I don't think it's simple, or easy, or inexpensive even, to achieve an en-masse change in global behavior. To me that seems like the most difficult, most expensive, and most costly way to try to solve the problem. Asking the world to "just consume less" is a very nice way of asking the world to enter a global depression. If the only answer is massively moderated consumption, the direct result is actually a lot of pain and suffering and destitution.
I am very much a technology optimist. I believe that technology is the route to providing sustainable solutions across the board in energy, transportation, agriculture, and materials. Even more, I believe that the only solution is for technology advances to make the sustainable solution to be the preferred solution. When going green is also cheaper, faster, better, then everyone goes green by default.
The role of government here is to align incentives and subsidize market-driven R&D efforts which result in technologically superior products that also happen to be sustainable which can win in a competitive marketplace on their own merits. The perfect example of this is EVs. EVs will totally supplant new ICE vehicle sales in the next couple decades because they will ultimately be a better vehicle in every possible metric.
I think we are seeing the same effects in terms of renewable energy that can now compete on cost even without subsidies, and we are in the beginning stages of where we need to go with agriculture (I'm sure actually much progress has been made, but I'm less familiar with that tech).
From a materials science perspective, we need better alternatives for clothing fibers, and better alternatives for plastics in our products and packaging. Cotton is biodegradable but takes far too much water to produce -- possibly something that further genetic modifications to cotton could reduce. Plastic blends in textiles are great for performance, but end up as microplastic in our waterways and oceans. The alternative isn't that everyone is going to switch to hemp. The alternative must be a better material developed that provides superior performance, longevity, texture, carbon footprint, and ultimately clean disposal or recyclability. Government's role is to align incentives for this R&D to occur by taxing externalities or subsidizing new products that present lower externalities.
As to the queston of controlling the effects of increased CO2, one of which is global warming, and another of which is ocean acidification, I think we will come to a point where we need ways to effectively reduce atmospheric CO2 independently of efforts to reduce CO2 emissions, and technology will ultimately afford us that.
I think it's an open question whether the timescale over which atmospheric CO2 may ever be brought back below, e.g. 300ppm, will require engineering a more direct solution to both ocean acidification, and global warming. Even if tomorrow anthropogenic CO2 emissions dropped to zero, how long would that even take? Solar shields and atmospheric CO2 extraction are technologies that warrant future research and discussion.
The real obstacle is the confusion in the public opinion spurred by big oil marketing and lobbying. It's really hard to find quality information online, but it exists since many years and it's pushed down on purpose by interest groups. Here is an example:
Exxon, a big oil corporation, had accurate predictive models of climate change, agreeing with scientific consensus, already in 1982 and confirmed "it will cause dramatic environmental effects before the year 2050".
https://twitter.com/i/status/1187719206562910209
Shortly after Exxon began to deny global warming and started "greenwashing" marketing campaigns, which today show up directly in the news articles on global warming, e.g., in The New York Times:
https://twitter.com/status/1187435336185581570
I am very much a technology optimist. I believe that technology is the route to providing sustainable solutions across the board in energy, transportation, agriculture, and materials. Even more, I believe that the only solution is for technology advances to make the sustainable solution to be the preferred solution. When going green is also cheaper, faster, better, then everyone goes green by default.
The role of government here is to align incentives and subsidize market-driven R&D efforts which result in technologically superior products that also happen to be sustainable which can win in a competitive marketplace on their own merits. The perfect example of this is EVs. EVs will totally supplant new ICE vehicle sales in the next couple decades because they will ultimately be a better vehicle in every possible metric.
I think we are seeing the same effects in terms of renewable energy that can now compete on cost even without subsidies, and we are in the beginning stages of where we need to go with agriculture (I'm sure actually much progress has been made, but I'm less familiar with that tech).
From a materials science perspective, we need better alternatives for clothing fibers, and better alternatives for plastics in our products and packaging. Cotton is biodegradable but takes far too much water to produce -- possibly something that further genetic modifications to cotton could reduce. Plastic blends in textiles are great for performance, but end up as microplastic in our waterways and oceans. The alternative isn't that everyone is going to switch to hemp. The alternative must be a better material developed that provides superior performance, longevity, texture, carbon footprint, and ultimately clean disposal or recyclability. Government's role is to align incentives for this R&D to occur by taxing externalities or subsidizing new products that present lower externalities.
As to the queston of controlling the effects of increased CO2, one of which is global warming, and another of which is ocean acidification, I think we will come to a point where we need ways to effectively reduce atmospheric CO2 independently of efforts to reduce CO2 emissions, and technology will ultimately afford us that.
I think it's an open question whether the timescale over which atmospheric CO2 may ever be brought back below, e.g. 300ppm, will require engineering a more direct solution to both ocean acidification, and global warming. Even if tomorrow anthropogenic CO2 emissions dropped to zero, how long would that even take? Solar shields and atmospheric CO2 extraction are technologies that warrant future research and discussion.