This report explores solutions made possible by the most modern techniques of biotechnology: gene editing. An esoteric interest of just a handful of molecular biologists only a decade ago, gene editing is now the second-most published topic in biology (after SARS-CoV-2/COVID-19). Gene editing can be used to improve fundamental biological processes, like photosynthesis, to deliver positive impacts across wide range of human activities, including those that impact the climate.
Noted physicist Freeman Dyson wrote in 2008, “After we have mastered biotechnology, the rules of the climate game will be radically changed…. if we can control what the plants do with the carbon, the fate of the carbon in the atmosphere is in our hands.” While Dyson’s long-term prediction will not quickly come to pass, over the next 50 years, gene editing will make significant contributions to address the climate challenge, especially if public policymakers recognize and act on the opportunity quickly. Public investments in climate and clean energy research, development, and demonstration (RD&D) to date have focused heavily on chemical and physical solutions. It’s time for biology to play a much bigger role.
This report describes how ancient biological processes have been reforged by researchers into new tools that can reshape the characteristics of plants, animals, and microbes to help reduce GHG emissions and remove carbon dioxide from the atmosphere. It focuses primarily on opportunities for agricultural innovation, which is the logical sector for initial applications because, while it is not the largest source of GHGs, it is more directly dependent on biology than other sectors. The report also addresses biofuels, before turning to applications of gene editing that hold promise for removing carbon from the atmosphere.
It concludes with a set of policy recommendations aimed at accelerating the development and deployment of gene-edited climate solutions, making four key recommendations to the United States government and its international partners:
- Eliminate unscientific regulatory burdens and barriers that hinder the development of safe gene-edited products.
- Increase investment in research and development (R&D) priorities such as advancing CRISPR tools, enhancing photosynthesis, and improving methods to measure soil carbon.
- Improve coordination of existing R&D efforts within the United States and around
the world. - Expand incentives that will spur the rapid adoption of novel gene-edited technologies.
Read the report here: Gene editing for the climate: Biological solutions for curbing greenhouse emissions
Val Giddings is a senior fellow at the Information Technology and Innovation Foundation (ITIF). Giddings received his Ph.D. in genetics and evolutionary biology from the University of Hawaii in 1980. Val can be found on Twitter @prometheusgreen
Robert Rozansky was a senior policy analyst with the Information Technology and Innovation Foundation. He focuses on clean energy innovation. Find Robert on Twitter @rob_rozansky
David M. Hart is a senior fellow at the Information Technology and Innovation Foundation (ITIF) and professor of public policy at George Mason University’s Schar School of Policy and Government. Find David on Twitter @profdavidhart
This article was originally posted at the Information Technology & Innovation Foundation and is reposted here with permission. Follow ITIF on Twitter @ITIFdc