Climate Technology Primer (Part 1)

Here is an intro to how technology can help to address climate change:

• Adam Marblestone, [Climate technology primer (1/3): basics](https://longitudinal.blog/co2-series-part-1-review-of-basics/).

[Adam Marblestone](http://web.mit.edu/amarbles/www/research.html) is a research scientist at Google DeepMind studying connections between neuroscience and artificial intelligence.

Previously, he was Chief Strategy Officer of the brain-computer interface company Kernel, and a research scientist in Ed Boyden’s Synthetic Neurobiology Group at MIT working to develop new technologies for brain circuit mapping. He also helped to start companies like BioBright, and advised foundations such as the Open Philanthropy Project.

Now, like many of us, he’s thinking about climate change, and what to do about it. He writes:

In this first of three posts, I attempt an outsider’s summary of the basic physics/chemistry/biology of the climate system, focused on back of the envelope calculations where possible. At the end, I comment a bit about technological approaches for emissions reductions. Future posts will include a review of the science behind negative emissions technologies, as well as the science (with plenty of caveats, don’t worry) behind more controversial potential solar radiation management approaches. This first post should be very basic for anyone “in the know” about energy, but I wanted to cover the basics before jumping into carbon sequestration technologies.

Please check it out! I like the focus on “back of the envelope” calculations because they serve as useful sanity checks for more complicated models… and also as a useful rebuttal of the climate denier’s argument “all the predictions rely on complicated computer models that could be completely wrong, so why should I believe them?”