Flourishing faster: How to make trees grow bigger and quicker

This image shows a section of a poplar tree that has had its genes modified so cells divide quicker. Credit: Professor Simon Turner

In the study, published in Current Biology, the team successfully manipulated two genes in poplar trees in order to make them grow larger and more quickly than usual.

Professor Simon Turner from the Faculty of Life Sciences led the research: “The rate at which trees grow is determined by the rate of cell division in the stem. We have identified two genes that are able to drive cell division in the stem and so override the normal growth pattern.

“Although, this needs be tested in the field, this discovery paves the way for generating trees that grow more quickly and so will contribute to meeting the needs for increased plant biomass as a renewable source of biofuels, chemicals and materials while minimising further CO2 release into the atmosphere.”

The genes, called PXY and CLE, control the growth of a tree trunk. When overexpressed, making them more active than in their normal state, the trees grew twice as fast as normal and were taller, wider and had more leaves.

As well as the potential to increase biomass supplies for the growing biofuel and industrial biotechnology sectors, the discovery could help plants deal with the environmental consequences of climate change.

Professor Turner adds: “Our work offers the possibility we may be able to maintain a fast growth rate even in the face of adverse and changeable environmental conditions that all plants are likely to be faced with.

“Most plants, including crops, respond to adverse environmental conditions with lower growth rates that result in correspondingly lower yields. Understanding how the plants respond to environmental signals and to what extent we are able to manipulate them to override these signals is likely to be very important for continued improvements to crop performance. In future it may be possible that manipulating the expression of the PXY and CLE genes can override environmental signals that normally alter plant growth.

“This is something that needs to be tested in the field, but offers a potential way forward for what is one of the most pressing challenges of the day.”

The team now plans to work with a forest products company to test their findings in the field.

The work builds on a previous study from 2010 in which the team identified the role of the genes involved, in the plant Arabidopsis.

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The study was funded by the Biotechnology and Biological Sciences Research Council.

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