"Polluted" isn't the best word to describe it when CO2 levels are 2x historical (for a very long definition of history) levels. They're likely high enough to cause significant climate change, but "polluted" is a funny way of putting it.
> recycling
If you look at where oil goes, most of it is energy and transportation, not plastics. We're also talking about recycling and not incinerating.
But I vote for incinerating for energy. Plastics are too incredible of a technology to not use, but at least now, too hard to feasibly recycle, so I'd rather we burn them and offset the emissions.
We don't, except in some narrow contexts, like "Large quantities of E.c. found in bottled water". Looking at pristine lake far in woods one wouldn't say "Look, such a contaminated water!" just because there are bacteria. We also don't say "My intestines is contaminated with E.Coli" in spite of the fact it's there too.
I don't think so. The raw materials can be literally synthesized from thin air with enough energy input and you can burn plastics to get rid of them again.
What we definitely need to stop completely is letting plastics escape into the environment. Clothes made from plastic fibers for example need to go away.
Environmentalists are fighting an uphill battle so long as business, whose packaging decision are practically unilateral, aren't held accountable for their contributions.
The "education" that gets the most funding is simple mis-direction away from supply-side pollution to consumer-blaming "solutions".
Yes, but how do you make businesses accountable? Legislation perhaps? Who's going to vote for those? Perhaps if we could educate people to care, but as I said we're already trying that.
On a individual basis, I guess bringing up the issue more often is the best we can do really, I would definitely appreciate more environmentalism in politics discussions, but it feels very low-impact.
Price it appropriately. For the vast majority of the uses of plastic, it isn't the best solution, just the cheapest. Keep adding tax until something more sustainable is cheaper.
My guess would be to refuse some things, like plastic food wrappers where they can be switched out with paper. Reduce is using the same product material but using less of it in a single package.
Creating microbes for eating plastics seems like a recipe for a lot of goo....turning all our insulation, computer gear, and a billion other things in our homes into microbe food seems to me poorly thought out.
Wood gets eaten quickly if it's wet (and untreated). This seems to be a limit on microbes turning civilization into mush - most of our artefacts aren't wet when used normally.
Yet it doesn't get eaten at all if it's submerged because the organisms that produce the ligase to break down lignin, the structural component of wood, require oxygen.
Polyethylene for example is a long string of hydrogen and carbon. (CH2-) Microbiology requires more than that for replication. It’s the same reason dry sugar does not get consumed by microbes.
It was too broad an assurance to base on quick chemical assessment. We have different kinds of plastics situated in many different environments. Regarding the sugar example and microbes primary need for water, from the article - "In 2016, researchers in Japan tested sludge from a recycling plant and uncovered a microbe that could completely break down films of PET to CO2 and H2O"
And any opening or crack which rainwater or groundwater or seawater or dust can occasionally access will carry nutrients required for microbial life.
On the table in front of me I have several food items that have not spoilt only because of refrigeration. Should I also start to keep my laptop in the fridge to prevent it rotting? Or maybe I should preserve it in vinegar etc. The problem of preservation of food only seems trivial because so many people have worked so hard solving it.
How do you know which situation will apply to plastics if we manage to engineer bacteria that metabolise them?
You literally can't. History shows us that introducing new species with novel abilities to an ecosystem has far reaching, unforeseen, often devastating and usually irreversible consequences. Why would we risk this? Plastic digesting bacteria would be utterly novel and completely outside our control.
Edit: oh and the table is almost certainly treated with some chemical agent that helps preserve it. Be that paint or varnish...
> How do you know which situation will apply to plastics if we manage to engineer bacteria that metabolise them?
Life needs to obey physics and thus chemistry. Many plastics are already consumed by various bacteria in specific environments yet function perfectly well as TV remotes etc.
Further, plastics have a rather wide range of chemistry. Polyvinyl Chloride (PVC) for example includes a lot of chlorine making it much harder for organic chemistry to deal with. Thus making it suitable for wet environments.
PS: Indoor wooden tables are coated in varnish largely to aid in cleaning and protection from ware. Kitchen cutting boards last for years demonstrating the difference between intermittently damp vs long term wet conditions.
You literally can't know what the consequences of plastic metabolism would be. History shows us that introducing new species with novel abilities to an ecosystem has far reaching, unforeseen, often devastating and usually irreversible consequences. Why would we risk this? Plastic digesting bacteria would be utterly novel and completely outside our control.
To make confident predictions about species that don't even exist yet is just hubris.
> To make confident predictions about species that don't even exist yet is just hubris.
I am willing to wager rather large sums of money they are not going to violate the conservation of energy. Unknown, does not necessarily mean unknowable.
That said, I said nothing about their impact on ecosystems just the majority of plastics in use by humans.
Indeed. Imagine termites, but at a far bigger scale...
Don't forget all the very important medical applications of plastics where their inertness matters --- if organisms exist that can start eating away at those, and proliferate, it could cause even more damage to human life.
There was a recent scifi novel about this, I forgot the title. The plot was some anarchists discovered a virus that ate plastic, and released it all over the world, and caused the collapse of civilization.
I don't see any big problem with burying the plastic in a landfill. Just don't dump it in the ocean.
Burying it doesn’t really solve anything though. And while seemingly unlikely, dumps can be damaged. A recent storm damaged one in the south of New Zealand, spreading plastic down a river and along hundreds of kilometres of coast.
Once buried is it solved, or is it that we can’t see it? Waste plasticn needs a solution, but I don’t think that burning it is the answer. We badly need to reduce the volume created.
Once buried is it solved, or is it that we can’t see it? Waste plastic needs a solution, but I don’t think that burying it is the answer. We badly need to reduce the volume created.
The risk is microplastic, which can escape cheap containment several ways (wind, water, etc).
Yes, turning every planet-wide scrap of plastic into combustion byproducts would release a lot of CO2. It's likely it would pale in comparison to fuel though, since the most it can release is the oil embodied in the plastic, plus the energy used in reprocessing.
We can burn the waste and capture the carbon. We don't need new technology, it's purely economic - capturing carbon is still relatively expensive and carbon emissions are underpriced.
Our atmosphere is polluted with CO2, wouldn't recycling or incinerating plastics release even more of that?