Artificial intelligence is being employed in the search for a female partner for a critically endangered male plant species that predates dinosaurs. A research project led by the University of Southampton is scouring thousands of acres of forest in South Africa, where the only known Encephalartos woodii (E. woodii) was found, in a bid to find a female. If the hunt proves fruitless, researchers are also exploring the possibility of changing the plant's sex to create a female version.
The only known E. woodii was discovered in the Ngoye Forest, South Africa, in 1895. It was relocated several years later for safekeeping, with samples sent to botanical gardens, including Kew in London, where it is still propagated and grown today. However, with only one male found, all subsequent propagated samples are male clones, rendering natural reproduction impossible. The Ngoye Forest has, until now, never been fully explored to determine if a female could exist.
Hunting with drones
Dr. Laura Cinti, a research fellow at the University of Southampton's Winchester School of Art, is leading the first project to use drones and AI to search for a female E. woodii. She said, "This plant is, as far as we know, extinct in the wild. I was very inspired by the story of the E. woodii; it mirrors a classic tale of unrequited love. I’m hopeful there is a female out there somewhere, after all, there must have been at one time. It would be amazing to bring this plant so close to extinction back through natural reproduction."
Dr. Cinti is collaborating with Dr. Howard Boland, a creative technology expert working in AI, and Dr. Debbie Jewitt, a conservation scientist and drone pilot based in South Africa. Initial drone flights in 2022 took tens of thousands of images and used a multispectral sensor to capture features beyond what can be seen from high above with the naked eye, such as distinguishing whether plants are living or dead and identifying species.
With no E. woodii yet found, the drone imaging is ongoing, now with the power of AI. They have covered 195 acres of the Ngoye Forest so far, with 10,000 acres in total. "With the AI, we are using an image recognition algorithm to recognise plants by shape," explained Dr. Cinti. "We generated images of plants and put them in different ecological settings to train the model to recognise them."
Dr. Cinti is also working on a new partner project investigating whether it is possible to change the sex of the E. woodii using either chemical or physiological manipulation and then generate vegetative plants from that material. She said, "There have been reports of sex change in other cycad species due to sudden environmental changes such as temperature, so we are hopeful we can induce sex change in the E. woodii too."
The story of the E. woodii
The Encephalartos woodii is a type of plant known as a cycad. Cycads are the oldest surviving seed-bearing plants, dating back more than 300 million years and surviving multiple mass extinctions and environmental changes. They are dioecious, meaning they are either male or female, and they produce cones from which pollen is transported by insects for reproduction. Despite their longevity, they are now the most endangered organisms on our planet, and the Encephalartos woodii is the rarest of all.
Dr. Cinti noted, "Cycads sell on the black market for hundreds of thousands of pounds and are kept in cages in botanical gardens due to the risk of theft."
This innovative research aligns with several of the United Nations Sustainable Development Goals (SDGs). It supports SDG 15 - life on land, which aims to protect, restore, and promote the sustainable use of terrestrial ecosystems and halt biodiversity loss. The use of AI and drone technology to locate a female E. woodii demonstrates the integration of modern technology in conservation efforts, promoting SDG 9 - industry, innovation, and infrastructure.
Furthermore, the project's focus on potentially changing the plant's sex to ensure its survival highlights the importance of scientific research and development in tackling environmental challenges, contributing to SDG 13 - Climate action by addressing the impacts of climate change on biodiversity. Through these efforts, the research team is not only striving to save a species from extinction but also advancing the global agenda for sustainable development and environmental preservation.
Source and image credits: https://www.southampton.ac.uk/news/2024/05/the-high-tech-hunt-for-a-lonely-plants-partner.page