Scientists discover how plants breathe and how humans shaped their 'lungs'

London, PTI | Updated : 30 June 2019, 08:16 AM
Botanists have known since the 19th century that leaves have pores—called stomata—and contain an intricate internal network of air channels
Botanists have known since the 19th century that leaves have pores—called stomata—and contain an intricate internal network of air channels

Scientists have discovered how plants create networks of air channels—the lungs of the leaf—to transport carbon dioxide (CO2) to their cells. Botanists have known since the 19th century that leaves have pores—called stomata—and contain an intricate internal network of air channels. But until now it wasn’t understood how those channels form in the right places in order to provide a steady flow of CO2 to every plant cell.

The new study, led by scientists at the University of Sheffield’s Institute for Sustainable Food in the UK, used genetic manipulation techniques to reveal that the more stomata a leaf has, the more airspace it forms.

The channels act like bronchioles - the tiny passages that carry air to the exchange surfaces of human and animal lungs, it said.

“Until now, the way plants form their intricate patterns of air channels has remained surprisingly mysterious to plant scientists,” Professor Andrew Fleming from the Institute for Sustainable Food at the University of Sheffield.

“This major discovery shows that the movement of air through leaves shapes their internal workings - which has implications for the way we think about evolution in plants,” he said.

In collaboration with colleagues at the University of Nottingham and Lancaster University, the researchers showed that the movement of CO2 through the pores most likely determines the shape and scale of the air channel network.

The discovery marks a major step forward in our understanding of the internal structure of a leaf, and how the function of tissues can influence how they develop—which could have ramifications beyond plant biology, in fields such as evolutionary biology.

The study, published in the journal Nature Communications, also showed that wheat plants have been bred by generations of people to have fewer pores on their leaves and fewer air channels, which makes their leaves denser and allows them to be grown with less water.

The new insight highlights the potential for scientists to make staple crops like wheat even more water-efficient by altering the internal structure of their leaves. This approach is being pioneered by other scientists at the Institute for Sustainable Food, who have developed climate-ready rice and wheat which can survive extreme drought conditions.

Dr Marjorie Lundgren from Lancaster University said, “Scientists have suspected for a long time that the development of stomata and the development of air spaces within a leaf are coordinated. However, we were not really sure which drove the other. So, this started as a ‘what came first, the chicken or the egg?’ question.”

“Using a clever set of experiments involving X-ray CT image analyses, our collaborative team answered these questions using species with very different leaf structures. While we show that the development of stomata initiates the expansion of air spaces, we took it one step further to show that the stomata actually need to be exchanging gases in order for the air spaces to expand. This paints a much more interesting story, linked to physiology," Lundgren said.

First Published: Sunday, June 30, 2019 08:16 AM
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