PEER-REVIEWED PUBLICATIONS
Dean, J., Kiendler-Scharr, A., Mengis, N., Rudich, Y., Schepanski, K. and Zimmermann, R. Above us only sky. Commun Earth Environ (2021). doi.org/10.1038/s43247-021-00245-0
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Matthews, H. D., Tokarska, K.B., Rogelj, J., Smith C. J., MacDougall A. H., Haustein K., Mengis N., Sippel S., Forster P. M. and Knutti R. An integrated approach to quantifying uncertainties in the remaining carbon budget. Commun Earth Environ (2021). doi.org/10.1038/s43247-020-00064-9
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Boettcher, M., Brent, K., Buck, H. J., Low, S., McLaren, D. and Mengis, N. (2021) Navigating Potential Hype and Opportunity in Governing Marine Carbon Removal. Frontiers in Climate, doi.org/10.3389/fclim.2021.664456.
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Kvale, K. F. , Koeve, W. and Mengis, N. (2021) Calcifying Phytoplankton Demonstrate an Enhanced Role in Greenhouse Atmospheric CO2 Regulation. Frontiers in Marine Science, doi.org/10.3389/fmars.2020.583989
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Thoni, T., Beck, S., Borchers, M., Förster, J., Görl, K., Hahn, A., Mengis, N. , Stevenson, A.and Thrän, D. (2020) Deployment of Negative Emissions Technologies at the national level: A need for holistic feasibility assessments. Frontiers in Climate, doi.org/10.3389/fclim.2020.590305.
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Mengis, N. , Keller, D. P. , MacDougall, A., Eby, M., Wright, N., Meissner, K. J., Oschlies, A. , Schmittner, A., Matthews, H. D. and Zickfeld, K. (2020) Evaluation of the University of Victoria Earth System Climate Model version 2.10 (UVic ESCM 2.10). Geoscientific Model Development, doi.org/10.5194/gmd-13-4183-2020.
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Matthews, H. D., Tokarska, K. B. , Nicholls, Z. R. J. , Rogelj, J., Canadell, J. G. , Friedlingstein, P. , Frölicher, T. L. , Forster, P. M., Gillett, N. P. , Ilyina, T. , Jackson, R. B. , Jones, C. D. , Koven, C. , Knutti, R. , MacDougall, A. H., Meinshausen, M. , Mengis, N. , Séférian, R. and Zickfeld, K. (2020) Opportunities and challenges in using remaining carbon budgets to guide climate policy. Nature Geoscience, doi.org/10.1038/s41561-020-00663-3.
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Kreuter, J., Matzner, N., Baatz, C., Keller, D. P., Markus, T., Wittstock, F., Bernitt, U., and Mengis, N.: Unveiling assumptions through interdisciplinary scrutiny: Observations from the German Priority Program on Climate Engineering (SPP 1689), Climatic Change (2020), doi.org/10.1007/s10584-020-02777-4
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MacDougall, A. H., Frölicher, T. L., Jones, C. D., Rogelj, J., Matthews, H. D., Zickfeld, K., Arora, V. K., Barrett, N. J., Brovkin, V., Burger, F. A., Eby, M., Eliseev, A. V., Hajima, T., Holden, P. B., Jeltsch-Thömmes, A., Koven, C., Mengis, N., Menviel, L., Michou, M., Mokhov, I. I., Oka, A., Schwinger, J., Séférian, R., Shaffer, G., Sokolov, A., Tachiiri, K., Tjiputra , J., Wiltshire, A., and Ziehn, T.: Is there warming in the pipeline? A multi-model analysis of the Zero Emissions Commitment from CO2, Biogeosciences (2020), doi:10.5194/bg-17-2987-2020
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Mengis, N., Matthews, H.D. Non-CO2 forcing changes will likely decrease the remaining carbon budget for 1.5°C, npj Clim. Atmos. Sci. (2020), doi:10.1038/s41612-020-0123-3
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Jones, C. D., Frölicher, T. L., Koven, C., MacDougall, A. H., Matthews, H. D., Zickfeld, K., Rogelj, J., Tokarska, K. B., Gillett, N. P., Ilyina, T., Meinshausen, M., Mengis, N., Séférian, R., Eby, M., and Burger, F. A.: The Zero Emissions Commitment Model Intercomparison Project (ZECMIP) contribution to C4MIP: quantifying committed climate changes following zero carbon emissions, Geosci. Model Dev. (2019), doi:10.5194/gmd-12-4375-2019.
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Chavaillaz, Y., P. Roy, A.-I. Partanen, L. Da Silva, E. Bresson, N. Mengis, D. Chaumont, and H. D. Matthews, Exposure to excessive heat and impacts on labour productivity linked to cumulative CO2 emissions, Scientific Reports (2019), doi:10.1038/s41598- 019-50047-w
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Mengis, N., D.P. Keller, W. Rickels, M. Quaas, and A. Oschlies, Climate engineering–induced changes in correlations between Earth system variables—implications for appropriate indicator selection, Climatic Change (2019), doi:10.1007/s10584-019-02389-7
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Mengis, N., A.-I. Partanen, J. Jalbert, and H. D. Matthews. 1.5°C carbon budget dependent on carbon cycle uncertainty and future non-CO2 forcing, Scientific Reports (2018), doi:10.1038/s41598-018-24241-1
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Mengis, N., D. P. Keller, and A. Oschlies. Systematic Correlation Matrix Evaluation (SCoMaE) – a bottom-up, science-led approach to identifying indicators, Earth System Dynamics (2018), doi:10.5194/esd-9-15-2018
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Oschlies, A., H. Held, D. P. Keller, K. Keller, N. Mengis, M. Quaas, W. Rickels, and H. Schmidt. Indicators and metrics for the assessment of Climate Engineering, Earth’s Future (2017), doi:10.1002/2016EF000449
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Mengis, N., T. Martin, D. P. Keller, and A. Oschlies. Assessing climate impacts and risks of ocean albedo modification in the Arctic, Journal of Geophysical Research - Oceans (2016), doi:10.1002/2015JC011433
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Mengis, N., D. P. Keller, M. Eby, and A. Oschlies. Uncertainty in the response of transpiration to CO2 and implications for climate change. Environmental Research Letters (2015), doi:10.10881748-9326109094001
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in review
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Mengis, N., Keller, D. P., MacDougall, A., Eby, M., Wright, N., Meissner, K. J., Oschlies, A., Schmittner, A., Matthews, H. D., and Zickfeld, K.: Evaluation of the University of Victoria Earth System Climate Model version 2.10 (UVic ESCM 2.10), Geosci. Model Dev. Discuss., https://doi.org/10.5194/gmd-2019-373, accepted, 2020.
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in preparation
Matthews H. D., K. Tokarska, J. Rogelj, P. Forster, K. Haustein, C. Smith, A. MacDougall, N. Mengis, S. Sippel, and R. Knutti, A new framework for understanding and quantifying uncertainties in the remaining carbon budget
Partanen, A.-I., N. Mengis, J. Jalbert, and H. D. Matthews. The effect of aerosol forcing and transient climate response uncertainty on estimates of the 1.5â—¦C carbon budget, to be submitted to Nature Geosciences
Hadziosmanovic M., et al., A path to 1.5°C: using corporate emissions disclosure to inform industry climate targets, to be submitted to Journal of Cleaner Production
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MacIsaac A., H. D. Matthews, N. Mengis, and K. Zickfeld, The greenhouse gas climate commitment and reversibility of peak warming from historical emissions