Scientists have made a disturbing discovery: human brains contain microplastics, and at higher concentrations than other organs. Worse, brain levels have jumped 50% in just eight years.
Like what? If you’re building an airplane or a sewer main all substitutes are inferior. The problem is that we’re using the ultra-permanent wonder material for, like, candy wrappers.
The medical field would be categorically fuct. Just the loss of sterile packaging would have serious consequences. Minimally invasive surgeries, joint replacements, bandages that don’t adhere to wounds, stents…
Then let’s consider cordage. Mountain climbing, arborists, rescue teams, sailboats (the most efficient way to cross oceans), ships, construction… the loss of just Dyneema/UHMWPE, which is a relatively new entrant to the cordage field would have seriously negative impacts.
There is a lot of energy bound up in those long molecules, and there are no unexploited niches in balanced ecosystems. There are already bacteria that can consume certain polymers under narrow conditions. Humanity is gonna be so screwed for a long time if bacteria can slip those narrow parameters.
I would like for you to meet my friend, the oyster mushroom. I’m wondering what level of soil accumulation we need to support massive, city-wide oyster mushroom blooms
We first need a way to use them to consume plastic in a controlled manner. There are things that simply would not be possible without these polymers and that we do not want destroyed.
Think of how many things around you are made of plastic. What about critical pieces of things like airplanes? What would you replace that with to prevent the bacteria from causing damage to them?
I could probably pick a few things on my desk right now that would be much more difficult and much more costly to produce with other materials.
I am longing for plastic-eating bacteria to be released into the wild. There are other materials we can use.
Like what? If you’re building an airplane or a sewer main all substitutes are inferior. The problem is that we’re using the ultra-permanent wonder material for, like, candy wrappers.
The medical field would be categorically fuct. Just the loss of sterile packaging would have serious consequences. Minimally invasive surgeries, joint replacements, bandages that don’t adhere to wounds, stents…
Then let’s consider cordage. Mountain climbing, arborists, rescue teams, sailboats (the most efficient way to cross oceans), ships, construction… the loss of just Dyneema/UHMWPE, which is a relatively new entrant to the cordage field would have seriously negative impacts.
There is a lot of energy bound up in those long molecules, and there are no unexploited niches in balanced ecosystems. There are already bacteria that can consume certain polymers under narrow conditions. Humanity is gonna be so screwed for a long time if bacteria can slip those narrow parameters.
I would like for you to meet my friend, the oyster mushroom. I’m wondering what level of soil accumulation we need to support massive, city-wide oyster mushroom blooms
We first need a way to use them to consume plastic in a controlled manner. There are things that simply would not be possible without these polymers and that we do not want destroyed.
Think of how many things around you are made of plastic. What about critical pieces of things like airplanes? What would you replace that with to prevent the bacteria from causing damage to them?
I could probably pick a few things on my desk right now that would be much more difficult and much more costly to produce with other materials.
Yes, I am sure such a bacteria being released at this scale would have absolutely zero negative consequences
As opposed to the alternative?