Lovelock on charcoal: One last chance to save mankind

And the old bugger is going into space later this year, at age 90. What a remarkable man

He's right about the weird optimism, pessimism. Gaia is very ill, but she won't die as long as we do. Or at least most of us. When I look at my own family, that hurts and scares the fuck out of me. When I look at it from a global point, I think it's clear she needs to dust off some of the parasites. I would love to anthropormorphise Gaia and say she will pick the best and the brightest but no such luck. She is living, but i doubt she sees us as her nervous system, (the eyes of Gaia. I think that might just be our hubris).

It would be nice if we could pull a solution out of our collective asses and goodness knows, there have been some amazing saves in the past, but we don't really think this big. We're still pretty tribal. Which is why, after the life shock, a billion people scattered in caves, trying to learn new ways might not be so bad - in the long term, of course.

Short term, Mr. Lovelock won't be around to see the end game, but he's seen more than he thought he would and it sucks.

but I had gotten the distinct impression that neither were popular on this board.

...it hates that!"

I think of "Gaia" simply as a large complex adaptive system. Attributing intentionality to the planet and its biosphere is unnecessary to explain its behaviour (and despite our preening, much the same can be said about humanity).

Lovelock is unpopular because he sees no opportunity for the triumph of human will. To a lot of people that position seems repugnant and defeatist, though I think that's just evidence of a psychological barrier on the part of the objectors, easily cured by a minor shift in philosophical perspective.

It simply says you can find analogues within the ecosystem to all of the systems in an organism. I found that http://www.amazon.com/Gaia-New-Look-Life-Earth/dp/0192862189/">in its original form, it was a helpful way of thinking about ecosystems.

Unfortunately, the "new-agers" grabbed hold of it, and a useful analogy became a pseudo-religion.

The concept of the planet as a "conscious" entity is a very powerful, behaviour-altering metaphor. however, unsophisticated people tend to reify the meme.

Actually, check this out from the interview:

On the whole, I see this as an optimistic viewpoint.

"Not yet bright enough" ... "could become" ... it's not exactly a ringing endorsement of human capabilities.

I wonder how much evolutionary psychology Lovelock knows? Learning a bit about it was what finally painted the window shut for me. When I understood that for all our intelligence we are not and cannot ever be fully rational because of our brain structure, I became totally skeptical of the technocratic agenda.

Check out this recent episode of Radiolab:
http://www.wnyc.org/shows/radiolab/episodes/2008/11/14

I'm fascinated by the work of http://en.wikipedia.org/wiki/Mark_Tilden">Mark Tilden and http://en.wikipedia.org/wiki/BEAM_robotics">BEAM robotics. His breakthrough in creating robots was the use of simple analog control circuits, rather than complex logic circuits.

When you pair the two, phenomenal things become possible.

and Lovelock has done everything he could to alienate his critics and supporters.

He despises not only *real* scientists but environmentalists as well.

He's hardly alone in that. I agree with him that most environmentalists are blinkered, anthropocentric fools. By refusing to abandon a world-view that has humanity at its center they end up promoting little more than a slower, more controlled, more "humane" destruction of the rest of life on the planet.

I've read about the super-fertile terra preta soils in the Amazon basin, which contain vast amounts of human-made charcoal. Here are links with a lot of information about it:

http://www.biochar.org/joomla/

http://www.popularmechanics.com/science/research/4297513.html

Burying charcoal is the only carbon sequestration idea I favour. That's because it can address three problems simultaneously: along with carbon sequestration it could provide a minor source of energy, and it may improve soil fertility without the use of NG-derived fertilizers. When you consider that it's low-tech and can be done at any scale from backyard to industrial, biochar really starts to look like a winner.

It may play some role, but not a very big one. There are cheaper, easier, less environmentally destructive forms of using nature to sequester carbon. But his overall point about the scale of the natural carbon cycle and our activities is important. Change the natural cycle a little and our contribution becomes manageable.

The most immediate way to sequester carbon is simple reforestation. Making charcoal produces a host of other very toxic hydro carbons and other gasses to sequester a portion of the carbon. It's better to leave that plant material in tact -- as a standing forest. So much of the world's forests have been cut already that reforestation is much cleaner and faster. Only after the forests have been fully restored and reached equillibrium might we consider cutting sequestering that carbon as charcoal. Even then it seems counter productive, because we could simply bury the wood in mine shafts and the like without burning it.

If you think making charcoal on a massive scale is a good thing, you should have been in Singapore in 1998 with me, when far away Indonesian slash and burn caused massive pollution across thousands of miles of southeast Asia.

The scale of vegetation burning that would be required to affect warming would be devastating. It's a bad and environmentally dirty idea.

Please note, Lovelock was not advocating burning trees (as some have.) Instead, he is advocating turning "agricultural waste" into charcoal.

Also, growing and burning of wood charcoal has been advocated on this forum in the past.

Yes it has, and I think I mounted a decent argument against it. It's intellectually dishonest to criticize Lovelock's proposal, by saying, that others have recommended burning forests.

Here's what Lovelock suggested:

It's actually a pretty reasonable idea in my opinion. "Biochar," using agricultural waste, could actually help address the problem of deforestation.

http://en.wikipedia.org/wiki/Biochar#Background

so it's puzzling how addressing forum members and the things they have advocated is intellectually dishonest.

Even slash and char is bad for the air quality. Did you look at the pictures in the bio char link? Would you really want a billion or two billion farmers world wide to have chocking, belching, smoking charcoal piles burning their crop residues and nearby "secondary forest" in "low oxygen" fires?



Have you ever seen a charcoal pit or oven in the third world? Can you see why the guys who work in them usually have wet teeshirts tied around their noses and mouths?

There's a reason that in most jurisdictions in the U.S., burning leaves in the fall has been outlawed. It creates a toxic, choking mess.

Having the farmers of the world switch to burning their crop residues might sequester a little carbon (less than reforestation), but would lead to catastrophic air pollution.

Comparing charcoal-making in a modern retort to third world charcoal heaps is a straw man. Even a single-user retort produces little smoke compared an open pit:



http://www.biocoal.org/3.html">This article describes a low-cost charcoal retort suitable for third-world countries, with low levels of smoke, high efficiency and low cost:

And where is this 500 euros going to come from? And why would a farmer buy it when he can dig a charcoal pit for free?

This is so illogical, I don't know where to begin. And just what do you think burning in "low oxygen" environment means -- and that's the only way to make charcoal, burning in low oxygen. It means carbon monoxide, nitrogenous gases and a lot of stuff that makes CO2 look like clean air. And if we're talking about crop residue, it means burning off the nitrogen as gas rather than returning it to the soil, which means more fossil fertilizer is needed.

Plus this keeps going back and forth between wood and crop residue. Your link is to a kiln for making wood charcoal (ie by small scale charcoal producers, not farmers), something you refer to even in your own excerpt. That kiln if fine as an improvement for making wood charcoal for cooking. It is not a way to dispose of crop residue in the soil. If we are talking about wood charcoal for carbon sequestration, then once again, it's better, less polluting, more efficient and sequesters more carbon to leave it as wood. If we're talking about crop residue, that requires a different process.

500 Euros for a plant that can produce a tonne of charcoal a week seems like a good investment for a village. Heck, the amount is small enough to be capitalized by a loan from kiva.org, and many such loans are being given out to the third-world poor.

Especially in a country that has a tradition of charcoal use, and especially a tradition of earth-mount charcoal production, such retorts would be a godsend for improving air quality.

So: it's cheap, it's applicable to both first and third world nations, it can be used for agricultural waste, wood scraps or purpose-grown wood, and it permits much of the carbon in the raw biomass to be stabilized for sequestration.

Oh, and regarding waste gases: CO oxidizes rapidly into CO2 when it's in the open air, so it's not a big issue. A modern retort (not the adam-retort mentioned above) can even capture these gases and turn them into methane.

I still don't understand what's at the core of your objection, because none of the arguments you've raised so far seem to be significant. Can you clarify your concerns a bit?

The site you linked to is a site about kilns for making charcoal from wood. I have nothing against better kilns for rural areas that rely on charcoal. But that's not about charcoal sequestration through burning crop residue.

If you want to sequester carbon and we're talking about wood (not crop residue), then reforestation is much, much better and less polluting.

If we're talking about sequestering carbon by burning crop residue, then we're not talking about kilns, we're talking about fires that produce horrendous pollution. (See Wisconsin link below.)

It fails the cost benefit analysis miserably.

If, by some bizarre leap of faith, you're talking about a kiln for crop residue (and I don't know of any such invention), then how will villagers haul their crop residue, spread over hundreds of acres, to the kiln -- with a diesel tractor? Why would they do that when for most cultures, green manuring (ie in place composting) already works well for them. What's in it to them to lose their nitrogenous fertilizer to sequester carbon, while choking their children in noxious fumes?

You simply haven't described an economically or ecologically logical system. It simply makes no sense.

Letting the waste degrade in the usual way releases CO₂ in a diffuse manner, over a longer period of time, and over a larger geographic area.

The result of the charcoal burner is much more obvious. However, the idea here is that in net, less carbon will be released into the atmosphere.

If you think about it for a moment, this should be obvious. After all, creating charcoal and burying it clearly results in more carbon (the charcoal) winding up in the soil.

Lovelock's proposal is quite importantly different from the proposal to plant and burn forests. That's why I say it is intellectually dishonest, to criticize Lovelock's proposal based on proposals made by others.

Is over the removal of that much organic material from agricultural soil. I've heard permaculturists say "there is no such thing as agricultural waste". It should be possible to remediate some of the loss by tilling in the char, but I'd want to see some careful studies before we tried it on a large scale.

At the moment I prefer the coppice willow/poplar or bamboo approach, where fast-growing trees are grown on land that would otherwise be re-forested. The biomass is harvested every few years, charred, the char returned to the soil where the trees were grown, and replacement trees planted. This provides for the continuous growth of trees, and continuous sequestration of carbon -- unlike simple reforestation that provides only a single growth cycle of carbon uptake.

If you can successfully transition from slash-and-burn to slash-and-char, there are obvious benefits.

However, yes, any time you're taking nutrients out of the soil, and not replacing them, there will clearly be a depletion over time.

You compare BURYING charred boimass with UNBURIED raw biomass and then claim the significant variable re total carbon release is charred/uncharred?

Bury the uncharred biomass and it won't release any CO2.

Plowing under isn't burying. You are talking about the biomass being distributed throughout the top few inches of soil.

Yes, you need exclude oxygen from raw biomass in order for it to retain its carbon. Char is much less susceptible to spontaneous oxidation. That makes char a decent soil amendment for agriculture without losing its attractiveness as carbon sequestration.

http://www.democraticunderground.com/discuss/duboard.php?az=show_mesg&forum=115&topic_id=184019&mesg_id=184062

And your ceaseless tap dancing to avoid owning up to errors is getting old.

You made an invalid comparison. Actually two of them. Lovelock is advocating farmers worldwide char and plow under, presumably because BURYING isn't as practical for them. Yet the argument is being made that using specialized equipment for burning vs just covering with dirt IS feasible...

The entire discussion is muddled, so say the least.

Absolutely, since I repeat those things which have already been stated, and you simply choose to ignore.

However, apparently, you've made no attempt to follow me. So, I guess we're even.

Lovelock's claim, is that the sort of creature you find under the ground (i.e. "bacteria, http://en.wikipedia.org/wiki/Nematode">nematodes and http://en.wikipedia.org/wiki/Worm">worms") which normally decompose plant matter, will release 99% the carbon buried in the form of plants within a year or so.

The idea is that the charcoal is much more stable:
http://en.wikipedia.org/wiki/Biochar#Pyrolysis_of_biomass_as_a_carbon_sink

Do you have evidence to contradict this claim?

No one is disputing that some amount of carbon can be sequestered this way. The question is the environmental cost and whether it's the best way.

Composting, including plowing under, does indeed release almost all carbon back in the atmosphere. But it is extremely, extremely efficient. From the worm that eats the leaf, to the bacteria in the worm's gut, to the mold that eats the worm feces, to the next thing that eats the mold, every step down in energy is extremely efficient. All that's generally produced is CO2 and water. If there are anaerobic phases, you might get CO2 and alcohol or methane, but generally it's super efficient, because every creature in the chain has evolved efficiently.

If you want to make charcoal, you have to burn that crop residue in a low oxygen environment. If you burn it in a high oxygen environment, you won't get charcoal. So you have to burn it in a low oxygen environment.

A low oxygen fire is extremely polluting. You get lots of toxic substances that are arguably worse than the CO2 of biological decomposition. You don't even sequester all the carbon, because most of the hydro carbons in the plant material are burned to create the heat to turn the remainder into carbon. I notice that no one has provided a figure for what percentage of carbon in a a typical plant crop residue once turned to charcoal has been sequestered, and what percentage released as carbon monoxide, carbon dioxide and other nasty things. Is it 50%? Is it 10%?

So it's not a very good way of sequestering carbon. As kristopher is pointing out, if you wanted farmers worldwide to sequester the carbon of their crop residues, a better way would be to dig a five foot deep trench and bury it. Almost 100% sequestration (or very, very slow release), no smoke, no carbon monoxide etc.

But all this is moot. Farmers are not going to dig trenches to bury their crop residue and they're not going to make charcoal from crop residue. It's a kind of silly idea when you look at the economic burdens this places on farmers for no particular gain.

Creating tera preta may be a very good thing for farmers in certain tropical environments in terms of soil management. But it is not a viable method of carbon sequestration by any logical argument.

Here's a Wisconsin Environmental agency warning against leaf burning and the kinds of pollutants created by low temperature fires. Given the volume of crop residue, I don't see any way to burn it without producing these by products. In fact, I don't see how farmers are supposed to burn crop residue in a low oxygen environment in the first place:

http://dnr.wi.gov/air/aq/burning/leaves.htm

Open burning IS NOT an environmentally sound way to dispose of leaves and plant clippings at your home. State law currently allows people to burn small amounts of dry leaves and brush on their own property so long as leaf burning is not prohibited by local ordinances. However, you should try to avoid burning leaves whenever possible.

The smoke generated by a large number of simultaneous leaf fires can cause significant health problems. Leaf smoke can irritate the eyes, nose and throat of healthy adults. But it can be much more harmful to small children, the elderly, and people with asthma or other lung or heart diseases. This is because the visible smoke from leaf fires is made up almost entirely of tiny particles that can reach deep into lung tissue and cause symptoms such as coughing, wheezing, chest pain and shortness of breath--symptoms that might not occur until several days after exposure to large amounts of leaf smoke.

Besides being an irritant, leaf smoke contains many hazardous chemicals, including carbon monoxide and benzo(a)pyrene. Carbon monoxide binds with hemoglobin in the bloodstream and thus reduces the amount of oxygen in the blood and lungs. So carbon monoxide can be very dangerous for young children with immature lungs, smokers, the elderly, and people with chronic heart or lung diseases.

Benzo(a)pyrene is known to cause cancer in animals and is believed to be a major factor in lung cancer caused by cigarette smoke. It is found in cigarette smoke and coal tar as well as leaf smoke.

http://www.democraticunderground.com/discuss/duboard.php?az=show_mesg&forum=115&topic_id=184019&mesg_id=184062

So let's say it sequesters 50%. The other 50% is released as carbon monoxide (much more toxic than CO2), complex partly burned hydrocarbons, ash, soot and other particle pollutants, benzenes and nitrogenous toxic gases -- and of course half the CO2 we're supposed to be sequestering.

How are farmers supposed to burn crop residue in low oxygen conditions without creating all the hazards mentioned in the Wisconsin agency site?

Are they all supposed to buy kilns large enough to hold 10, 20 or 50 acres worth of crop residue? And would the kilns be exempt from air pollution standards?

Do you disagree with the fact that there is a reason leaf burning is banned in many jurisdictions across the country?

I don't disagree. There is a reason.

However, what happens in "slash-and-burn" agriculture? We're talking about moving them away from that.

How exactly does one burn crop residue without creating the pollutants described.

No one has described this, but it's pretty obvious what will be happening: massive amounts of thick, choking, dangerous low oxygen fire smoke.

Is that right? (Clearly it isn't.)

Remember, we're talking about setting up a sustainable system of agriculture, which as a side-benefit also sequesters carbon.

I didn't say that at all. Let's try to stay on track. We could start a different thread about how to limit slash and burn, based on what I think would help tropical farmers. I could base some of it on my firsthand fieldwork work in China and Africa. But that's not what we are talking about in this thread.

This discussion is about the (to me preposterous) idea of the OP -- that farmers world wide should burn crop residue to sequester carbon.

That means burning billions of tons of crop residue in low oxygen fires. How exactly is that supposed to happen without massive environmental devastation?

Is that the best way to sequester carbon? Is there anything feasible about this?

In short, no.

Fair enough. What is a better, more feasible way to sequester carbon? (Remember, that roughly 1/3 of greenhouse gasses are generated by agriculture, and much of that by "slash and burn.")

http://aphg.jhsph.edu/?event=browse.subject&subjectID=18

I realize that this gets me in trouble with the neo-malthusians, but from everything I've seen in the field and everything I've read, I am convinced by the agricultural-economic consensus that agricultural production is extremely elastic. Although it looks like we're constantly gobbling up land to produce more food, more land is only one way to produce more food. There are many, many farming systems in the world, each with its own productivity characteristics.

Most farming today is very land hungry and not very efficient. We could feed the entire planet on probably about 1/2 or less of all land under cultivation today. And the remarkable thing is that because the techniques are well known and farmers are extremely adaptable, reducing the land under cultivation would essentially induce the needed increases in output. Food is produced by land, labor and capital, and the replacement of land with labor would also absorb a lot of third world unemployment and reduce poverty and food insecurity (because when you're on a farm to which you have crop entitlements, even if you're poor, you don't go hungry -- according to Nobel economics laureate Amartya Sen).

Most of the destruction of rain forest in the last 3 decades has been utterly unnecessary. There are millions of acres of former rain forest that could be restored, and that have already been effectively abandoned.

The first step in sequestration is restoring the forests to their former levels. When they reach equillibrium, then we can talk about other forms of sequestation. But simply the growing of the former forests would take billions of tons of CO2 out of the atmosphere. And it doesn't produce ash, smoke, benzene, or other toxic pollutants.

I don't know if that's the entire solution but it's certainly something I would try before burning crop residue.

However, it's been estimated that for the first 5 to 10 years of its life, a newly-planted forest is carbon-negativepositive.

We need something to do right now. One of the first things we can do right now is to stop (or at least slow) deforestation. A mature forest which is never burnt is much better than an immature one.

One of the big reasons for deforestation is that slash-and-burn agriculture depletes the soil of carbon. So, the farmers use up their patch of land, and then burn more forest.
http://www.sciencedirect.com/science?_ob=ArticleURL&_udi=B6V67-3VM0M2X-1&_user=681878&_rdoc=1&_fmt=&_orig=search&_sort=d&view=c&_acct=C000037398&_version=1&_urlVersion=0&_userid=681878&md5=a30ac63ab9b0261c15797f0d99028c1c


Whether you agree that Biochar is an effective way of sequestering carbon or not, if it slows the rate of deforestation, how can you be against it?

I wrote, upthread:

"Creating tera preta may be a very good thing for farmers in certain tropical environments in terms of soil management. But it is not a viable method of carbon sequestration by any logical argument."

So I agree that in certain tropical environments, creating tera preta is good soil management and leads to a decrease in deforestation.

But it is primarily a soil management technique (and by extension forest protection technique as you point out), but not a carbon sequestration technique.

You wrote that forests are carbon negative for 10-15 years. I'm not sure what you mean, but I assume you mean that the forest absorbs carbon for 10-15 years, after which the decay of old wood reaches equillibrium with new trees. But there are many ways to increase that period of carbon negativity for decades, and manipulate it through succession of species. Most forests in the modern age are second growth "bush forest" that reach equillibrium with invasive species. In the southeast, for example, that's scrub pine. Scrub pine lives for maybe 50 years so it reaches temporary equillibrium and becomes carbon neutral. If the forest were to continue for 1,000 years, however, it would probably revert to an oak/maple/hickory climax forest.

We can, however, speed up that process. If let's say a scrub pine forest is carbon negative for 10 years and levels off, we can selectively cut the pine (and sequester the wood) and plant douglass fir. When the fir reaches equillibrium, we can plant maple/oak/hickory.

In tropical areas, the same could be said for starting with an invasive eucalyptus, and then speeding up the climax forest of mahogany/brazil nut.

So the basic idea is the creation of massive national parks with highly managed forest successions, speeding up the process of reaching climax forests, keeping them carbon negative for a century or more.

It's hard for me to think:
Positive = Good
Negative = Bad

The Wikipedia article I cited http://en.wikipedia.org/wiki/Biochar#Background , specifically spoke of "… the tropical forest frontier in Central Africa …"

What is the soil depth at which anoxic conditions begin? Without oxygen, isn't it difficult to convert carbon to CO2?

He (and you) are talking about plowing under, not burying.

FWIW a new paper looks at the issue:



Note that the term used is "soil sequestration".

You believe it is easier for people to dispose of crop wastes in the deep ocean, than it is for them to create biochar.

(Is that right?)

Even if deep ocean disposal was tremendously more effective, what volume of "crop residues" do you think could possibly make it there?

Or, are you saying that it's easier for people to bury crop waste sufficiently deeply in the soil, than to sow charcoal in their fields? (What about where the soil is relatively shallow, as it tends to be in the regions being discussed?)


PS on a personal note, when possible, please cite sources.

Look at how far you go to avoid admitting an error.

I wrote that "FWIW here is a new study looking at the issue". Nowhere do I endorse the proposal, I just posted the abstract because it quantifies the discussion that was taking place.
Instead of acknowledging what the quantification shows (your error) you constructed a strawman.

You spoke of intellectual integrity earlier, perhaps you should reflect a little on the concept.

The paper isn't yet published but is due out soon in Environmental Science and Technology.

Please, briefly and explicitly explain to me the grievous error that I'm supposedly running away from.

That's what makes your tap dancing so silly.

You compared burying charred and uncharred biomass and claimed the difference in sequestration favors char. That is true in cases of plowing the biomass under, but not in cases of "burying". When you bury biomass anoxic conditions are the norm; when you plow it under, anoxia is deliberately discouraged.

Also Hamden Rice has made a completely accurate summation of the pros and cons of the proposal. Your focus on CO2 to the exclusion of all other pollutants as well as your refusal to recognize more effective alternatives are more of the same trait in action.

Here's my way of thinking.

It's all very well and good to say, "If they buried the plants that would be better." Or, "If they sunk them in the deep ocean, that would be better still."

OK, so, let's say I grant that for a given unit of plant matter. Furthermore I will grant that creating charcoal also creates undesirable byproducts.

Now, the question is, which is most likely to be done, and in the greatest volume?

First, which is most easily accomplished?

Next, what is the incentive to do it? With the Biochar scheme, there's a potential profit motive. With the burial scheme, there's the satisfaction of knowing you're doing the right thing™.

Which do you think is most likely to be done?

plowing raw biomass under is most likely because of the direct benefit/cost calculation of the farmer.

Keep the organic material in the soil where it belongs.

The CO2 we're worried about comes from burning fossil fuels, so it makes sense to address the problem in that arena in which it is created. If we stop burning coal, oil and natural gas and the problem goes away (eventually).

However, as you acknowledge, that doesn't do as much for carbon sequestration. Lovelock claims that through producing Biochar:

Given the profit motive, the farmer might be convinced to do it.

Your entire argument is that the charred biomass is permanently in that state as a part of the surface soil.


Doesn't something about your total picture strike you as odd?

Replying to kristopher's post #59:

Pyrolysis drives off hydrogen and light hydrocarbons from the wood, leaving behind the majority of the wood's carbon as charcoal. Some of the volatiles (that are quite high in hydrogen and low in carbon) are used to provide process heat for the pyrolysis. Using the Fischer-Tropsch process the unused portion of the volatiles can be turned into synthetic diesel fuel, or by using steam reforming can be cracked to hydrogen. The hydrogen can then either be sold as-is, or turned into ammonia for fertilizer using the Haber-Bosch process. Here's a page on a company that's trying it out: http://www.eprida.com/hydro/

That's how it helps.

http://en.wikipedia.org/wiki/Biochar#Production_of_biochar

While we're talking tradeoffs, that one needs to be given the gimlet eye.

From an abstract perspective, charcoal making increases both the activity level and the technology level of human activity, relative to dealing with raw biomass. What we're talking about here is really just another technique for geo-engineering. Given the amount of skepticism we apply to other forms of planetary modification, it's a good idea to be skeptical about this one as well. Unintended consequences lurk everywhere, especially when we try to scale up local processes to planetary dimensions.

So if we discount charcoal as a realistic approach for pulling huge amounts of carbon out of the air, what are we left with? As far as I can tell, we have reforestation and pumping liquid CO2 into empty natural gas fields...

If Lovelock is right about it being too late for emission controls to do any good (and I agree with him on that point), then as far as I can tell we are now well and truly screwed -- so long as the objective is to preserve human activity, affluence and numbers. Of course, if you were to take take any of those three out of the equation, the picture changes.

The sure bet for returning the planet to some sort of balance is to let nature take its course and trim our numbers.

that it would be Lovelock's projection of only a billion people remaining by 2100 that would be controversial. But I guess compared to smoke and soot, gigadeaths are no big deal. :evilgrin:

Eugenecist pig!
Cornucopian Pollyanna!

Regardless of the debates about the merits of agricultural charcoal as a method of carbon sequestration, the fact remains that it is an effective means of organic fertilizer that has been utilized for millennia.

Sorry for the lack of a link, I received the issue this week but they haven't updated it yet on their website.