Publications

This page contains all my publications; for more details, see my Google Scholar profile. Article PDFs or preprint PDFs for all articles are linked below. To get a copy of the final article pdf of any preprint, please contact me directly.

Latest work

• Irvine, P.J. and Keith, D.W. (2021), ‘The US Can’t Go it Alone on Solar Geoengineering’, Environmental Affairs, 13th April 2021
• Irvine, P.J. et al. (2021, preprint), ‘Expert judgements on solar geoengineering research priorities and challenges’, EarthArxiv, preprint (article pdf)
• Dai Z. et al. (2021), ‘Elicitation of US and Chinese expert judgments show consistent views on solar geoengineering’, Humanities and Social Sciences Communications, 8 (18)

Peer-reviewed Articles

• Dai Z. et al. (2021), ‘Elicitation of US and Chinese expert judgments show consistent views on solar geoengineering’, Humanities and Social Sciences Communications, 8 (18) (article pdf)
• Fettweis X. et al. (2021), ‘Brief Communication: Reduction of the future Greenland ice sheet surface melt with the help of solar geoengineering’, The Cryosphere Discussions, TBD
• Da-Allada C.Y. et al. (2020), ‘Changes in West African Summer Monsoon Precipitation under Stratospheric Aerosol Geoengineering’, Earth’s Future, 8 (7) (article pdf)
• Irvine P.J. and Keith, D.W. (2020), ‘Halving warming with stratospheric aerosol geoengineering moderates policy-relevant climate hazards’, Environmental Research Letters, 15, 044011 (article pdf)
• Macmartin, D.G. et al. (2019), ‘Technical characteristics of solar geoengineering deployment and implications for governance’, Climate Policy, 19 (10), 1325-1339 (preprint)
• Irvine P.J. et al. (2019), ‘Halving warming with idealized solar geoengineering moderates key climate hazards in all regions’, Nature Climate Change, 9, 295-299 (preprint)
• Svoboda, T. et al. (2019), ‘The potential for climate engineering with stratospheric sulfate aerosol injections to ameliorate climate injustice’, Journal of Global Ethics (preprint)
• Irvine P.J. et al. (2018), ‘Brief communication: Understanding solar geoengineering’s potential to limit sea level rise requires attention from cryosphere experts’, The Cryosphere, 12 (7), 2501-2513 (article pdf)
• Parker, A. and Irvine, P.J. (2018), ‘The risk of Termination Shock from solar geoengineering’, Earth’s Future, 6 (3), 456-467 (article pdf)
• Irvine, P.J. et al. (2017), ‘Towards a comprehensive climate impacts assessment of solar geoengineering’, Earth’s Future, 5 (1), 93-106 (article pdf)
• Keith, D.W. and P.J. Irvine (2016), ‘Solar geoengineering could substantially reduce climate risks – A research hypothesis for the next decade’, Earth’s Future, 4 (11), 549-559 (article pdf)
• Irvine, P.J. et al. (2016), ‘An overview of the Earth system science of solar geoengineering’, Wiley Interdisciplinary Reviews: Climate Change, 7 (6), 815-833 (article pdf)
• Reynolds, J.L. et al. (2016), ‘Five solar geoengineering tropes that have outstayed their welcome’, Earth’s Future, 4 (12), 562-568 (article pdf)
• McCormack, C.G. et al. (2016), ‘Key impacts of climate engineering on biodiversity and ecosystems, with priorities for future research’, Journal of Integrative Environmental Sciences, 13 (2-4), 103-128 (article pdf)
• Glienke, S. et al. (2015), ‘The impact of geoengineering on vegetation in experiment G1 of the Geoengineering Model Intercomparison Project (GeoMIP)’, Journal of Geophysical Research: Atmospheres, 120 (19), 10196-10213 (article pdf)
• Kravitz, B. et al. (2015), ‘The Geoengineering Model Intercomparison Project Phase 6 (GeoMIP6): Simulation Design and Preliminary Results”, Geoscientific Model Development, 8, 3379-3392 (article pdf)
• Reichwein, D. et al. (2015), ‘State responsibility for climate engineering under international law’, Climate Law, 5 (2-4), 142-181 (preprint)
• Heyen, D. et al. (2015), ‘Regional disparities in SRM impacts: the challenge of diverging preferences’, Climatic Change, 133 (4), 557-563 (article pdf)
• Svoboda, T., and P.J. Irvine (2015), ‘Response to comments on “Compensation for climate engineering: ethical and technical difficulties”’, Environmental Policy and Ethics, 18 (1), 103-105 (article pdf)
• Kravitz, B. et al. (2014), ‘A Multi-Model Assessment of Regional Climate Disparities Caused by Solar Geoengineering’, Environmental Research Letters 9 (7), 074013 (article pdf)
• Svoboda, T., and P.J. Irvine (2014), ‘Compensation for climate engineering: ethical and technical difficulties’, Environmental Policy and Ethics 17 (2), 157-174 (preprint)
• Irvine, P.J. et al. (2014), ‘Key factors governing uncertainty in the response to sunshade geoengineering from a comparison of the GeoMIP ensemble and a perturbed parameter ensemble’, Journal of Geophysical Research: Atmospheres 119 (13), 7946-7962 (article pdf)
• Schäfer, S., A. Maas, P.J. Irvine, (2013), ‘Bridging the Gaps in Interdisciplinary Research on Solar Radiation Management’, GAIA-Ecological Perspectives for Science and Society 22 (4), 242-247 (preprint)
• Kravitz, B., et al. (2013), ‘An energetic perspective on hydrologic cycle changes in the Geoengineering Model Intercomparison Project’, Journal of Geophysical Research: Atmospheres 118 (23), 13,087-13,102 (article pdf)
• Tilmes, S., et al. (2013), ‘The hydrological impact of geoengineering in the Geoengineering Model Intercomparison Project (GeoMIP)’, Journal of Geophysical Research: Atmospheres 118 (19), 11,036-11,058 (article pdf)
• Jones, A., et al. (2013), ‘The impact of abrupt suspension of solar radiation management (termination effect) in experiment G2 of the Geoengineering Model Intercomparison Project (GeoMIP)’, Journal of Geophysical Research: Atmospheres 118 (17), 9743-9752 (article pdf)
• Kravitz, B., et al. (2013), ‘Climate model response from the Geoengineering Model Intercomparison Project (GeoMIP)’, Journal of Geophysical Research: Atmospheres 118 (15), 8320-8332 (temp)
• Couce, E., et al. (2013), ‘Tropical coral reef habitat in a geoengineered, high-CO2 world’, Geophysical Research Letters 40 (9), 1799-1805 (article pdf)
• Irvine, P. J., et al. (2013), ‘An efficient method to generate a perturbed parameter ensemble of a fully coupled AOGCM without flux-adjustment’, Geosci. Model Dev. 6, 1447-1462 (article pdf)
• Tuana, N., et al. (2012), ‘Towards Integrated Ethical and Scientific Analysis of Geoengineering: A Research Agenda’, Environmental Policy and Ethics 15 (2), 136-157 (preprint)
• Irvine, P.J., R.L. Sriver, and K. Keller (2012), ‘Tension between reducing sea-level rise and global warming through solar radiation management’, Nature Climate Change 2, 97-100 (preprint)
• Irvine, P.J., A. Ridgwell, and D.J. Lunt (2011), ‘Climatic effects of surface albedo geoengineering’, Journal of Geophysical Research: Atmospheres 116, D24112 (article pdf)
• Irvine, P.J., A. Ridgwell, and D.J. Lunt (2010), ‘Assessing the regional disparities in geoengineering impacts’, Geophysical Research Letters 37, L18702 (article pdf)
• Irvine, P.J., et al. (2009), ‘The fate of the Greenland Ice Sheet in a geoengineered, high CO2 world’, Environmental Research Letters 4, 045109 (article pdf)
• Singarayer, J. S., A. Ridgwell, and P.J. Irvine (2009), ‘Assessing the benefits of crop albedo bio-geoengineering’, Environmental Research Letters 4, 045110 (article pdf)

Comments, blog posts, and other non-peer-reviewed articles

• Irvine, P.J. and Keith, D.W. (2021), ‘The US Can’t Go it Alone on Solar Geoengineering’, Environmental Affairs, 13th April 2021
• Irvine, P.J. et al. (2021, preprint), ‘Expert judgements on solar geoengineering research priorities and challenges’, EarthArxiv, preprint (article pdf)
• Burns, E. et al. (2019), ‘Technology Factsheet: Solar Geoengineering’, Belfer Center for Science and International Affairs, Harvard Kennedy School (article pdf)
• Irvine, P.J. and D.W. Keith (2019), ‘The Science and Technology of Solar Geoengineering: A Compact Summary’, Governance of the Deployment of Solar Geoengineering, Harvard Project on Climate Agreements, 19-25 (full report pdf)
• Burns E. et al. (2019), ‘Solar geoengineering research Zotero library’, Harvard’s Solar Geoengineering Research Blog
• Irvine, P.J. (2018), ‘An alternative view: Could Geoengineering Cause a Climate War? by Clive Hamilton’, BBC Focus, 320, 70-77
• Irvine, P.J. (2018), ‘Less rain but still wetter and greener?’, Harvard’s Solar Geoengineering Research Blog
• Irvine, P.J. et al. (2014), ‘CORRESPONDENCE: Solar radiation management could be a game changer’, Nature Climate Change 4, 10, 842-842 (article pdf)
• Kravitz, B. et al. (2013), ‘Robust Results From Climate Model Simulations of Geoengineering’, EOS 94, 33 (article pdf)
• Schäfer, S. et al. (2013), ‘Field tests of solar climate engineering’, Nature Climate Change 3, 9, 766-766 (article pdf)

Reports

• Schäfer, S. et al. (2015), The EuTRACE Project Assessment Report. Funded by the European Union’s Seventh Framework Programme under Grant Agreement 306993. Contribution as a lead author. (report pdf)
• Schäfer, S. et al. (2015), Executive Summary of the EuTRACE Project Assessment Report. Funded by the European Union’s Seventh Framework Programme under Grant Agreement 306993. Contribution as a lead author. (report pdf)
• Clarke, L. et al. (2014), ‘Assessing Transformation Pathways’ In: Climate Change 2014: Mitigation of Climate Change. Contribution of Working Group III to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change. Contribution as a contributing author (report pdf)

PhD Thesis

• Irvine, P. J. (2012), ‘Climatic effects of solar radiation management geoengineering’, University of Bristol PhD (PhD pdf)