Plants

Photo of two tomatoes conformed into a cube shape. The one on the left is sliced and the right one is whole.

Exploring growth within a confined space

Embedding bacteria in soft material tests researchers’ theories.

January 4, 2022

Closeup photo of the leafy vegetable choy sum

SMART researchers develop method for early detection of bacterial infection in crops

The Raman spectroscopy-based method enables early detection and quantification of pathogens in plants, to enhance plant disease management.

November 30, 2021

How marsh grass protects shorelines

As climate change brings greater threats to coastal ecosystems, new research can help planners leverage the wave-damping benefits of marsh plants.

October 18, 2021

The next generation of glowing plants

Using nanoparticles that store and gradually release light, engineers create light-emitting plants that can be charged repeatedly.

September 17, 2021

Overhead photo of grass, a very thin and long type of plant, growing in black plastic circular pots. There are about 54 pots in this view, in a 9 by 6 grid.

Research collaboration puts climate-resilient crops in sight

MIT professors Dave Des Marais and Caroline Uhler combine plant biology and machine learning to identify genetic roots of plant responses to environmental stress.

September 17, 2021

An illustration showing how something looking like a carbon nanotube with a wire coiled around it goes into a leaf leading to a fluorescence producing or quenching response depending on the hormone detected

Researchers design sensors to rapidly detect plant hormones

SMART nanosensors are safer and less tedious than existing techniques for testing plants’ response to compounds such as herbicides.

September 13, 2021

Engineering seeds to resist drought

A new seed-coating process could facilitate agriculture on marginal arid lands by enabling the seeds to retain any available water.

July 8, 2021

Illustration of a feedback loop with plant inputs (light, water, etc.) including nanosensors in the plant soil, which loop back to inform future agricultural inputs

SMART develops analytical tools to enable next-generation agriculture

Engineered plant nanosensors and portable Raman spectroscopy will help enable sustainable practices in traditional and urban agriculture.

March 1, 2021

Could lab-grown plant tissue ease the environmental toll of logging and agriculture?

MIT researchers grow structures made of wood-like plant cells in a lab, hinting at the possibility of more efficient biomaterials production.

January 20, 2021

Photo of a desk in a laboratory, with an open laptop and a boxy machine that looks like a printer

Portable device can quickly detect plant stress

Sensor developed by SMART researchers would allow rapid diagnosis of nutrition deficiency in plants, enabling farmers to maximize crop yield in a sustainable way.

January 4, 2021