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Contact Information: Tanya Klein Public Relations 973-596-3433

NJIT Study Shows Nanoparticles Could Damage Plant life

A nanoparticle commonly used in industry could have a damaging effect on plant life, according to a report by an environmental scientist at New Jersey Institute of Technology (NJIT).

The report, published in a recent issue of “Toxicology Letters,” shows that nanoparticles of alumina (aluminum oxide) slowed the growth of roots in five species of plants -- corn, cucumber, cabbage, carrot and soybean. Alumina nanoparticles are commonly used in scratch-resistant transparent coatings, sunscreen lotions that provide transparent-UV protection and environmental catalysts that reduce pollution, said Daniel J. Watts, PhD, the lead author of the study.

“Before this study there was an assumption that nanoparticles had no effect on plants,” said Watts, executive director of the York Center for Environmental Engineering and Science and Panasonic Chair in Sustainability at NJIT. “This study makes the observation that seedlings can interact with nanoparticles such as alumina, which can have a harmful effect on seedlings and perhaps stunt the growth of plants.  “Other nanoparticles included in the study, such as silica, did not show this effect,” Watts added. He did the study with Ling Yang, a doctoral student who recently graduated from NJIT.

The authors conducted the study by allowing seeds to germinate on wet filter paper in Petri dishes, after which they added known quantities of nano-sized alumina suspended in water. The control portion of the experiment was treated only with water, and the authors observed the experiment for seven days. During that time, they measured the differences in the growth of the plants’ roots, which were shown to be statistically significant. 

“We suppose that the surface characteristics of the nanoparticles played an important role in slowing the growth of the roots,” said Watts. “The smaller the particle, the larger is the total amount of surface area per unit weight. So the smaller you make the particles, the larger is the surface area, which we suspect is what contributes to the growth-slowing interaction between the seeds and the nanoparticles. The small size of the nanoparticles may be changed by the nanoparticles aggregating or clumping together.”

But what is still not understood, said Watts, is the nature of the interaction between the nanoparticle and the root of the seed. “What is the mechanism of the interaction between the particle and the root? That we don’t know as yet,” he said. 

Nanoparticles can be deposited into air by exhaust systems, chimneys or smoke stacks, said Watts. The particles can also mix with rainwater and snow and gradually work their way into soil. It is difficult to take results from a lab experiment and conclude that is what happens in the real world, said Watts. “But we speculate that air deposits of nanoparticles or water transport of them are ways in which nanoparticles could mix with plant life,” he said. 

The York Center for Environmental Engineering and Science at NJIT conducts research programs to achieve an ecologically sustainable future by correcting environmental damage caused by past action, and improving current environmental technology and practice, while providing for the economic and equity needs of people in New Jersey and throughout the world.  The York Center has been developed from research and development programs that started in 1984 and involves researchers from most disciplines at the university.

NJIT, New Jersey's science and technology university, enrolls approximately 10,000 students pursuing bachelor's, master's and doctoral degrees in 120 programs. The university consists of six colleges: Newark College of Engineering, College of Architecture and Design, College of Science and Liberal Arts, School of Management, College of Computing Sciences and Albert Dorman Honors College. U.S. News & World Report's 2012 Annual Guide to America's Best Colleges ranked NJIT in the top tier of national research universities. NJIT is internationally recognized for being at the edge in knowledge in architecture, applied mathematics, wireless communications and networking, solar physics, advanced engineered particulate materials, nanotechnology, neural engineering and e-learning. Many courses and certificate programs, as well as graduate degrees, are available online through the Division of Continuing Professional Education.