References
- Cornwall, W. 2018. “Natural Gas Could Warm the Planet as much as Coal in the Short Run.” Science. June 21. https://science.org/content/article/natural-gas-could-warm-planet-much-coal-short-term .
- Drax. 2019. Press Release: “Drax Sets World-first Ambition to Become Carbon Negative by 2030.” December 10. https://drax.com/press_release/drax-sets-world-first-ambition-to-become-carbon-negative-by-2030/ .
- Dwivedi, P., M. Khanna, R. Bailis, and A. Ghilardi. 2014. “Potential Greenhouse Gas Benefits of Transatlantic Wood Pellet Trade.” Environmental Research Letters 9 (2): 024007 (11 pp). doi:10.1088/1748-9326/9/2/024007.
- Elbein, S. 2020. “Slow Burn: Europe Uses Tons of NC Trees as Fuel. Will This Solve Climate Change?” Pulitzer Center. January 3. https://pulitzercenter.org/stories/slow-burn-europe-uses-tons-nc-trees-fuel-will-solve-climate-change .
- Favero, A., B. Daigneault, and B. L. Sohngen. 2020. “Forests: Carbon Sequestration, Biomass Energy, or Both?” Science 6 (13): 6792. doi:10.1126/sciadv.aay6792. March 25.
- Golombek, R., A. Lind, H. K. Ringkjøb, and P. Seljom. 2022. “The Role of Transmission and Energy Storage in European Decarbonization Towards 2050.” Energy 239: 122159. doi:10.1016/j.energy.2021.122159.
- Kanieski da Silva, B., F. W. Cubbage, and R. C. Abt. 2019. “Structural Changes on Pulpwood Markets in the US South: Wood Pellet Investments and Price Dynamics.” Forest Science 65 (6): 675–687. doi:10.1093/forsci/fxz043.
- Kim, S. J., J. S. Baker, B. L. Sohngen, and M. Shell. 2018. “Cumulative Global Forest Carbon Implications of Regional Bioenergy Expansion Policies.” Resource and Energy Economics 53: 198–218. doi:10.1016/j.reseneeco.2018.04.003.
- Lark, T. J., N. P. Hendricks, A. Smith, P. Patese, A. Seth, S. Lee, M. Bougie, E. G. Booth, C. J. Kucharik, and H. K. Gibbs. 2022. “Environmental Outcomes of the US Renewable Fuel Standard.” Proceedings of the National Academy of Sciences 119 (9): 8. doi:10.1073/pnas.2101084119. February 14.
- Lubowski, R. N., A. J. Plantinga, and R. Stavins. 2008. “What Drives Land-Use Change in the United States.” Land Economics 84 (4): 529–555. doi:10.3368/le.84.4.529.
- Miller, S. 2021. “The Millions of Tons of Carbon Emissions that Don’t Officially Exist.” The New Yorker. December 8. https://newyorker.com/news/annals-of-a-warming-planet/the-millions-of-tons-of-carbon-emissions-that-dont-officially-exist .
- Searchinger, Timothy, R. Heimlich, R A. Houghton, F. Dong, A. Elobeid, J. Fabiosa, S. Tokgoz, et al. 2008. “Use of U.S. Croplands for Biofuels Increases Greenhouse Gases through Emissions from Land-Use Change.” Science 319 (5867): 1238–1240. doi:10.1126/science.1151861.
- Additional Reading
- Abt, K. L., R. C. Abt, and C. Galik. 2012. “Effect of Bioenergy Demands and Supply Response on Markets, Carbon, and Land Use.” Forest Science 58 (5): 523–539. doi:10.5849/forsci.11-055.
- Abt, R., K. L. Abt, F. W. Cubbage, and J.D. Henderson. 2010. “Effect of Policy-based Bioenergy Demand on Southern Timber Markets: A Case Study of North Carolina.” Biomass & Bioenergy 34 (12): 1679–1686. doi:10.1016/j.biombioe.2010.05.007.
- Galik, C., and R. Abt. 2015. “Sustainability Guidelines and Forest Market Response: An Analysis of European Union Pellet Demand in the Southeastern United States.” GCB Bioenergy 8 (3): 658–669. doi:10.1111/gcbb.12273.
- Khanna, M., P. Dwivedi, and R. Abt. 2016. “Is Forest Bioenergy Carbon Neutral or Worse than Coal? Implications of Carbon Accounting Methods.” International Review of Environmental and Resource Economics 10: 299–346. doi:10.1561/101.00000089.
- Lubowski, R.N., A. J. Plantinga, and R. Stavins. 2003. “Determinants of Land-Use Change in the United States: 1982-1997.” Discussion Paper 03-47. Resources for the Future. Washington, DC. https://rff.org/Documents/RFF-DP-03-47.pdf
- Staffell, Ian. 2017. “Measuring the Progress and Impacts of Decarbonising British Electricity.” Energy Policy 102: 463–475. doi:10.1016/j.enpol.2016.12.037.