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Foraging ants navigate more efficiently when given energy-drink-like doses of caffeine ... - 0 views

www.sciencedaily.com/...240523112447.htm ants learning memory caffeine navigation poison bait uptake efficiency invasive insects zoology HSR HSR-2025 science behavioralscience biology potential research idea
shared by Sean Nash on 01 Jun 24 - No Cached
  • Ants who receive a caffeine-laced sugary reward become more efficient at navigating back to the reward's location compared to ants that only receive sugar. Researchers report on May 23 in the journal iScience that caffeinated ants move toward the reward via a more direct path but do not increase their speed, suggesting that caffeine improved their ability to learn.
  • "The idea with this project was to find some cognitive way of getting the ants to consume more of the poisonous baits we put in the field,"
  • it pushes them into having straighter paths and being able to reach the reward faster
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  • Control efforts, which focus on using poisonous baits, have proven ineffective, likely due to low bait uptake and bait abandonment. The researchers wanted to test whether using caffeine, which has been shown to improve learning in honeybees and bumblebees, might improve the ants' ability to learn the bait location and guide their nestmates back there
  • The ants walked down a Lego drawbridge onto a testing platform -- an A4 sheet of paper overlaying an acrylic surface -- on which the researchers had placed a drop of sucrose solution laced with 0, 25 ppm, 250 ppm, or 2,000 ppm of caffeine
  • The lowest dose we used is what you find in natural plants, the intermediate dose is similar to what you would find in some energy drinks, and the highest amount is set to be the LD50 of bees -- where half the bees fed this dose die -- so it's likely to be quite toxic for them," says Galante.
  • Overall, they tested 142 ants, and each ant was tested four times
  • Foraging time dropped by 28% per visit for ants that received 25 ppm of caffeine and by 38% per visit for ants that received 250 ppm of caffeine, meaning that if an ant took 300 s in its first visit, by the final trial, it would be expected to take 113 s at the low caffeine dose and 54 s at the intermediate dose. This effect was not seen at the highest caffeine dose.
  • The researchers showed that caffeine lowered the ants' foraging times by making them more efficient, not by making them speedier. There was no effect of caffeine on the ants' pace at any dosage, but ants that received low to intermediate doses of caffeine trips traveled by less tortuous paths. "What we see is that they're not moving faster, they're just being more focused on where they're going," says Galante. "This suggests that they know where they want to go, therefore, they have learned the locations of the reward."
  • Henrique Galante, Massimo De Agrò, Alexandra Koch, Stefanie Kau, Tomer J. Czaczkes. Acute exposure to caffeine improves foraging in an invasive ant. iScience, 2024; 109935 DOI: 10.1016/j.isci.2024.109935
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Study suggests 'biodegradable' teabags don't readily deteriorate in the environment and... - 0 views

www.sciencedaily.com/...240528115039.htm biodegradable teabags manufacturing ecology environment polylactic acid plastic cellulose soil potential research idea engineering biology chemistry environmental science HSR-2025 HSR
shared by Sean Nash on 01 Jun 24 - No Cached
  • The research looked at commonly available teabags made using three different compositions of polylactic acid (PLA), which is derived from sources such as corn starch or sugar cane.
  • The teabags were buried in soil for seven months, and a range of techniques were then used to assess whether -- and to what extent -- they had deteriorated.
  • The study also examined the impacts of the discs cut from the teabags on a species of earthworm, Eisenia fetida, which has a critical role in soil nutrient turnover as it consumes organic matter.
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  • Researchers found that being exposed to three different concentrations of teabag discs -- equivalent to the mass of half, one and two teabags -- resulted in up to 15% greater mortality, while some concentrations of PLA had a detrimental effect on earthworm reproduction.
  • It used analytical techniques such as size exclusion chromatography, nuclear magnetic resonance, and scanning electron microscopy allowing scientists to examine not just how the teabags had changed visibly but also structurally.
    • Sean Nash
      Sean Nash on 01 Jun 24
       
      This sort of work could be done by visual analysis alone with a rubric of sorts, but once data is derived, reaching out to a local lab might provide access to some of these tools for a tighter analysis and an even more convincing project,
  • we've shown that when it is not properly disposed of, for example after seven months in the soil, its molecular structure remains intact
  • But it is with immense frustration that I see alternative and substitute materials entering the market without clear guidance on how their benefits might be realised. Even if consumers understand how to dispose of these products only around half of households in the UK currently have access to the necessary waste streams for the type of composting required.
  • It is essential we learn from the mistakes we made with plastic materials by testing and labelling these novel materials in relation to the prevailing waste management infrastructure.
    • Sean Nash
      Sean Nash on 01 Jun 24
       
      Again, when you find a call for more research (aka: "learning" in this case) it is a good sign that you have found an area ripe for more work to be done.
  • "In this study PLA-based teabags did not fully deteriorate, and it seems that composting worms may be harmed by them. The lack of clear labelling can lead to consumers disposing of teabags in their compost, where any limit to complete degradation of the material raises the potential for plastics to enter the soil when compost is added to the garden, with potential impacts on garden wildlife and uptake by food plants."
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Electrified charcoal sponge soaks up CO2 from the air - 0 views

www.anthropocenemagazine.org/...s-up-co2-directly-from-the-air CO2 carbondioxide climatechange charcoal electricity HSR HSR-2025 science environmental engineering chemistry biology physics potential research idea
shared by Sean Nash on 15 Jun 24 - No Cached
  • With a little bit of electric charge, the sponge-like charcoal material used in household water filters can also capture carbon dioxide from air, researchers report in the journal Nature. The advance could provide a low-cost, efficient route for removing the greenhouse gas from the atmosphere.
  • For the material, the researchers turned to an activated charcoal sponge, a porous substance with a large surface area. The material is commonly found in household purifiers to capture chemicals and toxins from water. Activated charcoal cannot efficiently capture carbon dioxide from air normally. But chemist Alexander Forse and his colleagues proposed that inserting charged, reactive particles into activated charcoal could turn it into a direct air capture sorbent.
  • The researchers charged the activated charcoal cloth in a battery-like setup. They used the cloth like one electrode in a battery, placing it in a solvent solution with an opposite electrode. When they passed electricity through the device, charged hydroxide ions accumulate in the tiny pores of the charcoal cloth.
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  • Tests showed that the resulting sorbent material rapidly captured carbon dioxide from ambient air by reacting with hydroxides.
  • One downside to the material is that its performance decreases under humidity. The researchers are working to fix that, and are also to increase the quantity of carbon dioxide that the material can capture.
    • Sean Nash
      Sean Nash on 15 Jun 24
       
      Seems like a potential engineering challenge to me. I think it would be immediately interesting to figure out more of the detail of what they've done here... and run some quick feasibility tests. Can we easily replicate with available materials? Can we measure the CO2 uptake with simple probes? When testing different versions of the same material, can we compare results with a microscopic examination of the material to potentially correlate a particular construction with better performance? Could we perhaps then suggest best materials for certain circumstances? Could we even create materials that perform better?
  • Sean Nash on 15 Jun 24
     
    "When researchers ran a charge through charcoal sponges commonly used in home water filters, they discovered a low-cost, low-energy route to remove CO2 from the air"
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Simple new process stores CO2 in concrete without compromising strength - 0 views

www.sciencedaily.com/...240626173558.htm HSR HSR-2025 concrete materials science engineering physics chemistry potential research idea
shared by Sean Nash on 02 Jul 24 - No Cached
  • By using a carbonated -- rather than a still -- water-based solution during the concrete manufacturing process, a Northwestern University-led team of engineers has discovered a new way to store carbon dioxide (CO2) in the ubiquitous construction material.
  • Not only could the new process help sequester CO2 from the ever-warming atmosphere, it also results in concrete with uncompromised strength and durability.
  • "The cement and concrete industries significantly contribute to human-caused CO2 emissions,"
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  • instead of injecting CO2 while mixing all the ingredients together, they first injected CO2 gas into water mixed with a small amount of cement powder. After mixing this carbonated suspension with the rest of the cement and aggregates, they achieved a concrete that actually absorbed CO2 during its manufacturing
  • After analyzing their carbonated concrete, Rotta Loria and his colleagues found its strength rivaled the durability of regular concrete.
  • based on our experiments, we show the strength might actually be even higher. We still need to test this further
    • Sean Nash
      Sean Nash on 02 Jul 24
       
      It is a good sign when you read: "We still need to test this further!"
  • It could be used in beams, slabs, columns, foundations -- everything we currently use concrete for."
  • "The findings of this research underline that although carbonation of cement-based materials is a well-known reaction, there is still room to further optimize the CO2 uptake through better understanding of the mechanisms tied to materials processing,"
  • Journal Reference: Xiaoxu Fu, Alexandre Guerini, Davide Zampini, Alessandro F. Rotta Loria. Storing CO2 while strengthening concrete by carbonating its cement in suspension. Communications Materials, 2024; 5 (1) DOI: 10.1038/s43246-024-00546-9
  • Sean Nash on 02 Jul 24
     
    Know anyone who works with concrete that might let you experiment? I had a student back in the day who did this. They incorporated plastic polymer beads into standard concrete molds for strength testing.
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