News Release

Origin and diversification of sunflower family

Peer-Reviewed Publication

Proceedings of the National Academy of Sciences

Kunth

image: Kunth, an endemic South American genus that resulted from explosive diversification out of Africa in the middle Eocene. view more 

Credit: Image courtesy of Vicki A. Funk.

A study explores the origin and diversification of the sunflower family of flowering plants. The sunflower family, composed of an estimated 25,000-30,000 species, accounts for nearly 10% of all flowering plants. Global in distribution, the family occupies nearly every type of habitat on Earth and is marked by a complex inflorescence exemplified by the North American sunflower, in which individual flowers are clustered to mimic a single, large flower to lure pollinators. However, the origins, migration routes, and patterns of diversification that led to the family's ecological success remain unclear. Using phylogenetic analysis of nearly 1,000 genomic locations in around 250 species, Jennifer Mandel and colleagues found that the family likely originated around 83 million years ago in the Late Cretaceous Period in southern South America. The earliest diversification out of South America may have occurred around 50 million years ago, during a period of dramatic climate change. Subsequently, the family rampantly diversified during the middle-to-late Eocene epoch, 42-37 million years ago, a period marked by global cooling, resulting in more than 95% of existing species. Biogeographical analysis suggests that the family migrated to North America, south and central Africa, and Asia, with ancestral range estimates suggesting different possible dispersal routes out of South America. Regardless of the route, the family's prolific diversification and global colonization likely began once it reached Africa around 42 million years ago. According to the authors, the findings illuminate the evolutionary processes underlying the wide reach and vibrant diversity of a major group of flowering plants.

Article #19-03871: "A fully resolved backbone phylogeny reveals numerous dispersals and explosive diversifications throughout the history of Asteraceae," by Jennifer Mandel et al.

MEDIA CONTACT: Jennifer Mandel, University of Memphis, TN; tel: 901-678-5130, 901-505-2580; e-mail: jmandel@memphis.edu

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