Scientists have discovered that certain plants can survive stressful, dry conditions by controlling water loss through their ...

The study has revealed that C 4 plants can maintain reduced relative humidities in the substomatal cavity, even under vapor ...

Researchers discovered that certain C4 plants, such as maize and sorghum, manage water loss without relying on stomata during ...

Scientists discovered that certain plants can survive stressful, dry conditions by controlling water loss through their leaves without relying on their usual mechanism -- tiny pores known as 'stomata' ...

Scientists discover nonstomatal control of water loss in critical crops Sep 16, 2024 Trade-offs exist in hydraulic and mechanical traits of plants in Chinese savanna ...

As part of the Co-design Center for Quantum Advantage (C2QA), a DOE National Quantum Information Science Research Center led ...

Using the NASA/ESA James Webb Space Telescope, astronomers confirmed that supermassive black holes can starve their host ...

This also includes sorghum, and proso millet. According to the university nonstomatal control gives these plants an advantage in maintaining a beneficial microclimate for photosynthesis within ...

A study has revealed that non-cognitive skills, such as motivation and self-regulation, are as important as intelligence in determining academic success. These skills become increasingly ...

When stomatal lineage behavior is modified this alters not only stomatal numbers, but also numbers of non-stomatal cells. Thus, regulation of stomatal development is essential for formation of a leaf ...

Nonstomatal control of transpiration in maize, sorghum, and proso millet – all C4 crops which are critical for global food security – gives these plants an advantage in maintaining a ...