"rises by nearly one third" sounds a bit strange to me, more correct would be "Plant CO2 uptake is currently underestimated by one third according to new research"?
> The research, detailed in the journal Nature, is expected to improve Earth system simulations that scientists use to predict the future climate, and spotlights the importance of natural carbon sequestration for greenhouse gas mitigation.
Too bad that we are currently doing the exact opposite (cutting down more forest than is regrown)...
As I understand the article; it’s not that we found out that they’ve _started_ absorbing more CO2; it’s that the previous estimations were flawed and we have new, improved ones.
Isn’t this common knowledge among plant growers anyway? Plants can easily enjoy a co2 ppm of 1000+ in a greenhouse for faster growth. Photosynthesis involves an exchange of co2 to oxygen
https://extension.okstate.edu/fact-sheets/greenhouse-carbon-....
Not clear from the linked article. Did you see something else?
NPP is probably increasing as it's been observed for years now that the earth is net greening in response to rising CO2
Interesting that a couple of months ago there was an article which stated the exact opposite:
> In 2023, the hottest year ever recorded, preliminary findings https://arxiv.org/pdf/2407.12447 by an international team of researchers show the amount of carbon absorbed by land has temporarily collapsed. The final result was that forest, plants and soil – as a net category – absorbed almost no carbon.
> “We’re seeing cracks in the resilience of the Earth’s systems. We’re seeing massive cracks on land – terrestrial ecosystems are losing their carbon store and carbon uptake capacity, but the oceans are also showing signs of instability,” Johan Rockström, director of the Potsdam Institute for Climate Impact Research, told an event at New York Climate Week in September.
> “Nature has so far balanced our abuse. This is coming to an end,” he said.
https://www.theguardian.com/environment/2024/oct/14/nature-c...
Not exactly. The headline is a bit misleading imho: the article doesn't say that CO2 uptake by plants is up by 31%, rather that new estimates of the CO2 uptake by plants is 31% higher than previous estimates. That doesn't preclude a temporary collapse of carbon absorption (related mostly to forest fires as far as I can tell).
That's not the opposite. It's different context.
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>used new models and measurements to assess GPP from the land at 157 petagrams of carbon per year, up from an estimate of 120 petagrams established 40 years ago and currently used in most estimates of Earth’s carbon cycle
>One petagram equals 1 billion metric tons, which is roughly the amount of CO2 emitted each year from 238 million gas-powered passenger vehicles.
this sounds pretty significant. Any particular reason why it hasn't been updated for the last 40y?
Impressive, yes. Important? Absolutely. Significant? Not really.
This is interesting to know, but easy to overstate IMO.
Back of the envelope number is 10 kg of CO2 absorbed per maturing tree and year (for ~20 years).
This means you would need to plant almost 1000 trees for each person (assuming roughly US/EU emission level) to compensate for current emissions only, every 20 years. That just seems infeasible to me, and a factor of 30% is not gonna change this significantly.
Renewables + electrification seems much more realistic, when countries like France are already under 5 tons CO2/year/person by relying on carbon-free electricity (US is at 15!).
But it's still nice to know because at least planting/conserving trees apparently helps even more than expected...
> This means you would need to plant almost 1000 trees for each person (assuming roughly US/EU emission level) to compensate for current emissions only, every 20 years. That just seems infeasible to me
That’s 50 trees each year for each person, or, in the USA, about 17 billion trees, for a total new forest of 340 billion trees.
https://www.washingtonpost.com/news/energy-environment/wp/20... says the USA has about 280 billion trees, so we’d ‘only’ have to grow that by 120%. That would grow forest in the USA from about 33% to about 75% of land area.
Infeasible, but not completely impossible, I would think, from a ‘could we do it?’ viewpoint. ‘Is there a decent chance we’ll do that?’ probably has the answer “no”, though. For the USA, I guess cutting combining forestation with decreasing energy usage would be the easier option.
Thats an even bigger area than I imagined... Another big problem is that we'd have to grow those forests again after 20 years, because mature trees stop being a CO2 sink.
The numbers/ratios should be even worse for Europe where the population density is higher. But I can totally see the approach working after scaling CO2 emissions down.
I think going over single digit percentages of land area in forestation levels is already politically almost impossible-- agriculture alone is gonna meet any such attempt with ridicule at best and copious amounts of buckshot at worst...
there are also organisms in water:
> On a global scale, oceans and other water bodies absorb approximately 25-30% of the CO₂ emitted by human activities each year. This absorption occurs primarily through two mechanisms:
> - Physical Dissolution: CO₂ dissolves in water and reacts to form carbonic acid, bicarbonate, and carbonate ions.
> - Biological Processes: Aquatic organisms, especially photosynthetic ones, play a significant role in capturing and sequestering CO₂.
It's a useful datapoint in understanding the Earth's carbon cycle, but that's all - and it in no way changes the fact that the sum total of current human activity is dragging that cycle out of equilibrium by about 2.5-3ppm per year, or 8-10%ish per decade.
If it has been underestimated then that means climate models have been using the bad, underestimated data, so they need to be updated and run to see where we are at, corrrect?
No. Climate scientists did not base all of their current models on a 1980 study about how much CO2 trees can technically absorb.
No because we aren't reliant on a model of atmospheric CO2 concentration. We directly measure it.
I assume they mean for things like offsetting programmes, predicting the continuing trend and effect of governments deciding to plant more/less, etc.
You measure the past, but you don't measure the future, right ?
Right, this new estimate can be useful for decision support: if we plant X acres, how much CO2 would it absorb? It's not very important outside of that, and it cant have caused significant past errors because to date humans have not undertaken large-scale planting for CO2 absorption reasons.
We know that soils seem to absorb less carbon as plant absorb more [0].
It's fascinating to see all those studies improving our limited understanding of the biosphere.
> Plants the world over are absorbing about 31% more carbon dioxide than previously thought, according to a new assessment developed by scientists.
So that means our supposed CO2 problem is 31% smaller than we previously thought?
No, the atmospheric CO2 measurements are unaffected by this. We definitely have a CO2 problem despite plants being more effective at extracting it than previously thought.
Another way of looking at it is that planting trees may be more effective at removing CO2 than previously thought, and deforestation somewhat more harmful.
Well, wouldn't it be correct to say that now, with the new numbers, CO2 uptake of plants will be 31% more than previously thought? So every coming year, there will be 31% more CO2 converted into oxygen than previously thought?
That just means that CO2 emissions are actually higher than previously thought. We directly measure atmospheric CO2.
Sadly not, because most carbon is absorbed by the ocean, not plants. And second because all of the nasty warming trends are still out there
Or this statistic means that actually much more oxygen is converted by plants compared to being processed by the ocean?
So it means planting extra plants to fight CO2 is much more effective than previously thought?
Previously we believed that ocean, wetlands, soil, and geological activity absorb about 75% of the CO2. Plants account for around 25% of the carbon absorption.
The research doesn't indicate that more carbon in total is absorbed than we thought - we've got a pretty solid understanding of the total carbon absorption capacity, because we measure it directly, rather than model it. It indicates that a larger proportion of the carbon absorption comes from plants than we thought (around 33%, instead of 25%), with the other sources taking on proportionally less of the absorption.
This research will allow us to more accurately model how land use impacts CO2 though, and will likely put a higher premium on protecting plant life in any carbon assessments.
Aha, yeah that makes sense. But I can't really see that in the article.
I would say no. We still have data on our year to year/decade to decade C02 in the atmosphere. So we can track how quickly it's rising. Those data points would already include any error we have in how much C02 is absorbed or created.
> supposed CO2 problem
No. This study has changed precisely nothing about how we measure CO2 in the atmosphere. Or climate change in general.
We could plant, cut down and burn trees for the energy, in a circle, and keep carbon levels in our atmosphere the same, instead of digging up new carbon from the ground and burning it. We will have to bury carbon back under the ground at some point.
This consumes far more land area than we have available.
The first blast furnaces were indeed fuelled this way, from locally sourced charcoal, but coal/coke took over due to requiring far less effort (energy!) to extract.
Going by https://www.drax.com/uk/sustainability/sustainable-bioenergy... , the UK's single large scale biomass power plant is fuelled by over sixteen million hectares (160,000km^2) or approximately one Wisconsin. If we wanted to power the whole UK electricity from biomass, we'd need ten Wisconsins. (Wisconsin, presumably, would have to find some other source of power in this scenario)
(of course, Drax wasn't built to burn imported biomass, it was built to burn locally extracted coal ...)
Drax uses about 12,000km^2, not 160,000km^2.
A slightly more useful land area is the United Kingdom itself, which is 243,000km^2. With this technique, it takes an area 1/19th the size of the UK to produce 4% of its energy.
This isn't a feasible approach to energy production, but it's an order of magnitude less bad than your figures have put forward.
> We will have to bury carbon back under the ground at some point.
Location doesn’t matter. Duration of storage matters. If we could find a way to lock it up in a building material that would be effective and useful.
It's not exactly turning CO2 into bricks, but there's a few applications of biochar as an additive to improve concrete, asphalt, particleboard, etc.
Yes. That's what my view is. If we cut down the trees, and burn them, we'll have the same level of C atoms in the atmosphere. If we keep using gas and oil coming under the ground, the number of C atoms will keep increasing.
Although I am not exactly sure about the ratio of the C atoms stored in the atmosphere, and C stored in trees, houses, but it seems to me the Logical move that we should stop getting gas and petrol from under the ground and start using trees and other plants instead.
Trees take too long to grow relative to how much is used in construction, let alone if it were used as a fuel vs coal.
I thought I'd read in the past that an uptake in C02 for plants/trees (and therefore faster growing) results in a weaker structure which doesn't stand up to the environment as well as slower growing trees.
CO2 is food for plants
And also a poison for them — just as oxygen is both of those things for us. (If oxygen isn't even a metaphorical food for us, then neither is CO2 for plants).
Unfortunately, "food" is more complex than "how much carbohydrates do you get per day?"
We still have ways to go to that. From the current 400 ppm to about 2000ppm before the apocalypse. Until then the yields will generally improve from today’s baseline. There might be other systems that break before that and we get plantocalypse earlier
If trees are doing more work then we estimated in simulations, then good/bad, as we cut down forest we are doing more damage.
But also, since trees do more work than we thought, then planting more will have bigger impact than past estimates.
That’s correct, but there is also something else, NASA has argued that their satellite imagery has shown an increase in the planet’s plant coverage as CO2 has increased, since to plants, CO2 is what not just oxygen is to us, but also in many ways like nourishment by absorbing the carbon from the air, which they use to grow.
Plants are generally not CO2 limited. General water is the limit - thus deserts are not very green despite having as much CO2. Even in wet climate a few weeks without rain and the plants are going dormant.
In the ocean the limit is often other nutrients like iron. Attempts have been made to add iron to the ocean and those areas suddenly turned green (though it is not clear how sustainable this practice would be, nor if there might be other unknown negatives).
That isn't to say CO2 is never the limit. Large greenhouses often are CO2 limited (often burning fossil fuels indoors to provide the CO2 without opening windows and thus letting something else undesired in). There are no doubt areas where CO2 is the limit and so NASA can see more green that is attributed to more CO2 - but still CO2 is rarely the limiting factor.
It feels like we can never catch a break. If we do something like underestimate the amount of CO2 plants absorb it still does nothing to change our fate.
Is there anything in our climate models that if we got wrong would drastically reduce the estimated severity of long term impacts from climate?
Maybe we should pay for working greening efforts - aka artifical algea blooms ontop of the Marianna trench.
Iron, phosphates, Air pumps and light transmitted into the depths where the growthcube rises.
Have a rainforest fall into the depths forever every hour.
There are a lot of people who think humanity will intentionally geo-engineer our way out the negative effects of our accidental geo-engineering. In part because it is something active that a single nation could do for itself. Like, China could just decide one day to do what you’re saying and it’s unlikely anyone would start a war to stop them.
Seems scary because we don’t actually know how to do it, and we only have one planet. We could create horrible side effects like killing ocean life we depend on for food, or admire (e.g. whales). We also have evidence for a “snowball Earth” state at times in the past. What if we overcorrect? Lots of good sci-fi stories about that to chill our bones.
The argument against it happening is that it would be expensive for that one nation, but benefits would not be proprietary. Whereas building out an economy of low-carbon power generation, manufacturing, and transportation creates tons of domestic economic benefits like jobs, trade, profits.
We have already geoengineered the temperature to be 0.2-0.4 C lower by container ships emitting SO2. We have also observed this a lot from volcanic eruptions. We should really at least try.
Every tech like this has unforeseen consequences. And they could be worse than the original problem.
Every problem has unforeseen benefits. Global warming reduces the risk for nuclear winter when the resulting tribal conflicts lead to the nuclear regional exchange dice landing on that number that cant come up on repeated throws.
So perhaps the alarmist climate models were incorrect and most be corrected before they are used to shape public policy?
No. This changes nothing about climate models.
> Pan-tropical rainforests accounted for the biggest difference between previous estimates and the new figures, a finding that was corroborated by ground measurements, Gu said. The discovery suggests that rainforests are a more important natural carbon sink than previously estimated using satellite data.
And yet, we stand by on the sidelines while narco, wood and cattle organized crime cartels contaminate, log and burn down the rainforests.
IMHO, at least the endangered rainforest belts should be placed under international supervision with a joint military cooperative on a shoot-to-kill order against these kinds of criminals. Think of an UN Blue Helmets mission, but not as a toothless "peacekeper corps" like the usual useless bullshit. The very ability of Earth to provide for human life hinges to a significant part on the continued existence and health of the rainforest ecosystem, and it is obvious now that many of the countries in which these forests lie are fundamentally incapable of maintaining this shared resource.
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That’s not what this says.
If plant uptake were counteracting emissions atmospheric CO2 ppm would not be rising so much.
I wonder if it does mean planting trees or de-desertification might be more effective than estimated.
Bro...
Ah the greening earth FUD spread by big oil circa 2000s
HN is playing all the greatest hits of denialism this week!
Too bad we are currently too busy scaling up wars all over the place to bother with the planet state.
Perfect. More fodder for the anti-science idiots to prove how clean air isn't a big deal.
You show those anti-science folks with ..... more science?
Selectively reporting scientific results based on how it will be used for fodder (?) just fuels anti-science sentiment.
The messaging of this article is causing people in this very comment section to conclude that climate change is progressing slower (or even not progressing at all) based on a revision of a plant CO2 uptake study that was done in the 1980s.
Like it or not climate science is extremely political and selectively reported science (which this is) that is presented to the public needs to account for the context in which it exists or it is no better than propaganda. The fact that the Oak Ridge National Laboratory is primarily funded by the US Department of Energy is plenty of reason to be suspicious of its motivations. They have a vested interest in shaping the public's perception of energy production and its impact on the climate.
So they misrepresented the findings. I stand corrected.
You said it derogatorily, but it is genuine evidence that rising CO2 concentrations are have less effects than previously thought. In theory there could accumulate enough evidence to show anything.
That is exactly it - that's untrue. CO2 absorption was previously underestimated, but that does not change the rising concentration or the effect of CO2 on the climate.
But it might change what we view as a legitimate mitigation strategy.
For example, could we burn oil at 2024's rates with 1900's forests and not have net-positive CO2 levels? Back of the napkin:
- We're producing ~37 gigatons of CO2 (GtCO2) through burning of fossil fuels at the moment [0]
- The current forestation level is ~4 billion hectares [1]
- The net loss of forestation is ~1 billion hectares since 1900, with deforestation rates peaking starting ~100 years ago. [1]
- 1 petagram == 1 Gt
- Current forests consume 157 Gt/yr [article]
Therefore, the billion hectares we cut down in the past century would consume an additional 157 * 0.25 == 39.25 GtCO2/yr if it were still standing, 2 Gt more than our historical maximum global net output.
Obviously, the burning of fossil fuels is ultimate source of the increase in CO2, but without the deforestation it would still (back of the napkin) be sustainable. At least, we'd not be quite so far down this road.
[0] https://www.statista.com/statistics/276629/global-co2-emissi...
No. That is an entirely incorrect interpretation of the study.
You're angry at the good news that CO2 is being absorbed by nature more than previously believed?
That is not at all the sentiment GP is expressing.
Say you have a terminal disease. Doctors evaluated the progression of your illness and estimated you have three years to live. Of course, when you begin treatment changes your life expectancy: start now and you may get twenty more years; start in two years and you’ll only get an extra four.
Your insurance company says “doctors are all quacks, you’re not ill, they’re just in it for the money” and don’t pay you anything. They know that’s a lie and that after you die there is a high probability your family will sue them out of existence, but the people currently in charge hope that will be far enough in the future they won’t have to personally worry about it. In the meantime they will enjoy the money they don’t pay you.
As the months go by, you visibly deteriorate. It’s obvious you are sick. Your insurance maybe pays for some token cheap medicine to make you more comfortable and get themselves more leeway. Maybe that buys you an extra four months. They’ll be horrible but you will be alive and so your family can’t sue. They continue to be off the hook but it’s getting harder to escape the reality.
Then a new doctor comes along and says “actually we overestimated the progression of your illness, you should’ve been given five years initially”. What do you think happens then? Obviously the insurance company will use that as an argument to further delay your treatment and double down on the rhetoric that all doctors are quacks. The damage is still happening but the urgent action needed to stave it off is once again delayed into the future.
That is what GP is complaining about. It’s obviously good news that you’re not so close to death as you thought, but that knowledge may end up hurting you in the long run.
Yes, this specific messaging feels motivated by the bottom lines of energy producers. The information doesn't actually change what we've measured regarding progress of climate change, but it's vague enough that plenty of people in the comments here are confused and acting like climate change isn't real after all.
it's not good news if forests are disappearing faster than being regrown.
It isn't. Greenhouse emissions have remained roughly stagnant for over 30 years, while lung cancer deaths have dropped by 50-60 percent. Of course that's largely due to a decrease in smoking, but without any concomitant increase in mortality from "bad air", I don't see how anyone could think it's a "big deal".
Sources: https://www.epa.gov/climate-indicators/climate-change-indica... https://www.lung.org/research/trends-in-lung-disease/lung-ca...
Those are two different things, though. Both linked to emissions, but in different ways.
Also you had the wrong chart selected from that page, https://www.epa.gov/climate-indicators/climate-change-indica...
Are you seriously arguing that unhealthy air does not exist?
Not everywhere, between 2000 and 2020, 36 countries managed to get more tree cover than they lost, so we "just" need to expand this practice.
https://research.wri.org/gfr/forest-extent-indicators/forest...
> Even though the world gained 130.9 Mha of tree cover between 2000 and 2020, it still lost much more, with an overall net loss of 100.6 Mha. While the global numbers report a negative trajectory, there are distinct regional patterns or “hotspots” of net gain. At least 36 countries gained more tree cover than they lost over the 20-year time period. As a continent, Europe gained 6 million hectares of tree cover by 2020. Asia also had a large proportion of countries with net gain, particularly in Central and South Asia. The drivers of much of this gain (for example, what proportion is due to intentional restoration interventions versus land abandonment) are still difficult to determine using the available data, but are a key area for future research. Additionally, even though tree cover gain is occurring in many places, it doesn’t “cancel out” the impacts of loss. Primary forests in particular serve as critical carbon stores and support an intricate network of wildlife, none of which can easily be replaced once lost.
That first map makes it seem like we had gains pretty much all over the world, but it's not showing net gain, most of the countries of the world had a net tree cover loss. I wish it had a map showing net losses per country too – and it'd be interesting to see it going back in time, many countries had periods of very extensive logging during the 1800's and 1900's.
If you scroll there is indeed a map with net gain in the page I shared. Direct link to the net gain map file here: https://research.wri.org/sites/default/files/gfr/2022-10/36%...
Happy to be your personal google, gives me an excuse to look at it again.
This dashboard is good for that https://www.globalforestwatch.org/dashboards/global/?categor...
This visualization is also good: https://ourworldindata.org/deforestation
Forest loss data is available for the study period (2000 - 2020). I've worked with this specific data source quite a bit. While it's known for being the gold standard in global forest loss estimation there are many countries that criticize it for over estimating loss. Going back further than 1985 is difficult/impossible as the estimate is derived from satellite data.
> most of the countries of the world had a net tree cover loss.
This also doesn't really matter.
Russia, Canada, Brazil, the US, and China are about ~60% of the world's trees.
Their forest areas could grow by only 2-3% and dozens of small countries could lose substantial percentages of their forests, and we'd still end up with a ton more trees and forest area.
Depends on how they burn and what forest we are talking about. A small intensity fire will leave many of the healthy trees alive while burning dead ones, and will turn some of the carbon into charcoal which is sequestered. A larger intensity fire will also kill healthy trees, and turns the carbon into CO2.
Many of the forests in North America need to burn every year in that low intensity fire. Their seeds won't even sprout until after a fire (when all the dead undergrowth has been burned away thus leaving the new sprout with sunlight). However this doesn't apply to all forests in North America, and I know even less about other countries.
Moral of the story: consult a forester who knows the local forest before talking about anything. In many places we have been badly mismanaging forests and there is no nice way out. We probably do need to burn down and start over with large parts of North America because of all the harm decades of "Smokey the bear" have done to our forests.
That depends on how many of them burn. A few? Doesn't matter much. All? Goodbye, and thanks for all the carbon.
Be interesting to go back even further, pre agriculture. The world would be awash with trees.
Not really. In some places yes, but trees need specific conditions to exist: there would be lots of grass land and deserts too.
I don't know that getting more trees than you lost is a useful or effective measure against climate change. It's a good thing, certainly, but I imagine the amount of carbon we're pumping into the atmosphere requires more than a steady state of trees. I wonder how much of the world we'd need to cover with trees in order to offset our carbon production, certainly more than we've had during modern civilization.
https://climate.mit.edu/ask-mit/how-many-new-trees-would-we-... says a new forest the size of New Mexico might offset the US's emissions. Or not. It depends. But first thing to do would be not to cut down the existing ones.
They say it would take a forest the size of New Mexico "to account for one year of American emissions" - given that trees both process CO2 during respiration and act as sinks when they grow, I can't tell if they'd be able to offset those emissions the next year as well or if we'd need a new forest.
Basically we need to grow trees as fast as possible, cut them down and bury them deep, exactly the opposite of what we’re doing when mining fossil fuels. No wonder there’s exactly zero people doing that.
Why are they focusing on making bio-oil to throw away instead of biochar that has many known non-fuel uses? https://en.wikipedia.org/wiki/Biochar#Applications
Nice!
There's been a proposal to bury them not-so-deep, but saturated with salt to prevent decomposition. It's not necessary to sequester the carbon forever, just on a time scale for natural absorption of the CO2 into oceans and then into carbonates (which is something like 100,000 years, IIRC).
We need to be building a mountain range out of diamonds.
No - stupid slow speed of light stops so many interesting science fiction imaginations.
Depends on where the carbon goes. Into a home? Locked up for a long time. Under a cooking stove? Released.
I did the back of the napkin math below: https://news.ycombinator.com/item?id=42697255
Barring mistakes, it balances if we had avoided reducing the planet's vegetation by 20% since 1900. So much for that.
That's obviously not "the" solution, but it seems like reducing fuel burn while increasing forestation would benefit us beyond what is commonly expected.
> Too bad that we are currently doing the exact opposite (cutting down more forest than is regrown)...
Carbon is captured when trees grow. Lumber binds carbon into buildings and constructions.
Old forests sequester more carbon than new ones. When you cut down a tree, you leave half of it under ground, and when the roots break down all that carbon is released to the atmosphere.
It is far from straightforward whether it is better to leave the forests standing or cut down and replant. The forestry industry is of course claiming that a cultivated forest is better for the climate. The environmentalists are claiming that old forests that are left alone are better for the climate and in addition better for ecological diversity.
I tend to believe the side whose income doesn’t depend on their claim.
Sounds dubious. Most trees are not nearly 50% roots by biomass. The roots that remain will get broken down, but not into gases exclusively. A new tree that’s growing is actively capturing new carbon. Cutting down a tree won’t help much, but if a new tree grows where the old one was, it’s hard to find reasoning to suggest a net loss.
It’s a net negative over time if the square footage that was housing a tree is replaced with grassland or a neighborhood. You trade a one-time, one-tree-sized fixing event against all fixing by all future generations of trees on that spot.
The climate math of lumber works if you’re talking about “productive forests” where trees are allowed to grow to replace trees cut down. It doesn’t work for situations when a forest is cleared and not replaced, which is mostly what is happening where rainforest is being cleared.
In the USA, at least, most the lumber for home construction is farmed. We don't rely on "old growth" for much anymore.
Meaning the forests are kept forests and new trees are planted to replace the ones that are cut down. The land the trees are farmed from is kept forested because it provides a income source for the owners. Also the trees tend to grow much faster then they do in natural forests because things like spacing out trees is optimized.
This is a big complaint for wood working folks, ironically. Because natural grown trees grow slower the wood grain is much tighter and ends up being generally higher quality. Where as modern farmed wood has huge rings.
Although it isn't too bad because you don't use soft woods much for things like furniture making. Where as construction lumber is almost all soft wood.
So at least in the USA the ratio of grown-to-cut wood is about 1.92. So we plant trees nearly 2 to 1 versus what we cut down.
Most (all?) of the carbon sequestered by a tree that dies and rots on the forest floor goes back into the atmosphere. So the "fixing by all future generations" is just the same carbon sink as the current 1 alive standing tree for that spot of real estate.
Regardless, the net carbon sink of a healthy forest is higher than the net carbon sink of a few houses that were built in its place.
Simply think of the number of tons of wood in an acre of forest, compared with the number of tons of wood in a housing development.
It doesn't matter that some trees die and release their carbon, other trees grow. Instead of thinking of individual trees, simply think of the entire biomass of the forest.
A tiny amount is turned to coal (often via forest fires) which then isn't returned to the cycle. We are talking about -0.1C over thousands of years though, if we otherwise went carbon neutral - which seems unlikely for the long tail of small users but if we get the major uses of fossil fuels to something carbon neutral that would get us very close to stopping global warming at least.
I’m talking specifically about when trees are used for lumber.
I think the subsistence farmers cutting down the Amazon are doing more burning than construction.
Are there any good charities that buy up green land for the sake of not doing anything to it? From what I've read of carbon capture economics, it seems a frillion times more effective to simply not chop down more forest compared to investing in carbon capture (though I'm not saying we shouldn't do both)
Yes, the Nature Conservancy is a large nonprofit that buys lands to hold in its natural state, albeit not at the scale needed to offset industrial activities. They tend to focus more on qualities like undisturbed ecosystems, or biodiversity, than climate change.
And in the U.S. at least, many states have a concept of a conservation easement where you get a tax advantage by promising not to disturb or develop land you own. This is used by some wealthy individuals to lock up a bunch of land undisturbed. But again, so far it is not remotely close to offsetting the overall human behaviors that are forcing warming. (As evidenced by the directly measured rising CO2 levels and temperature anomalies.)
Not exactly what you're asking for, but [Ecologi](https://ecologi.com/) is doing lots of work on the tree-planting front, but also doing other work that helps with climate change, like solar panel setups in Morocco, wind farms in the US, methane emissions in Brazil, and more.
Search for „rewilding“. It’s a popular approach in the UK but you’ll find projects in other countries, too.
Underestimated by one quarter! A factor of 4/3 or 3/4.
>Too bad that we are currently doing the exact opposite (cutting down more forest than is regrown)...
Hmm, anyone has data on this? I've seen many people claiming the opposite of that opposite.
There are plants in the ocean that man will have trouble to cut down.
Earth isn’t the same kind of living organism as man, but it’s an organism just like AI isn’t the same intelligence as that of man’s, but it is intelligence.