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Peachy defence system for seeds

Date:
May 23, 2016
Source:
ETH Zurich
Summary:
Chemists are developing a new coating method to protect seeds from being eaten by insects. In doing so, they have drawn inspiration from the humble peach and a few of its peers.
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FULL STORY

Don't eat the core, it's poisonous: it's something parents often say to their children before they eat their first peach. Peach pits, which are hidden inside the nut-like husk, do in fact contain amygdalin, a substance which can degrade into hydrogen cyanide in the stomach.

But peaches, apricots and almonds didn't develop this defence system to keep children from enjoying their fruit. It is actually nature's way of protecting plant seeds from being eaten by insects.

Chemists from Wendelin Stark's research group at ETH Zurich have drawn inspiration from this and copied the defence system of bitter almonds and other members of the Prunus family in the lab. They are developing a coating for seeds that functions in the same way as this natural model and is just as effective, but doesn't impair seed germination and is also biodegradable. The study accompanying their work was recently published in the Journal of Agricultural and Food Chemistry.

Cyanide as a by-product of insect snacking

To determine the efficacy of a coating, the researchers tested different layer sequences. The sequence that finally emerged as the most effective consists of several layers of polylactic acid (PLA), a substance that is harmless to both humans and the environment. The innermost layer contains an enzyme. On top of this lies a layer of pure polylactic acid, followed by two layers in which the hydrogen cyanide precursor amygdalin is embedded -- the same substance found in the husks of bitter almond seeds. A final layer is composed of pure PLA.

If an insect larva chews through these layers, the amygdalin is released, followed by the enzyme. The two substances mix together and the amygdalin breaks down into hydrogen cyanide, which kills the insect larva's appetite -- or even the creature itself.

Successful testing on insect pests

In collaboration with the Julius Kühn Institute in Berlin, the researchers have tested the efficacy of their treatment on a variety of cereal pests. The bitter almond defence system proved very effective against the larvae of the mealworm (Tenebrio molitor), the Indian mealmoth (Plodia interpunctella) and the lesser grain borer (Rhizopertha dominica). The lesser grain borer is a beetle that causes considerable damage to wheat stores worldwide.

Significantly fewer fully grown beetles hatched on coated than uncoated seeds. They reproduced less successfully and the larvae grew more slowly because they had eaten less.

However, the layering didn't keep absolutely all insects from feasting on the wheat grains: the treatment was not effective against the wheat weevil (Sitophilus granarius). This type of beetle does not lay its eggs on the grain, but instead bores a hole into it for the eggs and seals it up afterwards. The larvae then eat the wheat grain from the inside out, which means that they don't come into contact with the coating.

In addition, the researchers were able to show in laboratory and fieldwork that the treatment did not impair the germination of wheat grains. In the lab, 98% of the coated grains germinated. In the field, the coated grains did germinate a little later than the uncoated ones, and the seedlings initially developed more slowly. Nonetheless, the wheat plants were able to recover this initial deficit later on.

A possible replacement for pesticides

"We've demonstrated that this new kind of coating method works: the grains are protected from being eaten by insects and are usable in the field," explain the study's authors Carlos Mora and Jonas Halter. The treatment using this method is as straightforward as it is with spraying. Nor are the costs of the new method significantly higher than with insecticides.

The ETH researchers are convinced that this kind of seed coating can be used on other kinds of crops too. "The method has the potential to replace certain synthetic pesticides," believes Carlos Mora. "Not only is the coating biodegradable, but it also ensures that the seeds retain their quality in storage."


Story Source:

Materials provided by ETH Zurich. Original written by Peter Rüegg. Note: Content may be edited for style and length.


Journal Reference:

  1. Carlos A. Mora, Jonas G. Halter, Cornel Adler, Andreas Hund, Heidrun Anders, Kang Yu, Wendelin J. Stark. Application of thePrunusspp. Cyanide Seed Defense System onto Wheat: Reduced Insect Feeding and Field Growth Tests. Journal of Agricultural and Food Chemistry, 2016; 64 (18): 3501 DOI: 10.1021/acs.jafc.6b00438

Cite This Page:

ETH Zurich. "Peachy defence system for seeds." ScienceDaily. ScienceDaily, 23 May 2016. <www.sciencedaily.com/releases/2016/05/160523104738.htm>.
ETH Zurich. (2016, May 23). Peachy defence system for seeds. ScienceDaily. Retrieved March 27, 2024 from www.sciencedaily.com/releases/2016/05/160523104738.htm
ETH Zurich. "Peachy defence system for seeds." ScienceDaily. www.sciencedaily.com/releases/2016/05/160523104738.htm (accessed March 27, 2024).

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