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Switching on a dime: How plants function in shade, light

Date:
November 13, 2014
Source:
Carnegie Institution
Summary:
Plants grow in environments where the availability of light fluctuates quickly and drastically, for example from the shade of clouds passing overhead or of leaves on overhanging trees blowing in the wind. Plants thus have to rapidly adjust photosynthesis to maximize energy capture while preventing excess energy from causing damage. So how do plants prevent these changes in light intensity from affecting their ability to harvest the energy they need to survive? The response has to be extremely swift.
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Photosynthesis is the process by which plants convert energy from the sunlight into chemical energy in the form of sugars. These sugars are used by plants to grow and function, as well as food for animals and humans that eat them.

Plants grow in environments where the availability of light fluctuates quickly and drastically, for example from the shade of clouds passing overhead or of leaves on overhanging trees blowing in the wind. Plants thus have to rapidly adjust photosynthesis to maximize energy capture while preventing excess energy from causing damage. So how do plants prevent these changes in light intensity from affecting their ability to harvest the energy they need to survive? The response has to be extremely swift. A team of researchers led by Carnegie's Ute Armbruster and Martin Jonikas revealed a mechanism by which plants maintain high photosynthetic efficiency in fluctuating light. Their work is published in Nature Communications.

The question of how photosynthetic efficiency is maintained affects plants on which humans depend, including crops and even forests, so answering this question has practical implications for improving agricultural productivity.

The team, which also includes Carnegie's Ari Kornfeld and Joseph Berry, discovered that a protein, called KEA3, is crucial for immediate adjustment of photosynthetic efficiency in fluctuating light conditions.

Photosynthesis takes place in stages. The first stage absorbs light in the form of photons and uses it to produce energy storage molecules, which are then used to power the second stage, which fixes carbon from the air into carbon-based sugars, such as sucrose and starch.

KEA3 is concerned with the first stage.

Under full sunlight, the energy from excess absorbed photons is intentionally dissipated by the plant as heat. But if the incident light is blocked by a cloud, the plant must switch from dissipating excess photons as heat to harvesting as many photons as possible. Advanced analytical techniques demonstrated that KEA3 acts to accelerate the switch from the full-sunlight-adapted mode to the shade-adapted mode. This rapid response to light intensity makes the first stage of photosynthesis more efficient.

Mutant plants without functioning KEA3 transporters lost a great deal of harvested light energy as heat during a transition to low light, further underpinning their finding.

"Our discovery of this built-in machinery for responding to light conditions makes KEA3 a new target for those interested in improving crop productivity, as well as for advancing basic knowledge of photosynthetic biochemistry," Jonikas said.


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Materials provided by Carnegie Institution. Note: Content may be edited for style and length.


Journal Reference:

  1. Ute Armbruster, L. Ruby Carrillo, Kees Venema, Lazar Pavlovic, Elisabeth Schmidtmann, Ari Kornfeld, Peter Jahns, Joseph A. Berry, David M. Kramer, Martin C. Jonikas. Ion antiport accelerates photosynthetic acclimation in fluctuating light environments. Nature Communications, 2014; 5439 DOI: 10.1038/ncomms6439

Cite This Page:

Carnegie Institution. "Switching on a dime: How plants function in shade, light." ScienceDaily. ScienceDaily, 13 November 2014. <www.sciencedaily.com/releases/2014/11/141113075121.htm>.
Carnegie Institution. (2014, November 13). Switching on a dime: How plants function in shade, light. ScienceDaily. Retrieved June 24, 2024 from www.sciencedaily.com/releases/2014/11/141113075121.htm
Carnegie Institution. "Switching on a dime: How plants function in shade, light." ScienceDaily. www.sciencedaily.com/releases/2014/11/141113075121.htm (accessed June 24, 2024).

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