Oh naturally, I think you’ve hit the nail on the head there. Tell me, how does one conduct a scientific study on feedback loops which haven’t happened yet? Then tell me how many peers would be willing to risk their funding to verify such a pessimistic prediction?
I know they’re about emissions reduction, I didn’t say they weren’t and I don’t understand your point. All I’m saying is that it’s all well and good stating what we need but the feasibly of implementation is laughable.
I suggest you look into the resources required to extract the smallest amounts of carbon from the atmosphere. To quote Dr Hugh Hunt of Cambridge…
We don’t do anything on this planet at that scale. We don’t manufacture food on that scale, we don’t mine iron ore on that scale, we don’t even produce oil, coal, or gas on that scale.
Completely agree with you re the WWII mobilisation. That would require every government in the world to work together in actively worsening the lives of their citizens. Not exactly a vote winner is it?
You model them. A great example was the ice-albedo feedback, where you could measure the albedo of ice, and the albedo of open water and bare ground, and reach clear conclusions about how losing ice would create differential warming in the arctic.
And yet still the ice is melting faster than expected and faster than that model predicted, because, as you explain, the models are inaccurate (overly conservative in nature as all scientific studies on complex systems tend to be).
Ice sheet dynamics have been an area where scientists haven’t converged on agreed-upon models. So yes, not everything gets there, but an awful lot does. As I said above, enough to be useful.
It’s more complicated than that. The temperature modeling is roughly right. Secondary effects aren’t as well modeled, and surprise is a lot more likely there.
Yes it’s obviously way more complex than that. For instance, there are a lot of additional warming factors that haven’t been included in current studies or “suprises” to use your euphimism.
Pretty useful, in that they predict warming but not necesarily accurate.
I disagree, we do not know how well feedbacks are modelled or even if the models include all significant feedbacks. Correct me if you’ve found anything that contadicts these:
The albedo effect problem you mentioned is likely to happen faster than predicted as the latent heat of melting isn’t considered. The heat it requires to melt all that ice will instead heat the water around the remaining ice at a much higher rate.
IPCC doesn’t account for the aerosol cooling effect. If we cut our emissions there would likely be a rapid warming of 0.5-1.0°C within a couple of years as particulates in the air are blocking less sunlight.
The ice sheets don’t melt at a steady rate. Last time this much carbon dioxide was in the atmosphere they ended up retreating 600m per day which should affect predictions.
Not strictly a feedback loop but worth mentioning… The earth contains less than 20% of the copper needed to produce the renewables required to replace fossil fuels over the next 20 years, about 20% of the required nickel and less than 2.5% of the required lithium.
Oh naturally, I think you’ve hit the nail on the head there. Tell me, how does one conduct a scientific study on feedback loops which haven’t happened yet? Then tell me how many peers would be willing to risk their funding to verify such a pessimistic prediction?
I know they’re about emissions reduction, I didn’t say they weren’t and I don’t understand your point. All I’m saying is that it’s all well and good stating what we need but the feasibly of implementation is laughable.
I suggest you look into the resources required to extract the smallest amounts of carbon from the atmosphere. To quote Dr Hugh Hunt of Cambridge…
Completely agree with you re the WWII mobilisation. That would require every government in the world to work together in actively worsening the lives of their citizens. Not exactly a vote winner is it?
You model them. A great example was the ice-albedo feedback, where you could measure the albedo of ice, and the albedo of open water and bare ground, and reach clear conclusions about how losing ice would create differential warming in the arctic.
The modeling work won’t ever be perfect, but it’s good enough to have incredible predictive power.
And yet still the ice is melting faster than expected and faster than that model predicted, because, as you explain, the models are inaccurate (overly conservative in nature as all scientific studies on complex systems tend to be).
Ice sheet dynamics have been an area where scientists haven’t converged on agreed-upon models. So yes, not everything gets there, but an awful lot does. As I said above, enough to be useful.
You seem to keep supporting my point.
The models are conservative, the peer review process is long and we’re rapidly running out of time.
It’s more complicated than that. The temperature modeling is roughly right. Secondary effects aren’t as well modeled, and surprise is a lot more likely there.
Yes it’s obviously way more complex than that. For instance, there are a lot of additional warming factors that haven’t been included in current studies or “suprises” to use your euphimism.
The big ones we expect to play a role in the next few decades are in there though. That’s enough to be pretty useful.
Pretty useful, in that they predict warming but not necesarily accurate.
I disagree, we do not know how well feedbacks are modelled or even if the models include all significant feedbacks. Correct me if you’ve found anything that contadicts these:
The albedo effect problem you mentioned is likely to happen faster than predicted as the latent heat of melting isn’t considered. The heat it requires to melt all that ice will instead heat the water around the remaining ice at a much higher rate.
IPCC doesn’t account for the aerosol cooling effect. If we cut our emissions there would likely be a rapid warming of 0.5-1.0°C within a couple of years as particulates in the air are blocking less sunlight.
The ice sheets don’t melt at a steady rate. Last time this much carbon dioxide was in the atmosphere they ended up retreating 600m per day which should affect predictions.
Not strictly a feedback loop but worth mentioning… The earth contains less than 20% of the copper needed to produce the renewables required to replace fossil fuels over the next 20 years, about 20% of the required nickel and less than 2.5% of the required lithium.
Sorry, couldn’t resist.