> there is that CO2 on the air that we actually want to get rid of
For this reason I have long been slightly baffled that development of compostable/biodegradable bio-based plastics is such a priority in materials research. Sure, it's interesting in the very long run, but for the foreseeable future, converting atmospheric CO2 (via plants as an initial step) into a long lived, inert material that can just be buried after an initial use seems like a benefit.
Biodegradable is only one type of degradation. Some of those compounds break down over time, or with exposure to uv or random stuff in the ground, into nasty compounds that you certainly don't want entering the water cycle or food cycle. An additional attribute of biodegradable therefore is: keeps (non CO2 pollution down).
In addition, things that biodegrade don't immediately just turn into CO2. Things like biomass (that is everything alive and dead that isn't decomposed) use a lot of that carbon. A significant fraction of the carbon in rotting stuff doesn't end up in the atmosphere for decades or longer. The carbon cycle isn't just "CO2 becomes plants which become CO2"... there's a lot more steps in between (for example, next time you eat... you are a direct next step!). Some of those steps take a very, very long time.
For this reason I have long been slightly baffled that development of compostable/biodegradable bio-based plastics is such a priority in materials research. Sure, it's interesting in the very long run, but for the foreseeable future, converting atmospheric CO2 (via plants as an initial step) into a long lived, inert material that can just be buried after an initial use seems like a benefit.