall patterns, longer periods of drought and the intrusion of salty waters along coastal areas. These are contributing to lower crop production.

Climate change increasingly exposes the plants’ vulnerability to extreme weather conditions, leading to the higher use of environmentally harmful chemical fertilisers and pesticides. Therefore, Cuban experts are looking towards improvement of crops as an alternative, more environmentally sustainable solution. To do this, they are using nuclear and isotopic techniques to induce novel genetic variation for improved crop performance and increased production of crucial crops.

One of these is soybean. Commonly used to produce oil, animal feed, yogurt and meat substitutes, the demand for this crop is growing worldwide, including in Cuba. Developing improved varieties is the first step – then these new varieties need to be nurtured to provide the food islanders need.

Using isotopic techniques to improve bio-fertilisers, Cuban researchers can now increase the production of high-quality soybeans bred to be rich in iron, protein and oil. Bio-fertilisers contain living micro-organisms which restore the soil’s natural nutrition, helping plants grow stronger and healthier without the need for chemicals. Isotopic techniques are used to measure the plants’ ability to both absorb the bio-fertiliser and to fix nitrogen from the air, the former for better crop management, and the latter for both soil health and crop performance. 

“The project hasn’t only created new healthy crop varieties, but the capacity building over the years has led to an efficient protocol of work and the creation of expertise in nuclear techniques in the region, where we are continuously working together and learning from one another,” said Maria Caridad Gonzalez-Cepero, Leader of Technical Nuclear Applications at INCA.

When genetic improvement is desired for new variety development at quick turn-around, such as with accelerating climate change, nuclear techniques for induced genetic diversity provide a larger selection pool for better and faster selection than conventional breeding methods. This combined with a streamlined breeding programme has the potential to deliver improved varieties within a short time. 

With support to countries provided under the IAEA’s technical cooperation programme, nuclear techniques have been used to develop varieties with climate adaptation needed traits in many crops, including rice, common beans, tomatoes and soybeans.

“Thanks to the use of these diverse techniques, seeds of specially selected new variety lines were provided to farmers and producers, leading to successful harvests,” said Gonzalez-Cepero. “And with the reduction in the use of nitrogen-based fertilisers, the country’s agricultural greenhouse gas emissions will also fall.”