SeedQuest - Central information website for the global seed industry

News Page

The news
and
beyond the news

Index of news sources

Topics

Alliances / M & A
Artificial intelligence
Bees & pollinators health
Biodiversity
Bioinformatics
Biologicals & inoculants
Biotechnology
Carbon
Cereal crops
Climate change
Coexistence
Cover crops
Crop protection
Data science
Digital agriculture
Drones / UAV
Drought tolerance
Education & careers
Financial
Food & health
Food safety
Food security
Forage crops
Fungicide resistance
Genetic resources
Genome-editing technology
Genomics
Heat tolerance
Herbicide resistance
Indoor agriculture
Insecticide resistance
Intellectual property protection
Legal & regulatory
Legumes
Lighting technology
Machinery & equipment
Market data
Microbials / Microbiome
New breeding techniques
New products & tools
New services
New technologies
Non-food agriculture
Oilseed crops
Organic
Ornamentals
Pasture grasses
People
Pesticide resistance
Phenotyping / Phenomics
Plant & seed nutrition
Plant breeding
Plant health
Plant protein
Post-harvest technology
Precision agriculture
Published in print
Pulse crops
Reclamation
Regenerative agriculture
Remote sensing
Research
Robots / Robotics
Root health
Seed analysis
Seed colorants & polymers
Seed enhancement
Seed health
Seed processing
Seed science & technology
Seed testing
Seed treatment
Soil health
Sustainable ag
Turfgrass
Urban farming
Vegetable crops
Web & IT solutions
Weed management

Species

Archives

News archive 1997-2008

Carbon nanotubes are able to penetrate plant seed coat and dramatically affect seed germination and plant growth

Article by
Mariya Khodakovskaya†*, Enkeleda Dervishi†‡, Meena Mahmood†‡, Yang Xu†‡, Zhongrui Li†‡, Fumiya Watanabe‡ and Alexandru S. Biris†‡*

† Department of Applied Science
‡ Nanotechnology Center, University of Arkansas at Little Rock, Little Rock, Arkansas 72211

ACS Nano, Article ASAP
DOI: 10.1021/nn900887m

Publication Date (Web): September 22, 2009

Copyright © 2009 American Chemical Society

* Address correspondence to mvkhodakovsk@ualr.edu, asbiris@ualr.edu.

Download the full paper

Caption: Tomato seeds exposed to carbon nanotubes (right) sprouted and grew faster than unexposed seeds (left). Credit: The American Chemical Society

RELATED RELEASE

Source: American Chemical Society via EurekAlert

Advance in 'nano-agriculture': Tiny stuff has huge effect on plant growth

With potential adverse health and environmental effects often in the news about nanotechnology, scientists in Arkansas are reporting that carbon nanotubes (CNTs) could have beneficial effects in agriculture. Their study, scheduled for the October issue of ACS Nano, a monthly journal, found that tomato seeds exposed to CNTs germinated faster and grew into larger, heavier seedlings than other seeds. That growth-enhancing effect could be a boon for biomass production for plant-based biofuels and other agricultural products, they suggest.

Mariya Khodakovskaya, Alexandru Biris, and colleagues note that considerable scientific research is underway to use nanoparticles — wisps 1/50,000th the width of a human hair — in agriculture. The goals of "nano-agriculture" include improving the productivity of plants for food, fuel, and other uses.

The scientists report the first evidence that CNTs penetrate the hard outer coating of seeds, and have beneficial effects. Nanotube-exposed seeds sprouted up to two times faster than control seeds and the seedlings weighed more than twice as much as the untreated plants. Those effects may occur because nanotubes penetrate the seed coat and boost water uptake, the researchers state. "This observed positive effect of CNTs on the seed germination could have significant economic importance for agriculture, horticulture, and the energy sector, such as for production of biofuels," they add.

Full text article: http://pubs.acs.org/stoken/presspac/presspac/full/10.1021/nn900887m

More news from: American Chemical Society

Website: http://www.acs.org

Published: October 21, 2009

The news item on this page is copyright by the organization where it originated
Fair use notice