Paleobotanist Dana Royer says there is evidence the planet will heal but it takes millions of years to recover. And each ...

Researchers at Nagoya University Institute of Transformative Biomolecules (WPI-ITbM) in Japan and their colleagues have ...

Plants control their water consumption via adjustable pores (stomata), which are formed from pairs of guard cells.

Scientists have identified a natural compound, (Z)-3-hexenyl butyrate (HB), that can induce stomatal closure in plants, a ...

As far back as the 19th century, scientists have known that plants increase their stomatal pore openings to transpire, or ...

How do plants breathe through stomata? Key regulators of stomata are plant vacuoles, fluid-filled organelles bound by a single membrane called the tonoplast. Plant vacuoles are fluid-filled ...

Anion transport by unidentified guard-cell channels closes the stomatal pore and the first component for this channel function has now been found. You have full access to this article via your ...

Microscopic pores on the surface of leaves called stomata help plants "breathe" by controlling how much water they lose due to evaporation. These stomatal pores also enable and control carbon ...

Stomata are pores that open to allow carbon dioxide into leaves for photosynthesis and close to reduce water loss. Stomata are important because their behaviour affects crop productivity, and global ...

Stomata are microscopic pores located on the surfaces of plant leaves. They are essential for photosynthesis and transpiration. Photosynthesis converts light energy into glucose and oxygen ...