Silver nanoparticles defeat plant-killing fungus
Date:05-12-2015
Deep in the soil, underneath more than 400 plant and tree species, lurks a lethal fungus threatening Florida’s $15 billion a year ornamental horticulture industry.
But University of Florida plant pathologist G. Shad Ali has found an economical and eco-friendly way to combat the plant destroyer known as phytophthora before it attacks the leaves and roots of everything from tomato plants to oak trees.
Ali and a team of researchers with UF’s Institute of Food and Agricultural Sciences, along with the University of Central Florida and the New Jersey Institute of Technology, have found that silver nanoparticles produced with an extract of wormwood, an herb with strong antioxidant properties, can stop several strains of the deadly fungus.
“The silver nanoparticles are extremely effective in eliminating the fungus in all stages of its life cycle,” Ali says. “In addition, it has no adverse effects on plant growth.”
The silver nanoparticles measure 5 to 100 nanometers in diameter – about one one-thousandth the width of a human hair. Once the nanoparticles are sprayed onto a plant, they shield it from fungus. Since the nanoparticles display multiple ways of inhibiting fungus growth, the chances of pathogens developing resistance to them are minimized, Ali says. Because of that, they may be used for controlling fungicide-resistant plant pathogens more effectively.
That’s good news for the horticulture industry. Worldwide crop losses due to phytophthora fungus diseases are estimated to be in the multibillion dollar range, with $6.7 billion in losses in potato crops due to late blight – the cause of the Irish Potato Famine in the mid-1800s when more than 1 million people died – and $1 billion to $2 billion in soybean loss.
Silver nanoparticles are being investigated for applications in various industries, including medicine, diagnostics, cosmetics and food processing. They already are used in wound dressings, food packaging, and in consumer products such as textiles and footwear for fighting odor-causing microorganisms.