Bioplastics From Black Soldier Flies: A Sustainable and Eco-Friendly Solution

Imagine using insects as a source of chemicals to make plastics that can biodegrade later -; with the help of that very same type of bug. That concept is closer to reality than you might expect. Today, researchers will describe their progress to date, including isolation and purification of insect-derived chemicals and their conversion into functional bioplastics.

The researchers will present their results at the fall meeting of the American Chemical Society (ACS). ACS Fall 2023 is a hybrid meeting being held virtually and in-person Aug. 13–17, and features about 12,000 presentations on a wide range of science topics.

For 20 years, my group has been developing methods to transform natural products -; such as glucose obtained from sugar cane or trees -; into degradable, digestible polymers that don't persist in the environment. But those natural products are harvested from resources that are also used for food, fuel, construction and transportation."

Karen Wooley, Ph.D., project's principal investigator

So Wooley began searching for alternative sources that wouldn't have these competing applications. Her colleague Jeffery Tomberlin, Ph.D., suggested she could use waste products left over from farming black soldier flies, an expanding industry that he has been helping to develop.

The larvae of these flies contain many proteins and other nutritious compounds, so the immature insects are increasingly being raised for animal feed and to consume wastes. However, the adults have a short life span after their breeding days are over and are then discarded. At Tomberlin's suggestion, those adult carcasses became the new starting material for Wooley's team. "We're taking something that's quite literally garbage and making something useful out of it," says Cassidy Tibbetts, a graduate student working on the project in Wooley's lab at Texas A&M University.

When Tibbetts examined the dead flies, she determined that chitin is a major component. This nontoxic, biodegradable, sugar-based polymer strengthens the shell, or exoskeleton, of insects and crustaceans. Manufacturers already extract chitin from shrimp and crab shells for various applications, and Tibbetts has been applying similar techniques using ethanol rinses, acidic demineralization, basic deproteinization and bleach decolorization to extract and purify it from the insect carcasses. She says her fly-sourced chitin powder is probably purer, since it lacks the yellowish color and clumpy texture of the traditional product. She also notes that obtaining chitin from flies could avoid possible concerns over some seafood allergies. Some other researchers isolate chitin or proteins from fly larvae, but Wooley says her team is the first that she knows of to use chitin from discarded adult flies, which -; unlike the larvae -; aren't used for feed.

While Tibbetts continues to refine her extraction techniques, Hongming Guo, another graduate student in Wooley's lab, has been converting the purified fly chitin into a similar polymer known as chitosan. He does this by stripping off chitin's acetyl groups. That exposes chemically reactive amino groups that can be functionalized and then crosslinked. These steps transform chitosan into useful bioplastics such as superabsorbent hydrogels, which are 3D polymer networks that absorb water.

Guo has produced a hydrogel that can absorb 47 times its weight in water in just one minute. This product could potentially be used in cropland soil to capture floodwater and then slowly release moisture during subsequent droughts, Wooley says. "Here in Texas, we're constantly either in a flood or drought situation," she explains, "so I've been trying to think of how we can make a superabsorbent hydrogel that could address this." And because the hydrogel is biodegradable, she says it should gradually release its molecular components as nutrients for crops.

This summer, the team is starting a project to break down chitin into its monomeric glucosamines. These small sugar molecules will then be used to make bioplastics, such as polycarbonates or polyurethanes, which are traditionally made from petrochemicals. Black soldier flies also contain many other useful compounds that the group plans to use as starting materials, including proteins, DNA, fatty acids, lipids and vitamins.

The products made from these chemical building blocks are intended to degrade or digest when they're discarded, so they won't contribute to the current plastic pollution problem. Wooley's vision for that process would align it with the sustainable, circular economy concept: "Ultimately, we'd like the insects to eat the waste plastic as their food source, and then we would harvest them again and collect their components to make new plastics," she says. "So the insects would not only be the source, but they would also then consume the discarded plastics."

Comments

The opinions expressed here are the views of the writer and do not necessarily reflect the views and opinions of AZoLifeSciences.
Post a new comment
Post

While we only use edited and approved content for Azthena answers, it may on occasions provide incorrect responses. Please confirm any data provided with the related suppliers or authors. We do not provide medical advice, if you search for medical information you must always consult a medical professional before acting on any information provided.

Your questions, but not your email details will be shared with OpenAI and retained for 30 days in accordance with their privacy principles.

Please do not ask questions that use sensitive or confidential information.

Read the full Terms & Conditions.

You might also like...
Programmable G-protein-coupled receptors redefine therapeutic applications.