Bandyopadhyay first became interested in the potential use of aloe rinds as an insecticide when he and a colleague visited a local aloe vera production center, where he noticed that insects had left the aloe leaves alone, despite attacking the leaves of other plants. He asked the CEO of the company if he could take the rinds back to his lab a request that confused the CEO, who initially tried to send Bandyopadhyay home with samples of the company’s products instead.
Some home gardeners have begun to use aloe gel as an ingredient in a natural pesticide mixture, along with onions and garlic, but these recipes don’t always include the peels. And currently, on a larger, industrial scale, aloe peels are treated as agricultural waste and largely used to create biomass, which can help improve soil quality at aloe farms. The main downside of this approach is that rotting agricultural waste can release methane and other greenhouse gases into the atmosphere, contributing to global climate change.
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So Bandyopadhyay set out to explore the possibility of recycling the peels to develop a natural pesticide that, on its own, could help farmers in areas where insects can be a major threat, such as regions of Africa, the tropical and subtropical regions of the Americas, and the maize and millet fields in India. The new application as a pesticide could also provide an environmentally friendly alternative for disposing of the peels and create additional revenue streams for aloe vera producers. “The goal is to recycle this waste in a meaningful way while making aloe production greener and more sustainable,” says Bandyopadhyay.
To investigate the potential insecticidal properties of the aloe vera peels, Bandyopadhyay and colleagues from the University of Texas Rio Grande Valley first dried out the peels. To keep the bioactivity of the plant unaltered, the rinds were dried in the dark at room temperature by blowing air over them. The researchers then produced various extracts from the peels with hexane, dichloromethane (DCM), methanol and water. The team previously reported that the hexane extract contained octacosane, a compound with known mosquitocidal properties.
In new experiments, the DCM extract showed much higher insecticidal activity against agricultural pests than the hexane extract, so the researchers wanted to analyze it further. The DCM extract was chemically profiled using high-performance liquid chromatography-mass spectrometry, a technique that allows researchers to identify compounds.
With these data, the research team identified over 20 compounds in the aloe vera rinds, many of which had antibacterial, antifungal or other potential health benefits unsurprising, given aloe’s history as a folk medicine. However, among these were six compounds, including octacosanol, subenniatin B, dinoterb, arjungenin, nonadecanone and quillaic acid, which are known to have insecticidal properties.
The researchers say that these compounds could be contributing to the effects of the aloe rind. In addition, the identified compounds were not toxic, meaning there were no significant safety concerns with the creation of an aloe-peel-based insecticide. Chemical investigation of the methanol and aqueous extracts is still ongoing, but like the DCM extract, both have shown strong insecticidal activity.
“By creating an insecticide that avoids hazardous and poisonous synthetic chemicals, we can help the agricultural field,” says Bandyopadhyay. “But if the peels show good anti-mosquito or anti-tick activity, we can also help the general public.”
Source: Eurekalert