Global carbon budget 2023 P Friedlingstein, M O'sullivan, MW Jones, RM Andrew, DCE Bakker, ... Earth System Science Data 15 (12), 5301-5369, 2023 | 11054* | 2023 |
Global climate projections. Chapter 10 GA Meehl, TF Stocker, WD Collins, P Friedlingstein, AT Gaye, JM Gregory, ... | 7496 | 2007 |
Long-term climate change: projections, commitments and irreversibility M Collins, R Knutti, J Arblaster, JL Dufresne, T Fichefet, P Friedlingstein, ... Cambridge University Press, 2013 | 5394 | 2013 |
Europe-wide reduction in primary productivity caused by the heat and drought in 2003 P Ciais, M Reichstein, N Viovy, A Granier, J Ogée, V Allard, M Aubinet, ... Nature 437 (7058), 529-533, 2005 | 4515 | 2005 |
Irreversible climate change due to carbon dioxide emissions S Solomon, GK Plattner, R Knutti, P Friedlingstein Proceedings of the national academy of sciences 106 (6), 1704-1709, 2009 | 4157 | 2009 |
The impacts of climate change on water resources and agriculture in China S Piao, P Ciais, Y Huang, Z Shen, S Peng, J Li, L Zhou, H Liu, Y Ma, ... Nature 467 (7311), 43-51, 2010 | 3605 | 2010 |
Climate–carbon cycle feedback analysis: results from the C4MIP model intercomparison P Friedlingstein, P Cox, R Betts, L Bopp, W von Bloh, V Brovkin, P Cadule, ... Journal of climate 19 (14), 3337-3353, 2006 | 3369 | 2006 |
The scenario model intercomparison project (ScenarioMIP) for CMIP6 BC O'Neill, C Tebaldi, DP Van Vuuren, V Eyring, P Friedlingstein, G Hurtt, ... Geoscientific Model Development 9 (9), 3461-3482, 2016 | 3016 | 2016 |
Temporary reduction in daily global CO2 emissions during the COVID-19 forced confinement C Le Quéré, RB Jackson, MW Jones, AJP Smith, S Abernethy, ... Nature climate change 10 (7), 647-653, 2020 | 2535 | 2020 |
Trends in the sources and sinks of carbon dioxide C Le Quéré, MR Raupach, JG Canadell, G Marland, L Bopp, P Ciais, ... Nature geoscience 2 (12), 831-836, 2009 | 2442 | 2009 |
Greening of the Earth and its drivers Z Zhu, S Piao, RB Myneni, M Huang, Z Zeng, JG Canadell, P Ciais, ... Nature climate change 6 (8), 791-795, 2016 | 2284 | 2016 |
The carbon cycle and atmospheric carbon dioxide IC Prentice, GD Farquhar, MJR Fasham, ML Goulden, M Heimann, ... Climate change 2001: the scientific basis, Intergovernmental panel on …, 2001 | 2214 | 2001 |
A dynamic global vegetation model for studies of the coupled atmosphere‐biosphere system G Krinner, N Viovy, N de Noblet‐Ducoudré, J Ogée, J Polcher, ... Global Biogeochemical Cycles 19 (1), 2005 | 2210 | 2005 |
Climate change projections using the IPSL-CM5 Earth System Model: from CMIP3 to CMIP5 JL Dufresne, MA Foujols, S Denvil, A Caubel, O Marti, O Aumont, ... Climate dynamics 40, 2123-2165, 2013 | 1929 | 2013 |
Recent patterns and mechanisms of carbon exchange by terrestrial ecosystems DS Schimel, JI House, KA Hibbard, P Bousquet, P Ciais, P Peylin, ... Nature 414 (6860), 169-172, 2001 | 1907 | 2001 |
Global carbon budget 2018 C Le Quéré, RM Andrew, P Friedlingstein, S Sitch, J Hauck, J Pongratz, ... Earth System Science Data 10 (4), 2141-2194, 2018 | 1829 | 2018 |
Technical summary TF Stocker, D Qin, GK Plattner, LV Alexander, SK Allen, NL Bindoff, ... Climate change 2013: the physical science basis. Contribution of Working …, 2013 | 1545 | 2013 |
Biophysical and economic limits to negative CO2 emissions P Smith, SJ Davis, F Creutzig, S Fuss, J Minx, B Gabrielle, E Kato, ... Nature climate change 6 (1), 42-50, 2016 | 1503 | 2016 |
The dominant role of semi-arid ecosystems in the trend and variability of the land CO2 sink A Ahlström, MR Raupach, G Schurgers, B Smith, A Arneth, M Jung, ... Science 348 (6237), 895-899, 2015 | 1371 | 2015 |
Evaluation of the terrestrial carbon cycle, future plant geography and climate‐carbon cycle feedbacks using five Dynamic Global Vegetation Models (DGVMs) S Sitch, C Huntingford, N Gedney, PE Levy, M Lomas, SL Piao, R Betts, ... Global change biology 14 (9), 2015-2039, 2008 | 1357 | 2008 |