Note, the following post was written two years ago, but still serves as a reminder of the progress we have made and need to make to address our climate change problem.
I encourage people to watch the excellent HBO documentary called “Ice on Fire” on concerns over climate change and remedial actions underway that should and can be leveraged. The documentary is produced and narrated by Leonardo DiCaprio, but the most impactful voices are the scientists, inventors and trendsetters who are seeing dividends from their actions and investments.
To sum up, we have two major problems facing us – too much carbon in the air along with a growing concern over methane as it is released from beneath melting ice caps and frozen tundra, on top of the venting from natural gas sites. The title comes from researchers lighting methane leaks on fire as it is released from melting ice covered waters. The scientists note with data that it is quite clear man is causing the hastened uptick in temperatures as we leave our carbon fingerprints in the atmosphere.
These are major concerns, but we are not sitting still. Significant efforts are underway. They can be categorized as putting less carbon in the air and capturing more carbon from the air. To avoid a novel, I will touch on some of the ideas, but please do deeper dives and watch the documentary airing now.
Stop putting carbon in the air
We must hasten the move to renewable energy. The costs are more on par and less, in some cases, than fossil fuel energy production. Wind and solar energy are growing at accelerated rates. One CEO noted, the technology is here to make this happen even more than it already is. Here in the US, California gets 25% of its electricity from solar and Texas gets 16% of its electricity from wind energy.
Yet, a very promising start-up off Scotland is tapping tidal energy. There is a company producing electricity today with an offshore platform with two turbines turned by the tides to generate electricity. I have written before about this group as they use existing technologies to harness the sea. Their success is gaining notoriety around the world, as it appears to be replicable.
Two other ideas also help with both recapture and restricting release. The first is reusing depleting biowaste (such as dying trees, plants and compost) in the soils to grow crops and future trees and foliage. The biowaste holds water better, maintains top soil and is straight out of nature’s guidebook.
The other is growing more kelp offshore as it captures carbon like sequoia trees and can also be used as a food source for livestock. Feeding cattle kelp is not a new approach. Feeding cattle is important as it greatly reduces the gases released by animals and preserves more carbon capturing grassland.
Capture more carbon from the air
The documentary spells out several natural ways to capture carbon and a few technological ways. On the former, here are a few ideas:
Maintain forests, especially those with large sequoias, which are huge carbon eaters. There are several places that are nurturing huge forests, but they note we need more of these efforts. We need to be mindful to replace what we cut, but keep some protected forests off limits to cutting.
Another example is to replenish mangroves that offer buffers to oceans. In addition to offering protection against storms, they also are natural born carbon eaters.
Another effort is to grow more urban farms. These farms are usually more organic, but in addition to absorbing carbon in urban areas, they perpetuate a farm to table concept that reduces transportation fumes. Reducing auto fumes is a huge concern of cities around the globe.
The next idea is more compex, but it requires the growing of more shells in the ocean. The dusts off the shells creates “ocean snow” that settles to the bottom and absorbs carbon. The idea is to spread a very small amount of iron in the ocean to cause more shells to grow.
The more technological solutions are designed to pull carbon out of the air. There are two approaches – one is to extract carbon and store it safely underground. The other is to pull it out and reuse it through artificial photosynthesis. Both of these options need more description than I am giving them. I prefer the more natural ways, but all of the above, is a necessary strategy at this late hour.
The scientists have concerns, but they do offer hope. The uncertainty of the ice-covered methane release gives them pause. They did note the methane release from accidental leaks from fossil fuel is visible from space and reduceable with some effort.
Another concern is the well-funded activity behind climate change deniers. A Wyoming rancher scientist standing in front of a visible, leaky methane cap said it plainly – they know this stuffs hurts kids more than adults. If someone came into my home to hurt my kids, it would be over my dead body. So, why is it OK to allow this?
Another scientist was less colorful, but equally plainspoken. He said fossil fuel executives perpetuating climate change denial should be tried in The Hague for crimes against humanity. Yet, as the costs have declined, the profit of creating carbon is becoming less palatable than the profit of reducing carbon in the air. People need to know these market forces exist today and not stand for future unhealthy energy creation.
Finally, if you cannot convince a climate change denier that we have a problem, ask them a simple question – if costs were not an issue, would you rather your children and grandchildren breathe methane from vented natural gas or drink coal ash polluted water or have carbon and methane neutral solar, wind or tidal energy? Guess what – costs are not much of an issue anymore and, in an increasing number of cases, less for renewables.