Occidental Petroleum is leading the global charge to vastly expand the use of technologies that suck up carbon dioxide. The failure of company’s biggest-ever bet shows the challenges ahead.
Even then, not really. See, trees temporarily lock up carbon while they’re alive, but once they decompose, all their captured carbon gets released into the atmosphere again (unless the trees are buried or something). Actually, perennial prairie grasses that are allowed to grow and get deep, deep roots (about 8-10 ft deep, as I recall) will sequester carbon into the soil and turn the grassland into a giant carbon sink. Shitty HOA lawn grass and golf course grasses don’t do this, because they’re kept cut short (read: kept stressed) and well watered and have neither opportunity nor incentive to set deep roots.
Very, very few trees live that long in practice. The average tree lifespan is three to four hundred years, though there are plenty of species that are sub-100 on average. But that’s not the point. The point is that you’re just cycling the carbon, not really removing it from circulation. The instant there’s a devastating forest fire or something causes those trees to die, that carbon is back in play. Even if the trees don’t all die at once, you’re still going to hit an equilibrium where the number of trees dying of natural causes and releasing carbon balances the number of trees growing and locking up carbon. It’s not the worst stop-gap solution (that honor belongs to industrial carbon capture facilities) to buy ourselves some more time, and we SHOULD be planting more trees, but it’s not a good solution for permanently reducing our carbon load.
Unless you count planting trees carbon capture. Then it is part of the solution
Even then, not really. See, trees temporarily lock up carbon while they’re alive, but once they decompose, all their captured carbon gets released into the atmosphere again (unless the trees are buried or something). Actually, perennial prairie grasses that are allowed to grow and get deep, deep roots (about 8-10 ft deep, as I recall) will sequester carbon into the soil and turn the grassland into a giant carbon sink. Shitty HOA lawn grass and golf course grasses don’t do this, because they’re kept cut short (read: kept stressed) and well watered and have neither opportunity nor incentive to set deep roots.
I mean we could use the wood instead of other materials.
“Temporarily lock up carbon while they’re alive” So… only for a few thousand years then…
We can do both. Plant trees, and replace turf grass with native grass and flowers.
Very, very few trees live that long in practice. The average tree lifespan is three to four hundred years, though there are plenty of species that are sub-100 on average. But that’s not the point. The point is that you’re just cycling the carbon, not really removing it from circulation. The instant there’s a devastating forest fire or something causes those trees to die, that carbon is back in play. Even if the trees don’t all die at once, you’re still going to hit an equilibrium where the number of trees dying of natural causes and releasing carbon balances the number of trees growing and locking up carbon. It’s not the worst stop-gap solution (that honor belongs to industrial carbon capture facilities) to buy ourselves some more time, and we SHOULD be planting more trees, but it’s not a good solution for permanently reducing our carbon load.