Research Reviews Plants' Ability to Cooperate with Other Plants

Research Reviews Plants' Ability to Cooperate with Other Plants

Research focuses on plant that survives in low-nitrogen soils with help of other plants

Researchers at the University of New Hampshire have received a near $400,000 grant from the USDA to investigate the chemical processes that allow certain plants to signal each that they are friends, not foes, and thus work together in an ecologically mutual partnership.

Louis S. Tisa, professor of microbiology and genetics, and Feixia Chu, assistant professor of biochemistry, will use to grant to support research on photosynthetic and nutrient utilization. The project is a collaborative effort between UNH and the Institut de Recherche pour le Développement in Montpellier, France.

Related: Cover Crops Can Significantly Reduce Nitrogen Loading

Research focuses on plant that survives in low-nitrogen soils with help of other plants

The project focuses on the chemical signals between the bacteria Frankia and actinorhizal plants. Frankia live in the root nodules of actinorhizal plants, which are a diverse group of woody species found in forests worldwide and include alder, bayberry, and sweet fern.

"We have been investigating how a beneficial bacterial symbiont recognizes and communicates with its host plant. How does the plant recognize a friend from a foe? Our system is the Frankia-actinorhizal symbiosis, which allows these plants to colonize in harsh environments, usually by providing a nitrogen source through biological nitrogen fixation," Tisa said.

Because Frankia can supply the nitrogen needs for actinorhizal plants, these plants can thrive in low-nitrogen soils and thus play an important part of the nitrogen budget of the planet.

The plants are economically significant with respect to land reclamation, reforestation, bioremediation of contaminated environmental sites, pollution reduction, soil stabilization, fuel, and as a food source for animals.

Related: IFPRI: No Till, Nitrogen Efficiency Have Highest Potential Impacts on Global Yields

However, researchers have lacked the genetic tools to understand the biological processes that support this symbiosis. With this funding, scientists plan to use next-generation sequencing tools to address the question of how the signal is produced in Frankia.

"The use and development of this beneficial symbiosis has broad impact on agricultural system and could be applied to other crops," Tisa said.

"As the world's population increases, plants play a vital role in the success of the national and global economy," said Sonny Ramaswamy, NIFA director. "It is imperative that we study plant breeding and nutrient utilization in order to have a safe and secure food supply in the future."

Source: University of New Hampshire

TAGS: USDA
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