Such a goal of atmospheric restoration provides a positive framework for change at a time when climate action is desperately needed. Methane removal and atmospheric restoration Zeolites and other technologies should be evaluated and pursued for reducing methane concentrations in the atmosphere from 1,860 ppb to preindustrial levels of ~750 ppb. Technol. Data 10, 405–448 (2018). Methane removal offers another solution to climate change. and JavaScript. volume 2, pages436–438(2019)Cite this article, Matters Arising to this article was published on 23 March 2020. 5, 6397–6421 (2015). Get time limited or full article access on ReadCube. Science 337, 713–717 (2012). & Shine, K. P. Geophys. Soc. Data 8, 697–751 (2016). Chem. (2020), Nature Sustainability Environ. We acknowledge support for general research on methane from the Gordon and Betty Moore Foundation (GBMF5439; R.B.J. 10.1038/s41893-019-0299-x. 26, 67–76 (2010). In Nature Sustainability 10, p. 405. Lett. Nature 536, 317–321 (2016). Original Article: Methane removal and atmospheric restoration. The study said that molecule-for-molecule, methane traps 84 times more heat than CO2. Nature Sustainability. Am. ), US National Science Foundation (CHE-1660611; E.I.S. (2020), Nature Sustainability | Lackner also raises the possibility of curtailing other natural emission sources of CH 4, rather than removing CH 4 from the atmo-sphere1. Jackson, R. B.; Solomon, E. I.; Canadell, J. G.; Cargnello, M.; Field, C. B. Sci. Clim. Boucher, O. Jackson, R. B. https://doi.org/10.1038/s41893-019-0299-x, DOI: https://doi.org/10.1038/s41893-019-0299-x, Angewandte Chemie International Edition Whereas, methane concentrations are much lower —yet more potent — and could, therefore, be reduced to pre-industrial levels by removing just 3 billion tonnes of the gas from the atmosphere. Environ. et al. J. Nature Sustainability. Google Scholar. "Zeolites and other technologies should be evaluated and pursued for reducing methane concentrations in the atmosphere from 1,860 ppb to preindustrial levels of ~750 ppb. Chris Field | cfield@stanford.edu | Global Ecology and Climate Solutions Lab Jerry Yang and Akiko Yamazaki Environment and Energy Building (Y2E2) | 473 Via Ortega | Stanford, … This Comment is a contribution of the Global Carbon Project (globalcarbonproject.org). 60, 68–96 (2017). You are using a browser version with limited support for CSS. J. Google Scholar. ), the Stanford Natural Gas Initiative (R.B.J., M.C. Commun. Konsolakis, M. ACS Catal. Most climate efforts focus on carbon dioxide, but methane is in some ways a worse offender. Chem. Snyder, B. E. R. et al. The paper “Methane removal and atmospheric restoration” has been published in the journal Nature Sustainability. J. Mol. stream & Salzman, J. 4, 1694 (2013). 8, 8306–8313 (2018). Sign up for the Nature Briefing newsletter — what matters in science, free to your inbox daily. Etminan, M., Myhre, G., Highwood, E. J. A 5, 10328–10337 (2017). In Nature Sustainability 10, p. 405. van Vuuren, D. P. et al. !��.�G�s��C(��|���7���&d�b^-�����:���UX�W�%��5�f�"0 ��ga��*��r�\�������A��*�{8��{N7��s��_����"�Gx�e��58a�!��X����;��+}H�9������F���i����r�Ɋ���y�mBU��M2�(�"�(T��SnD�j��@��du��NV#Q�EiX|�P�8J�ShI�"��r ʫ*s���������m�!�8��@�lN��P����p~{�o�޽���.�;_��pr�O�?��`BC�Q�2�̀��� NATURE PUBLISHING GROUP: 436–38. 44, 3343–3345 (2010). We also acknowledge H. M. Rhoda and S. Coffman for assistance with the manuscript and artwork, respectively. As noted in our paper3, any source of methane that results in higher-than-background concentrations in air would lower the energy requirement and cost of methane removal. & Folberth, G. A. Atmos. removal, even when atmospheric restoration is achieved3. Jackson, R.B., Solomon, E.I., Canadell, J.G. Earth Syst. (2020), C — Journal of Carbon Research Tavoni, M. & Socolow, R. Clim. Contact us. 4 0 obj and J.G.C. This unusual idea spelled out in a paper published in the online monthly journal Nature Sustainability proposed developing systems that attain this aim. Mater. Res. Cargnello, M. et al. Change 8, 391–397 (2018). B��f���߿@� ��zC�d�``�=BЩy�ɋ��w�wov\}x{���2�a�/fY��5��}� �w�1zx��W���}�������p�d�x1�ֻ��o{�(l�+��aw *�x��,Q�(� �5�� �1\9}�nB�r�\�w��`$ ���.ڍ������;8vݥ���^?�����U����y�����p�p��1�ְ�g&�\���܁�,�s���%�&�,��F���X䫰t� �|'� c��Ϩ�]��$A/P�%Z��q��=�w�(>5i�o D�! Nat Sustain 2, 436–438 (2019). 123, 155–161 (1997). Article  World Energy Outlook 2017 (International Energy Agency, 2017); https://www.iea.org/weo2017/. Get the most important science stories of the day, free in your inbox. %PDF-1.3 136, 3522–3529 (2014). The counterintuitive idea, outlined in Nature Sustainability, would drag the concentration of methane in the atmosphere back down to pre-industrial levels. DOI: 10.1038/s41893-019-0299-x. de_Richter, R., Ming, T., Davies, P., Liu, W. & Caillol, S. Prog. Methane removal and atmospheric restoration. Zeolites and other technologies should be evaluated and pursued for reducing methane concentrations in the atmosphere from 1,860 ppb to preindustrial levels of ~750 ppb. https://doi.org/10.1038/s41893-019-0299-x, High‐Valent Metal–Oxo Species at the Nodes of Metal–Triazolate Frameworks: The Effects of Ligand Exchange and Two‐State Reactivity for C−H Bond Activation, A Structured Approach for the Mitigation of Natural Methane Emissions—Lessons Learned from Anthropogenic Emissions, Practical constraints on atmospheric methane removal, Catalytic performance of Pd catalyst supported on Zr:Ce modified mesoporous silica for methane oxidation, Reply to: Practical constraints on atmospheric methane removal. 12, 110201 (2017). Tomkins, P., Ranocchiari, M. & van Bokhoven, J. Thank you for visiting nature.com. Ming, T., de_Richter, R., Shen, S. & Caillol, S. Environ. x���nd�uǿ�ST� �V߭�� �ZF�,�Lj�|���L�\F$G���%o� ����?u�M)0�}���oun��¯�w![�r��2��2�o���m���! Such a goal of atmospheric restoration provides a positive framework for change at a time when climate action is desperately needed. Image Credit: Shutterstock. A. Acc. To obtain “Methane Removal and Atmospheric Restoration.” NATURE SUSTAINABILITY 2 (6). Research Area: Climate change mitigation and adaptation. Nature Sustainability Journal Volume/Pages: ... Zeolites and other technologies should be evaluated and pursued for reducing methane concentrations in the atmosphere from 1,860 ppb to preindustrial levels of ~750 ppb. Jackson, R. B. et al. (2020), Chemical Engineering Journal Zeolites and other technologies should be evaluated and pursued for reducing methane concentrations in the atmosphere from 1,860 ppb to preindustrial levels of ~750 ppb. Nat. Article  Sci. Internet Explorer). Tsai, M.-L. et al. Tags: carbon chang'e Climate Climate warming co2 dioxide methane Alexandru Micu Bracco, S. et al. DOI: 10.1038/s41893-019-0299-x. Matters Arising, Nature Sustainability "pw��F..����@����6��v{.�w7&[s k8��H��C� ��"����C��n/���iҸuD#�b�$��|�\���_�_�.J�n_�O��E/n��K]�y�|��o�/���/�W�q��w�g6�gy���חm0��fo���. ), and the Australian National Environmental Science Program – Earth Systems and Climate Change Hub (J.G.C.). Change 118, 1–14 (2013). R. B. Jackson. Department of Earth System Science and Stanford Woods Institute for the Environment, Stanford University, Stanford, CA, USA, Precourt Institute for Energy, Stanford University, Stanford, CA, USA, Department of Chemistry and SLAC National Accelerator Laboratory, Stanford University, Stanford, CA, USA, Global Carbon Project, CSIRO Oceans and Atmosphere, Canberra, ACT, Australia, Department of Chemical Engineering and SUNCAT Center for Interface Science and Catalysis, Stanford University, Stanford, CA, USA, You can also search for this author in