UF Scientists Sequence New Lantana Genome to Prevent Spread of Invasive Varieties


Zhanao Deng, professor of environmental horticulture (left) and Brooks Parrish (right), a doctoral student, look over lantanas at the UF/IFAS Gulf Coast Research and Education Center

Zhanao Deng, professor of environmental horticulture (L) and Brooks Parrish (R), a doctoral student, look over lantanas at the UF/IFAS Gulf Coast Research and Education Center | Alice Akers, UF/IFAS

A University of Florida scientist has sequenced the genome of one representative type of lantana, research that will help other plant breeders develop sterile varieties and help researchers control the plant from spreading.

“This new genome assembly (sequence) has helped us develop new tools to speed up our lantana genetic sterilization efforts and to identify native lantana for preservation,” says Zhanao Deng, a UF/IFAS Professor of Environmental Horticulture.

Brooks Parrish, a doctoral student in Deng’s lab and the first author of the new paper, compared the genome sequence to a user’s manual.

“Imagine a genome as a giant instruction book that tells a plant how to grow, what color its flowers should be, and everything else about it,” Parrish says. “In this study, we’ve assembled and annotated a very detailed and accurate version of this instruction book for a specific type of lantana plant.”

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“Other researchers can also use this instruction book to help with their work on breeding, sterilizing, conserving, or controlling lantana plants,” he says. “For example, these instructions contain genes that could be targets for new herbicides to help control invasive lantana in the ecosystems.”

A lantana plant from UF IFAS

A lantana plant | Alice Akers, UF/IFAS

Some lantanas are invasive. They can form dense, impenetrable thickets that destroy native vegetation. They also can compete with other plants for resources, reducing the productivity of pastures and forests.

Sterilizing lantana is the key to preventing it from invading natural and agricultural land or threatening and endangering other plants.

“Invasive lantana can cross-pollinate with native lantana, contaminating the native lantana’s gene pool,” says Deng, who breeds ornamental plants at the Gulf Coast Research and Education Center. “In response, we have developed and released sterile, non-invasive lantana cultivars that can produce lots of attractive flowers and attractive butterflies. But they don’t cross-pollinate native lantana and don’t produce seeds.”

Deng’s commercially available lantanas are sold under the names ‘Bloomify Red,’ ‘Bloomify Rose,’ and ‘Luscious Royale Red Zone’.

“These sterile, non-invasive cultivars are perfect alternatives to the invasive lantanas,” he says.

Additionally, Deng and his team are testing more new lantana varieties for sterility and to see how well they perform in nurseries and flower gardens.



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