It’s worth pointing out that the IPCC no longer uses the term “geoengineering” or “climate engineering” for the exact reason that we may be talking past each other here. They are problematicly vague and can describe things with very different characteristics. Are you talking about CDR, CCS, CCU, SRM, other vague “offset the impacts of climate change” (IE ocean liming/fertilization, glacier stabilization, etc.), or all of the above?
Some approaches to geoengineering may have negative side effects, but others don’t appear to.
Be specific. Which ones?
You have misread my previous comment.
Climate change would cause famine, ameliorating the effects of climate change would prevent that famine.You have misread
This statement is correct, but you are bringing it up against the point being made about how taking a “treating the symptoms” of climate change might improve things a bit in the short term, but leads to worse long term outcomes.
Nowhere did I say it’s not worth studying.
You’ve got some sort of a priori conviction that “no, geoengineering must make the situation worse somehow” and therefore it’s not worth studying. If it’s not studied how can you possibly know?
I have stated that the current status of said studies do not have sufficient evidence to merit the claims you are making. If you think otherwise please provide some evidence/papers/links etc. otherwise we’re in a Russell’s teapot situation here.
Unless your definition of “studying” is the argument that because the situation is bad enough it’s worth trying, at scale, whatever approach in the hope it improves things somewhat… Because that’s the argument that many use in order to sell dangerous and unethical grifts which seem promising and ‘harmless’. (I’m linking that article specifically because it’s “neutral journalism” at it’s worst and I’m curious at what you take away from it…)
No. You are the one who said “Using your metaphor the thing you’re proposing to “treat the symptoms” has side effects which worsen the disease thus causing more real damage and worsening symptoms.”
I then asked you to be specific. You tell me which ones have side effects that “worsen the disease.” You don’t get to Uno-reverse at me until you answer the question first.
Ah, tucked away down at the bottom. mBin hides the full content of long responses and I was admittedly getting quite frustrated talking with you after you responded to my “be specific” request with a “be specific” of your own.
The article appears to have two main criticisms:
Kelp might outcompete phytoplankton
Kelp might not actually grow well enough to work
Those are basically “it might work too well” and “it might not work.” I don’t see anything in there that would make climate change worse.
Personally, I’m not terribly interested in the carbon sequestration approaches. They seem unlikely to be able to be scaled well enough to have an impact in an economically realistic way. Solar radiation modification is IMO the most likely class of approaches to geoengineering to help.
Right and I linked that article because it’s functions as a media literacy litnus test. It takes the viewpoint of the CEO and the scientists as equally valid, and you did get the main points, but you missed the lead that was buried:
A paper he coauthored last year in Nature Communications, using the massive sargassum seaweed bloom in the Atlantic in recent years as a model, concluded that seaweed farming in the ocean could even become a source of increased carbon dioxide. That’s because the seaweed competes for nutrients with other carbon-sucking species like phytoplankton, among other complex biogeochemical feedback effects.
Which if you actually look at the paper from the scientist (and ignore the bullshit from the CEO):
Ocean afforestation at the scale of Sargassum growth in the GASB during 2018 could contribute −0.0001–0.0029 Gt CO2 of CO2 removal, if all of the seawater CO2 consumed through biomass formation is balanced by permanent influx of atmospheric CO2.
In other words, carbon source to negligible because it kills the photoplakton was already doing that, and doing it more efficiently (albeit at a lower biomass). The paper also, briefly, touches on other concerns (where we get a nice crossover with solar radiation modification) which it unfortunately doesn’t delve much further into:
Furthermore, we estimate that increased ocean albedo, due to floating Sargassum, could influence climate radiative forcing more than Sargassum-CDR.
It makes climate change worse because it acts as a potential net CO2 source, requires maintenance and human intervention to maintain, destroys the local ecosystem which was doing carbon sequestration in the first place, and lowers the ocean albedo thus increasing radiative warming.
If you want to talk SRM instead the oft cited paper is this one However the final line is the important one:
The sobering reality is that unanswered questions such as these will remind the research and policy communities that relating climate response to anthropogenic perturbations is still a long way from being an exercise in engineering design.
As it was published in 1992 a lot of the questions it left at the end have answers now, and there have been attempts at some engineering design. Why don’t you try to find one you think is a good potential and we can drill into its possible pros/cons (warning that meteorological stuff gets real math heavy, real quick).
Be specific. Which ones?
This statement is correct, but you are bringing it up against the point being made about how taking a “treating the symptoms” of climate change might improve things a bit in the short term, but leads to worse long term outcomes.
I have stated that the current status of said studies do not have sufficient evidence to merit the claims you are making. If you think otherwise please provide some evidence/papers/links etc. otherwise we’re in a Russell’s teapot situation here.
Unless your definition of “studying” is the argument that because the situation is bad enough it’s worth trying, at scale, whatever approach in the hope it improves things somewhat… Because that’s the argument that many use in order to sell dangerous and unethical grifts which seem promising and ‘harmless’. (I’m linking that article specifically because it’s “neutral journalism” at it’s worst and I’m curious at what you take away from it…)
No. You are the one who said “Using your metaphor the thing you’re proposing to “treat the symptoms” has side effects which worsen the disease thus causing more real damage and worsening symptoms.”
I then asked you to be specific. You tell me which ones have side effects that “worsen the disease.” You don’t get to Uno-reverse at me until you answer the question first.
I literally linked one… Try reading first before responding.
Ah, tucked away down at the bottom. mBin hides the full content of long responses and I was admittedly getting quite frustrated talking with you after you responded to my “be specific” request with a “be specific” of your own.
The article appears to have two main criticisms:
Those are basically “it might work too well” and “it might not work.” I don’t see anything in there that would make climate change worse.
Personally, I’m not terribly interested in the carbon sequestration approaches. They seem unlikely to be able to be scaled well enough to have an impact in an economically realistic way. Solar radiation modification is IMO the most likely class of approaches to geoengineering to help.
Right and I linked that article because it’s functions as a media literacy litnus test. It takes the viewpoint of the CEO and the scientists as equally valid, and you did get the main points, but you missed the lead that was buried:
Which if you actually look at the paper from the scientist (and ignore the bullshit from the CEO):
In other words, carbon source to negligible because it kills the photoplakton was already doing that, and doing it more efficiently (albeit at a lower biomass). The paper also, briefly, touches on other concerns (where we get a nice crossover with solar radiation modification) which it unfortunately doesn’t delve much further into:
It makes climate change worse because it acts as a potential net CO2 source, requires maintenance and human intervention to maintain, destroys the local ecosystem which was doing carbon sequestration in the first place, and lowers the ocean albedo thus increasing radiative warming.
If you want to talk SRM instead the oft cited paper is this one However the final line is the important one:
As it was published in 1992 a lot of the questions it left at the end have answers now, and there have been attempts at some engineering design. Why don’t you try to find one you think is a good potential and we can drill into its possible pros/cons (warning that meteorological stuff gets real math heavy, real quick).