As I mentioned in a recent post, some form of deliberate management of our climate is an unavoidable necessity. In reality, that’s what all the talk of reducing emissions is about. If we want to be able to control what impact we have on our climate, emissions reduction will not be enough. We’ve already destabilized things, and there is virtually no chance that they will regain stability on their own.
The key to regulating our climate greenhouse gas levels. An increase in CO2 is what caused the warming, and a significant decrease would at the very least slow it. The problem is that even if we were to cut emissions enough that we’re no longer adding to the problem, we don’t have any technology capable of efficiently pulling CO2 out of the atmosphere. Fortunately, we don’t need a high-tech solution.
The solution is trees. There’s nothing revolutionary, controversial, or new about saying this; the tree-hugger stereotype is older than I am. As with the basic thermodynamics behind the current warming, the idea behind planting trees is quite simple. Trees are primarily made of water, drawn from the ground, and carbon dioxide, drawn from the air. As long as you have sufficient water, trees will pull carbon dioxide out of the air, and sequester it in themselves.
This same “equation” is also why the clear-cutting (and often burning) of the world’s rainforests is such a problem – all of that carbon, which had been kept in fairly stable storage by the forests – has been added to the atmosphere along with the emissions from fossil fuel use and livestock. Fortunately, that particular smoke cloud has a silver lining.
If – and only if – the world starts to work together to deal with this problem, the one of the first steps could be replanting as much of the cleared rainforest as possible. This would, of course, have to be done while fossil fuel use was phased out, but a new study has indicated that secondary tropical forests absorb carbon faster than the old-growth forests they would be replacing. In other words – a massive, world-wide replanting effort could create a significant dip in atmospheric CO2 levels, slow the warming, and perhaps even slow or stop the various feedback loops that have already started.
In order to get to the point where we could make this scenario a reality, we would have to overcome the current obstacles of politics and greed, so instead I’ll briefly focus on the obstacle of human necessity. While some of the formerly forested land goes to crops like palm oil, a significant portion also goes to growing food, and by the time we get around to planting on a global scale, the number of humans needing to eat will be even greater than it is today. That means that any effort to replant forests will have to come after an arrangement to ensure food supplies for those currently fed by the farms we’d be planting over.
Dealing with this problem would require a more equitable system of food distribution – one concerned with getting food into mouths, rather than money into pockets (though we can’t ignore the latter entirely), but it will also require new methods of food production. If we want to plant trees where farms exist today, and we want to avoid mass starvation on a scale that wasn’t even possible a few decades ago, then we will not be able to maintain the current conventions of farming, industrial or otherwise.
As the climate continues to warm, weather conditions will become less reliable from year to year. When you combine that with a need for food production to take up less space, and an increasing global population, that points in the direction of multi-story indoor farming. Thus far, it’s a concept that has remained largely in the realm of science fiction or unrealized “concept designs”, but we ought to be taking it more seriously. Moving farming indoors is not romantic, and it feels like a step away from everything we know, but as I’ve said before, we’re effectively living on an alien planet, and maybe it’s time for science fiction solutions.