29/05/12

Researchers look to nanotech to keep fruit fresh

Mangos could be kept from spoiling with nanomaterial packaging Copyright: Flickr/Rajesh_India

By: T.V. Padma

We encourage you to republish this article online and in print, it’s free under our creative commons attribution license, but please follow some simple guidelines:

You have to credit our authors.
You have to credit SciDev.Net — where possible include our logo with a link back to the original article.
You can simply run the first few lines of the article and then add: “Read the full article on SciDev.Net” containing a link back to the original article.
If you want to also take images published in this story you will need to confirm with the original source if you're licensed to use them.
The easiest way to get the article on your site is to embed the code below.

For more information view our media page and republishing guidelines.

The full article is available here as HTML.

Press Ctrl-C to copy

<div class="article-wrap">
<div id="article-introduction">
<h1>Researchers look to nanotech to keep fruit fresh</h1>
<h4>By: T.V. Padma</h4>
</div>
<br />
<br />

<div id="article-body">
<p><span>[NEW DELHI] Researchers are working on ‘nano-film’ packaging materials to extend the shelf-life of fruit and vegetables and reduce huge post-harvest losses in South Asia. </span></p>
<p><span>The project follows studies at Tamil Nadu Agriculture University (TNAU) showning that a nano-film that emits a chemical vapour can extend the shelf-life of vegetables by up to 21 days without any deterioration in quality. </span></p>
<p><span>Now, researchers at TNAU have linked up with collaborators in Canada and India to test such novel nano-materials on mangos during a 30-month project launched in March. </span></p>
<p><span>The project involves the University of Guelph in Canada, TNAU in India, the Industrial Technology Institute (ITI) in Sri Lanka, and MYRADA, a nongovernmental organisation based in southern India. </span></p>
<p><span>K. S. Subramanian, professor at TNAU’s department of nanoscience and technology, told <em>SciDev.Net</em> that the average person in India consumes only 80 grams of fruit a day — half the recommended amount — despite the country being a top fruit producer. </span></p>
<p><span>"The main reason [for the low fruit intake] is post-harvest losses," said Subramaniam, who heads the research project. A lack of cold storage and cold chain facilities within India means that at least 40 per cent of the fruit harvested is lost — worth around US$71 million (four billion Indian rupees). </span></p>
<p><span>To tackle the problem, the researchers are developing nanomaterials impregnated with synthetic versions of an agent called hexanal, which is found in trace amounts in plants such as beans and cucumbers. </span></p>
<p><span>Hexanal helps extend the freshness and shelf-life of fruit and vegetables by targeting an enzyme called phospholipase-D, which is responsible for fruit and vegetable deterioration. Farmers in some countries use hexanal sprays on crops, but this is not practical in hot countries where the chemical vapourises quickly. </span></p>
<p><span>The Canadian scientists developed the synthetic hexanal and the TNAU team is planning to test such hexanal impregnated into natural plant fibre. This fibre slowly releases the chemical onto the food to stop the enzyme activity. </span></p>
<p><span>Meanwhile, the Sri Lankan scientists will test hexanal embedded in a natural wax, which, if successful, would then be used for nano-film coating. </span></p>
<p><span>TNAU scientists have started spraying mango crops with hexanal in three mango-growing areas in southern India’s Tamil Nadu state to test its effectiveness. They expect to have the novel nano-film ready for testing in the first half of 2014. </span></p>
<p><span>However, Alok Dhawan, director of the Institute of Life Sciences at Ahmedabad University and founder of the Indian Nanoscience Society, cautioned that nanofilms containing hexanal as packaging materials would need studies on the environmental impact. This is because consumers would throw the wrappings away, and they would be dumped in land-fills. </span></p>
<p><span>Hexanal’s antimicrobial properties could also destroy some natural biodegrading bacteria in the environment, Dhawan added, suggesting that the effect on ecosystems would also need to be studied. </span></p>
<div>
<p><a href="http://www.scidev.net/en/health/nanotechnology-for-health/"><span>Link to <em>SciDev.Net</em>‘s Spotlight on ‘Nanotechnology for health’</span></a></p>
</div>

</div>
<div class="quick-links-wrapper">
<h3>You might also like</h3>
[related-articles]
</div>
<p>This article was originally published on <a href="https://www.scidev.net" target="_blank">SciDev.Net</a>. Read the <a href="https://www.scidev.net/global/news/researchers-look-to-nanotech-to-keep-fruit-fresh/" target="_blank">original article</a>.</p>
<script type="text/javascript">
(function(e,t,n,r,i,s,o){e["GoogleAnalyticsObject"]=i;e[i]=e[i]||function(){(e[i].q=e[i].q||[]).push(arguments)},e[i].l=1*new Date;s=t.createElement(n),o=t.getElementsByTagName(n)[0];s.async=1;s.src=r;o.parentNode.insertBefore(s,o)})(window,document,"script","//www.google-analytics.com/ga.js","ga");var _gaq=_gaq||[];var _gaq=_gaq||[];_gaq.push(["_setAccount","UA-3223906-8"],["_trackEvent","article interaction","republished","https://www.scidev.net/global/news/researchers-look-to-nanotech-to-keep-fruit-fresh/",null,true])
</script>
</div>

[NEW DELHI] Researchers are working on ‘nano-film’ packaging materials to extend the shelf-life of fruit and vegetables and reduce huge post-harvest losses in South Asia.

The project follows studies at Tamil Nadu Agriculture University (TNAU) showning that a nano-film that emits a chemical vapour can extend the shelf-life of vegetables by up to 21 days without any deterioration in quality.

Now, researchers at TNAU have linked up with collaborators in Canada and India to test such novel nano-materials on mangos during a 30-month project launched in March.

The project involves the University of Guelph in Canada, TNAU in India, the Industrial Technology Institute (ITI) in Sri Lanka, and MYRADA, a nongovernmental organisation based in southern India.

K. S. Subramanian, professor at TNAU’s department of nanoscience and technology, told SciDev.Net that the average person in India consumes only 80 grams of fruit a day — half the recommended amount — despite the country being a top fruit producer.

"The main reason [for the low fruit intake] is post-harvest losses," said Subramaniam, who heads the research project. A lack of cold storage and cold chain facilities within India means that at least 40 per cent of the fruit harvested is lost — worth around US$71 million (four billion Indian rupees).

To tackle the problem, the researchers are developing nanomaterials impregnated with synthetic versions of an agent called hexanal, which is found in trace amounts in plants such as beans and cucumbers.

Hexanal helps extend the freshness and shelf-life of fruit and vegetables by targeting an enzyme called phospholipase-D, which is responsible for fruit and vegetable deterioration. Farmers in some countries use hexanal sprays on crops, but this is not practical in hot countries where the chemical vapourises quickly.

The Canadian scientists developed the synthetic hexanal and the TNAU team is planning to test such hexanal impregnated into natural plant fibre. This fibre slowly releases the chemical onto the food to stop the enzyme activity.

Meanwhile, the Sri Lankan scientists will test hexanal embedded in a natural wax, which, if successful, would then be used for nano-film coating.

TNAU scientists have started spraying mango crops with hexanal in three mango-growing areas in southern India’s Tamil Nadu state to test its effectiveness. They expect to have the novel nano-film ready for testing in the first half of 2014.

However, Alok Dhawan, director of the Institute of Life Sciences at Ahmedabad University and founder of the Indian Nanoscience Society, cautioned that nanofilms containing hexanal as packaging materials would need studies on the environmental impact. This is because consumers would throw the wrappings away, and they would be dumped in land-fills.

Hexanal’s antimicrobial properties could also destroy some natural biodegrading bacteria in the environment, Dhawan added, suggesting that the effect on ecosystems would also need to be studied.

Link to SciDev.Net‘s Spotlight on ‘Nanotechnology for health’