Plants and the animals that eat them have evolved together in fascinating ways, creating a dynamic interplay of survival strategies. Many plants have developed physical and chemical defenses to fend off herbivores. A well-known strategy in flowering plants is to produce nectar to attract “ant bodyguards.” Recent research explores the evolution of this same defense strategy in ferns.
Jacob Suissa, an assistant professor at the University of Tennessee Knoxville, led the study in collaboration with Boyce Thompson Institute's fern expert, Fay-Wei Li, and Cornell University’s ant expert, Corrie Moreau.
The study, recently published in Nature Communications, revealed that ferns and flowering plants independently evolved nectaries, specialized structures that secrete sugary rewards to attract ant bodyguards, around the same time in the Cretaceous period. This finding is significant as it suggests similar evolutionary dynamics shaped the development of ant-plant mutualisms across these two divergent lineages, separated by more than 400 million years.
"Our research highlights a fascinating example of convergent evolution, where ferns and flowering plants independently developed similar strategies to defend themselves against predation by recruiting ant defenders with nectaries," said Suissa.
By integrating phylogenetic data and comparative analyses, the research team discovered that nectaries originated concurrently in ferns and angiosperms, but ferns experienced a significant lag in diversification compared to their flowering plant counterparts. The study also revealed that ferns likely recruited ant defenders secondarily, tapping into pre-existing ant-angiosperm relationships as they transitioned from the forest floor to the canopy.
"The evolutionary history of fern nectaries not only demonstrates the complex relationships between plants and insects—relationships that have been previously underestimated—but also underscores the ability of ferns to adapt to ecological challenges,” explained Suissa.
The research offers new insights into the evolutionary dynamics that shape plant-animal interactions. By understanding how ferns and flowering plants independently developed similar defense mechanisms, scientists can better appreciate the underlying principles governing biodiversity and ecosystem function. This study opens new avenues for exploring the evolutionary history of other plant traits and their ecological impact, reinforcing the importance of mutualistic relationships in the natural world.
Learn more about this fascinating research in this related news story.
About Boyce Thompson Institute
Founded in 1924 and located in Ithaca, New York, BTI is at the forefront of plant science research. Our mission is to advance, communicate, and leverage pioneering discoveries in plant sciences to develop sustainable and resilient agriculture, improve food security, protect the environment, and enhance human health. As an independent nonprofit research institute affiliated with Cornell University, we are committed to inspiring and training the next generation of scientific leaders. Learn more at BTIscience.org.
Contact details
Related topics
Related news
Study Reveals Role of Allele Dosage in Improving Sweetpotato Traits
BTI study unveils how allele dosage impacts sweetpotato traits, offering new strategies for breeders to enhance yield and nutritional value.
Climate Change Threatens Global Food Supply: Scientists Call for Urgent Action
Plant scientists highlight the urgent need for global action against climate change's impact on food security, emphasizing climate-resilient crop development and collaboration.
Study Finds Genetic Mechanisms Behind High-Yield Apple Trees
This research could have significant implications for apple breeding. Understanding these genetic traits could help breeders develop apple varieties that combine compact growth with other valuable ...
Bioeconomy in Colombia: The Race to Save Colombia's Vital Shellfish
Genetic study reveals piangua shellfish decline in Colombia due to overharvesting, stressing the need for sustainable conservation strategies.
Unlocking the Genetic Mysteries of Modern Roses
New study uncovers rose genetics, aiding breeders in cultivating beautiful, hardy varieties suited to diverse climates and challenges.