Screening and manufacturing drought-tolerant plant varieties through biotechnology can effectively improve the drought tolerance of crops and reduce food losses caused by natural disasters. At the same time, land in arid and semi-arid areas can be used more efficiently to increase crop yields.
Tamarix ramosissima (salt cedar) is commonly known to be very resistant to drought. This study investigates the physiological responses of Tamarix ramosissima as it encounters drought stress.
Lin Zhang et al. Characterization and comparison of nitrate fluxes in Tamarix ramosissima and cotton roots under simulated drought conditions, Tree Physiology, 2019, 39(4):628-640
Check Out More Applications NMT's most popular field is currently plant physiology, but creative scientists are applying it to new fields every day, like diabetes and cancer research. Now, labs using NMT systems have published over 700 papers in top journals! Our clients' top feedback is that the their high-quality results help them get published, thanks to the non-invasive nature of our technology, which allows them to measure live, physiologically accurate samples.
Experience the NMT Physiolyzer® Our most advanced NMT system yet: This highly advanced instrument is allowing scientists to discover physiological functions of live samples in innovative new ways. With customizable software, you can choose from 14 ions and molecules for your own personalized system.
The Theory of NMT Check out the principles of how NMT works.
Experience the NMT Physiolyzer® Our most advanced NMT system yet: This highly advanced instrument is allowing scientists to discover physiological functions of live samples in innovative new ways. With customizable software, you can choose from 14 ions and molecules for your own personalized system.
The Theory of NMT Check out the principles of how NMT works.
