Tag Archives: wax

Wax moth caterpillars can metabolically digest plastic and convert it into body fat.

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Plastic polymers are everywhere in our daily lives, and their durability makes them suitable for numerous uses, yet effective disposal remains a significant issue. Recent discoveries of various plastiboa insects reveal their extraordinary capability to consume and swiftly decompose petroplastics. Specifically focusing on caterpillars of the Great Wax Moth (Galleria Mellonella)—commonly known as wax worms—and low-density polyethylene, researchers have explored the extent of plastic consumption, the roles of insects and their microbiota in biodegradation, and the impact of plastic ingestion on larvae health.

Polyethylene decomposition using wax worms. Left: Plastic bag after 12 hours of exposure to approximately 100 wax worms. Right: Enlarge the area shown in the image on the left. Image credit: Bomb et al doi: 10.1016/j.cub.2017.02.060.

Plastic is essential in contemporary life, but its disposal is extremely challenging due to its resistance to biodegradation.

In 2017, researchers illustrated that larger wax moth caterpillars can effectively break down polyethylene plastics.

Polyethylene is the most widely produced plastic globally, with an annual production exceeding 100 million tons.

This plastic’s chemical properties make it resistant to decomposition, often taking decades or even centuries to fully break down.

“Around 2,000 wax worms can degrade an entire polyethylene bag within just 24 hours, and we believe that supplementing this process with nutrients like sugar could significantly decrease the required number of worms,” said Dr. Brian Catthorne, a biologist at Brandon University.

“However, understanding the biological mechanisms and fitness implications linked to plastic biodegradation is crucial for harnessing wax worms for large-scale plastic remediation.”

Utilizing diverse methods combining animal physiology, materials science, molecular biology, and genomics, Dr. Catthorne and colleagues examined wax worms, their bacterial microbiome, and the potential for extensive plastic biodegradation, including the effects of wax worms on their health and survival.

“This scenario is akin to consuming steaks. When over-saturated, excess fat is stored in adipose tissue as lipid reserves instead of being used as energy,” Dr. Catthorne explained.

“Waxworms have a proclivity for polyethylene, yet this study indicates that such a diet can lead to rapid mortality.”

“They cannot survive for more than a few days on plastic-exclusive diets and undergo substantial mass loss.”

“Nonetheless, we are optimistic about devising a co-supply strategy that not only restores fitness to a natural level.”

Researchers have pinpointed two ways in which wax worms could aid in tackling the ongoing plastic pollution dilemma.

“Firstly, as part of a circular economy, we can efficiently process large quantities of rear wax worms derived from the supplemented polyethylene diet,” Dr. Catthorne noted.

“Secondly, we could explore redesigning the plastic biodegradation pathways outside of these insects.”

“A further advantage is that mass-producing wax worms yields a significant surplus of insect biomass, offering additional economic prospects for aquaculture.”

“Our preliminary findings suggest they could be incorporated into a nutrient-rich diet for commercially available food fish.”

The author presented these survey results today at the Society for Experimental Biology Annual Conference in Antwerp, Belgium.

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Brian J. Catthorne et al. Plastic biodegradation by insects. SEB 2025 Summary #A17.4

Source: www.sci.news

Wax Heads: A Videogame Bringing High Fidelity to Life in a Record Store

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pictureEvery time I experience a breakup, I am drawn to revisit the 2000s classic, High Fidelity. The film follows John Cusack’s character as he nostalgically lists the top 10 worst breakups in his life, each accompanied by a fitting soundtrack. Rather than focusing on Cusack’s glamorous ex-partners, the film revolves around his record store, Championship Vinyl, a haven for lost souls in Chicago.

This DIY community spirit is echoed in Wax Heads, a narrative game centered around running a struggling record store. Described as a “cozy punk life sim,” the game captures the essence of High Fidelity as players navigate the chaos of their first shift at Repeater Records, a fictional store.




Geek mecca…John Cusack, Jack Black, Todd Louiso, and Tim Robbins in High Fidelity. Photo: Getty Images

Unlike traditional business sims, Wax Heads focuses on the joy of selling records rather than the mechanics of running a store. The game celebrates the local record store as a vibrant community hub, where music enthusiasts can connect and discover new sounds.

Murray Summerwolf, co-creator of Wax Heads, explains that the game revolves around the idea of a record store as a place of connection and community. Players engage with quirky characters, explore music recommendations, and immerse themselves in the everyday life of a record store.

The gameplay mirrors traditional point-and-click adventures, putting players in the role of a retail clerk and music detective. By deciphering clues and interacting with customers, players curate the perfect album recommendations, earning points based on customer satisfaction.




Crate digger…waxhead. Photo: Patati Games

Wax Heads is a refreshing take on music games, focusing on the cultural experience of music rather than pure gameplay mechanics. The game explores themes of community, empathy, and human connection through the lens of a record store.

Source: www.theguardian.com

Research: How small structures in the wax coating of blue-pigmented fruit contribute to its blue color

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It is perhaps surprising that fruits with blue pigments are less common, since many visually guided fruit eaters have eyes highly adapted to blue sensitivity. However, some fruits do not contain blue pigment. In a new study, scientists from the University of Bristol and elsewhere investigated dark fruits with wax blooms, such as blueberries, plums and juniper cones, and found that structural color mechanisms are involved in their appearance. Did.

The structural color of the wax bloom gives the fruit a blue appearance across a wide range of accessions. (A) Undamaged highbush blueberries growing on the plant. (B) Blueberry (i) unmodified wax, (ii) mechanical wax removal, (iii) chloroform wax removal, (iv) surface application of (approximately) index-matched oil, (v) surface application of water; (vi) peeling off the outer skin to expose the pulp; (vii) the underside of the peeled skin; (C) Transmission light microscopy of a blueberry peel peeled from the inner edge showing red pigmentation of epidermal cells. Scale bar – 200 μm. (D) (i and ii) Plum selection (Plum) Fruits with different cell pigmentation, (i) with wax intact and (ii) with wax removed.Image credit: Middleton other., doi: 10.1126/sciadv.adk4219.

“You can't 'extract' the blue color from blueberries by crushing them, because blueberries are not present in the highly pigmented juice that can be squeezed from the fruit,” said lead author Dr Rocks Middleton, a researcher at the University of Bristol.

“That's why I knew there had to be something strange about this color.”

“So we removed the wax and recrystallized it on the card. In doing so, we were able to create a completely new blue UV coating.”

This ultra-thin colorant is about 2 microns thick, has a low reflectance, but looks blue and reflects UV well, potentially paving the way for new colorant methods.

“This shows that nature has evolved to use a very neat trick: an extremely thin layer of a vital colorant,” Dr Middleton said.

Most plants are covered with a thin layer of wax, which has multiple functions, many of which are still unknown to scientists.

They know that it is highly effective as a hydrophobic, self-cleaning coating, but only now have they realized how important this structure is for visible coloration.

Now Dr. Middleton and colleagues plan to look at easier ways to recreate and apply the coating.

This could lead to the development of more sustainable, biocompatible, and even edible UV- and blue-reflecting paints.

Additionally, these coatings may have multiple functions similar to natural biological coatings that protect plants.

“It was really interesting to discover that there was an unknown coloration mechanism just beneath the surface of the popular fruit that we grow and eat all the time,” Dr Middleton said.

“It was even more exciting to be able to recreate that color by taking wax and creating a new blue coating that no one had ever seen before.”

“Our dream is to incorporate all the functionality of this natural wax into a man-made material.”

of result It was published in the magazine scientific progress.

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Rocks Middleton other. 2024. Self-organized disordered structural colors from fruit wax blooms. scientific progress 10(6); doi: 10.1126/sciadv.adk4219

Source: www.sci.news