Event Attribution Case Study Citations

Posted by: chaamjamal on: July 10, 2018

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Ackerman, S. (2006). Meteorology: Understanding the Atmosphere (Jones and Bartlett Titles in Physical Science). Cengage Learning.
Adger, N. (2003). Adaptation to climate change in the developing world. Progress in development studies , 3.3 (2003): 179-195.
Aggarwal, C. (2015). Outlier analysis. Springer International PublishingAllen, M. (2002). Constraints on future changes in climate and the hydrologic cycle. Nature , 419.6903 (2002): 224-232.
Allen, M. (2003). Liability for climate change. Nature , 421.6926 (2003): 891-892.
Allen, M. (2009). Warming caused by cumulative carbon emissions towards the trillionth tonne. Nature , 458.7242 (2009): 1163-1166.
Beder, S. (1999). Climatic Confusion and Corporate Collusion: Hijacking the Greenhouse Debate. The Ecologist , (1999): 119-122.
EVENT ATTRIBUTION AND THE PRECIPITATION RECORD FOR ENGLAND AND WALES, JAMAL MUNSHI, 2017 17
Boardman, J. (2008). Don’t blame global warming for floods . Retrieved 2017, from The Guardian: https://www.theguardian.com/society/2000/nov/08/guardiansocietysupplement9
Boardman, J. (2008). Don’t blame the climate. Retrieved 2017, from The Guardian: https://www.theguardian.com/society/2000/nov/08/guardiansocietysupplement9
Boardman, J. (2003). Muddy floods on the South Downs, southern England: Problem and responses. Retrieved 2017, from Researchgate: https://www.researchgate.net/publication/222674579_Muddy_floods_on_the_South_Downs_southern_England_Problem_and_responses
Botzen, W. (2008). Cumulative CO2 emissions: shifting international responsibilities for climate debt. Climate Policy , 8.6, 569-576.
Bouwer, L. (2011). Have disaster losses increased due to anthropogenic climate change? Bulletin of the American Meteorological Society , 92.1 (2011): 39-46.
Bowley, A. (1928). The standard deviation of the correlation coefficient. Journal of the American Statistical Association , 31-34.
Box, G. (1994). Time series analysis: forecasting and control. Englewood Cliffs, NJ: Prentice Hall.
Burton, I. (1997). Vulnerability and adaptive response in the context of climate and climate change. Climatic Change , 36.1 (1997): 185-196.
Callendar, G. (1938). The Artificial Production of Carbon Dioxide and Its Influence on Climate. Quarterly Journal of the Royal Meteorological Society , 64: 223-40.
Chatfield, C. (1989). The Analysis of Time Series: An Introduction. NY: Chapman and Hall/CRC.
Coumou, D. (2012). A decade of weather extremes.”. Nature climate change , 2.7 (2012): 491-496.
Curry, J. (2011). Climate science and the uncertainty monster. Bulletin of the American Meteorological Society , 92.12 (2011): 1667-1682.
Deser, C. (2012). Communication of the role of natural variability in future North American climate. Nature Climate Change , 2.11 (2012): 775-779.
Dettinger, M. (2011). Climate change, atmospheric rivers, and floods in California–a multimodel analysis of storm frequency and magnitude changes. JAWRA Journal of the American Water Resources Association , 47.3 (2011): 514-523.
Dixon, W. (1950). Analysis of extreme values. The Annals of Mathematical Statistics , 21.4 (1950): 488-506.
Draper&Smith. (1998). Applied Regression Analysis. Wiley.
Easterling, D. (2009). Is the climate warming or cooling? Geophysical Research Letters , 36.8 (2009).
Easterling-Evans. (2000). Observed variability and trends in extreme climate events: a brief review. Bulletin of the American Meteorological Society , 81.3 (2000): 417-425.
Easterling-Meehl. (2000). Climate extremes: observations, modeling, and impacts. Science , 289.5487 (2000): 2068-2074.
Finkelstein, I. (2011). The Large Stone Structure” in Jerusalem: Reality versus Yearning. Zeitschrift des Deutschen Palästina-Vereins , (2011): 1-10.
Flannigan, M. (2000). Climate change and forest fires. Science of the total environment , 262.3 (2000): 221-229.
EVENT ATTRIBUTION AND THE PRECIPITATION RECORD FOR ENGLAND AND WALES, JAMAL MUNSHI, 2017 18
Flynn, M. (2013). Ecological diagnosis from biotic data by Hurst exponent and the R/S analysis adaptation to short time series. Biomatematica , 23 (2013): 1-14.
Frame, D. J. (2011). The problems of markets: science, norms and the commodification of carbon. The Geographical Journal , 177.2 (2011): 138-148.
Gillett, N. (2013). Constraining the ratio of global warming to cumulative CO2 emissions using CMIP5 simulations. Journal of Climate , 26.18 (2013): 6844-6858.
Gillett, N. (2004). Detecting the effect of climate change on Canadian forest fires. Geophysical Research Letters , 31.18 (2004).
Hansen, J. (2016). Ice melt, sea level rise and superstorms:. Atmos. Chem. Phys. , 16, 3761–3812, 2016.
Hansen, J. (1981). Impact of Increasing Atmospheric Carbon Dioxide. Science , 213: 957-66.
Holm, S. (1979). A simple sequentially rejective multiple test procedure. Scandinavian Journal of Statistics , 6:2:65-70.
Holman, I. (2003). The contribution of soil structural degradation to catchment flooding: a preliminary investigation of the 2000 floods in England and Wales. Hydrology and Earth System Sciences Discussions , 7.5 (2003): 755-766.
Huggel, C. (2013). Loss and damage attribution. Nature Climate Change , 3.8 (2013): 694-696.
Hulme, M. (2014). Attributing weather extremes to climate change. Progress in Physical Geography , 38.4 (2014): 499-511.
Hulme, M. (2011). Is weather event attribution necessary for adaptation funding? Science , 334.6057 (2011): 764-765.
Huntingford, C. (2014). Potential influences on the United Kingdom’s floods of winter 2013/14. Nature Climate Change , 4.9 (2014): 769-777.
Huq, S. (2004). Mainstreaming adaptation to climate change in least developed countries (LDCs). Climate Policy , 4.1 (2004): 25-43.
IPCC. (2014). Climate Change 2013 The Physical Science Basis. Geneva: IPCC/UNEP.
IPCC. ( 2014). Climate Change 2014–Impacts, Adaptation and Vulnerability: Regional Aspects. Cambridge, UK: Cambridge University Press.
IPCCAR4. (2007). AR4 WG1 Chapter 7: Couplings between changes in the climate system and biogeochemistry. Geneva: IPCC.
IPCCAR5. (2014). Climate Change 2014: Impacts, Adaptation, and Vulnerability. Retrieved 2017, from IPCC.CH: http://ipcc.ch/report/ar5/wg2/
IPCCAR5. (2014). Observations: Atmosphere and surface. Retrieved 2017, from climatechange2013.org: http://www.climatechange2013.org/images/report/WG1AR5_Chapter02_FINAL.pdf
IPCCSREX. (2012). SREX. Retrieved 2017, from IPCC: https://www.ipcc.ch/pdf/special-reports/srex/SREX_Full_Report.pdf
James, R. (2014). Characterizing loss and damage from climate change. Nature Climate Change , 4.11 (2014): 938-939.
Johnson, V. (2013). Revised standards for statistical evidence. Retrieved 2015, from Proceedings of the National Academy of Sciences: http://www.pnas.org/content/110/48/19313.full
Karl, T. (2003). Modern global climate change. Science , 302.5651 (2003): 1719-1723.
Kay, A. (2009). Comparison of uncertainty sources for climate change impacts: flood frequency in England. Climatic Change , 92.1 (2009): 41-63.
EVENT ATTRIBUTION AND THE PRECIPITATION RECORD FOR ENGLAND AND WALES, JAMAL MUNSHI, 2017 19
Keeling, C. (1973). Industrial production of carbon dioxide from fossil fuels and limestone. Tellus , 25: 174-198.
Kelly-Adger. (2000). Theory and practice in assessing vulnerability to climate change andFacilitating adaptation. Climatic change , 47.4 (2000): 325-352.
Kelman, I. (2001). The autumn 2000 floods in England and flood management. Weather , 56.10 (2001): 346-360.
Kothari, C. R. (2004). Research methodology: Methods and techniques. New Age International.
Koutsoyiannis, D. (2008). On the credibility of climate predictions. Hydrological Sciences Journal , 53.4 (2008): 671-684.
Lacis, A. (2010). Principal Control Knob Governing Earth’s Temperature. Science , 330.
Lavers, D. (2011). Winter floods in Britain are connected to atmospheric rivers. Geophysical Research Letters , 38.23 (2011).
Lins, H. (2011). Stationarity: Wanted dead or alive? JAWRA Journal of the American Water Resources Association , 47.3 (2011): 475-480.
Lloyd‐Hughes, B. (2002). A drought climatology for Europe. International journal of climatology , 22.13 (2002): 1571-1592.
Macklin, M. (2003). River sediments, great floods and centennial‐scale holocene climate change.” . Journal of Quaternary Science , 18.2 (2003): 101-105.
Marsh, T. (2001). The 2000/01 floods in the UK—a brief overview. Weather , 56.10 (2001): 343-345.
Marsh, T. (2007). The summer 2007 floods in England and Wales–a hydrological appraisal. Wallingford: NERC/Centre for Ecology & Hydrology.
Marsh, T. (2002). The UK floods of 2000–2001: a hydrometeorological appraisal. Water and Environment Journal , 16.3 (2002): 180-188.
Marsh, T. (2016). The winter floods of 2015/2016 in the UK-a review. Wallingford: NERC/Centre for Ecology & Hydrology.
Matthews, H. (2009). The proportionality of global warming to cumulative carbon emissions. Nature , 459.7248 (2009): 829-832.
McGray, H. (2007). Weathering the storm: Options for framing adaptation and development. Washington, DC 57 (2007): World Resources Institute.
McKee, T. (1993). The relationship of drought frequency and duration to time scales. Proceedings of the 8th Conference on Applied Climatology (p. Vol. 17. No. 22). Boston, MA: American Meteorological Society.
Met Office. (2017). The wet autumn of 2000. Retrieved 2017, from metoffice: http://www.metoffice.gov.uk/climate/uk/interesting/autumn2000.html
MetOffice. (2017). Rainfall Data. Retrieved 2017, from MetOffice: http://www.metoffice.gov.uk/services/industry/data/commercial/rainfall
MetOffice. (2017). Weather stations. Retrieved 2017, from MetOffice: http://www.metoffice.gov.uk/learning/science/first-steps/observations/weather-stations
MetOffice. (2017). When does spring start? Retrieved 2017, from MetOffice: http://www.metoffice.gov.uk/learning/learn-about-the-weather/how-weather-works/when-does-spring-start
EVENT ATTRIBUTION AND THE PRECIPITATION RECORD FOR ENGLAND AND WALES, JAMAL MUNSHI, 2017 20
Metz, B. (2007). Climate Change Mitigation. Contribution of Working Group III to the fourth assessment report of the Intergovernmental Panel on Climate Change. Cambridge, UK: IPCC.
Min, S.-K. (2011). Human contribution to more-intense precipitation extremes. Nature , 470.7334 (2011): 378-381.
Mirza, M. (2003). Climate change and extreme weather events: can developing countries adapt? Climate policy , 3.3 (2003): 233-248.
Mudelsee, M. (2014). Climate Time Series Analysis: Classical Statistical and Bootstrap Methods. Springer.
Munshi, J. (2015). A General Linear Model for Trends in Tropical Cyclone Activity. Retrieved 2017, from ssrn.com: https://papers.ssrn.com/sol3/papers.cfm?abstract_id=2630932
Munshi, J. (2017). PEA Paper Archive. Retrieved 2017, from Google Drive: https://drive.google.com/open?id=0ByzA6UNa41ZfUkt4T1VZRjJYUmM
Munshi, J. (2016). Some Methodological Issues in Climate Science. Retrieved 2017, from ssrn.com: https://papers.ssrn.com/sol3/papers.cfm?abstract_id=2873672
NCEI. (2015). Historical records and trends for tornadoes. Retrieved 2017, from noaa.gov: https://www.ncdc.noaa.gov/climate-information/extreme-events/us-tornado-climatology/trends
Obasi, G. (1994). WMO’s role in the international decade for natural disaster reduction. Bulletin of the American Meteorological Society , 75.9 (1994): 1655-1661.
Obergassel, W. (2016). Phoenix from the Ashes—An Analysis of the Paris Agreement to the United Nations Framework Convention on Climate Change. Wuppertal : Wuppertal Institute for Climate, Environment and Energy.
Oreskes, N. (1994). Verification, validation, and confirmation of numerical models in the earth sciences. Science , 263.5147 (1994): 641-646.
Otto, F. (2012). Reconciling two approaches to attribution of the 2010 Russian heat wave. Geophysical Research Letters , 39.4 (2012).
Otto, F. (2015). The science of attributing extreme weather events and its potential contribution to assessing loss and damage associated with climate change impacts. Retrieved 2017, from UNFCCC: https://unfccc.int/files/adaptation/workstreams/loss_and_damage/application/pdf/attributingextremeevents.pdf
Pall, P. (2011). Anthropogenic greenhouse gas contribution to flood risk in England and Wales in autumn 2000. Nature , 470.7334 (2011): 382-385.
Pearl, J. (2009). Causality. Cambridge, England: Cambridge University Press.
Peterson, T. (2012). Explaining extreme events of 2011 from a climate perspective. Bulletin of the American Meteorological Society , 93.7 (2012): 1041-1067.
Popper, K. (2005). The logic of scientific discovery. Routledge.
Ralph, F. (2006). Flooding on California’s Russian River: Role of atmospheric rivers. Geophysical Research Letters , 33.13 (2006).
Rasool, S. (1971). Atmospheric carbon dioxide and aerosols: Effects of large increases on global climate. Science , 173, 138-141, doi:10.1126/science.173.3992.138.
Revelle, R. (1956). Carbon dioxide exchange between atmosphere and ocean and the question of an increase in atmospheric CO2 during the past decades. UC La Jolla, CA: Scripps Institution of Oceanography.
EVENT ATTRIBUTION AND THE PRECIPITATION RECORD FOR ENGLAND AND WALES, JAMAL MUNSHI, 2017 21
Reynard, N. (1998). Impact of climate change on the flood characteristics of the Thames and Severn rivers. 2nd International RIBAMOD Conference. Wallingford: Institute of Hydrology.
Reynard, N. (1996). The effects of climate change due to global warming on river flows in Great Britain. Journal of hydrology , 183.3-4 (1996): 397-424.
Reynard, N. (2001). The flood characteristics of large UK rivers: potential effects of changing climate and land use. Climatic change , 48.2 (2001): 343-359.
Rosenzweig, C. (2001). Climate change and extreme weather events; implications for food production, plant diseases, and pests. Global change and human health , 2.2 (2001): 90-104.
Schaller, N. (2016). Human influence on climate in the 2014 southern England winter floods and their impacts. Nature Climate Change , 6.6 (2016): 627-634.
Shackley, S. (1998). Uncertainty, complexity and concepts of good science in climate change modelling: Are GCMs the best tools? Climatic change , 38.2 (1998): 159-205.
Sheffield, J. (2008). Global trends and variability in soil moisture and drought characteristics, 1950–2000, from observation-driven simulations of the terrestrial hydrologic cycle. Journal of Climate , 21.3 (2008): 432-45.
Shumway, R. (2011). Time series analysis. Springer. . Springer.
Siegfried, T. (2010). Odds Are, It’s Wrong. Retrieved 2016, from Science News: https://www.sciencenews.org/article/odds-are-its-wrong
Sneed, A. (2017, January 2). Yes, Some Extreme Weather Can Be Blamed on Climate Change. Scientific American , pp. https://www.scientificamerican.com/article/yes-some-extreme-weather-can-be-blamed-on-climate-change/.
Solomon, S. (2009). Irreversible climate change due to carbon dioxide emissions. Proceedings of the national academy of sciences , pnas-0812721106.
Sornette, D. (1996). Rank‐ordering statistics of extreme events: Application to the distribution of large earthquakes. Journal of Geophysical Research: Solid Earth , 101.B6 (1996): 13883-13893.
Stern, N. (2006). What is the economics of climate change? HENLEY ON THAMES: WORLD ECONOMICS-HENLEY ON THAMES.
Stocks, B. (1998). Climate change and forest fire potential in Russian and Canadian boreal forests. Climatic change , 38.1 (1998): 1-13.
Stott, P. (2013). Attribution of weather and climate-related events . Climate Science for Serving Society. Springer Netherlands , 2013. 307-337.
Trenberth, K. (2015). Attribution of climate extreme events. Nature Climate Change , 5.8 (2015): 725-730.
UNFCCC. (2014). Kyoto Protocol. Retrieved 2017, from unfccc: http://unfccc.int/kyoto_protocol/background/items/2879.php
UNFCCC. (2014). Parties and Observers. Retrieved 2016, from UNFCCC: http://unfccc.int/parties_and_observers/items/2704.php
UNFCCC. (2016). The Paris Agreement. Retrieved 2017, from UNFCCC: http://unfccc.int/paris_agreement/items/9485.php
UNFCCC. (2014). UNFCCC and Kyoto Protocol. Retrieved 2016, from United Nations: http://unfccc.int/kyoto_protocol/items/2830.php
EVENT ATTRIBUTION AND THE PRECIPITATION RECORD FOR ENGLAND AND WALES, JAMAL MUNSHI, 2017 22
UNFCCC. (2013). Warsaw International Mechanism for Loss and Damage associated with Climate Change Impacts. Retrieved 2017, from UNFCCC: http://unfccc.int/adaptation/workstreams/loss_and_damage/items/8134.php
VanAalst, M. (2006). The impacts of climate change on the risk of natural disasters. Disasters , 30.1 (2006): 5-18.
VonStorch, H. (1999). Misuses of statistical analysis in climate research. In Analysis of Climate Variability (pp. . 11-26). Berlin Heidelberg: Springer .
Wilby, R. (2008). Climate change and fluvial flood risk in the UK: more of the same? Hydrological processes , 22.14 (2008): 2511-2523.
WMO. (2016). Explaining extreme weather events of 2015. Geneva: World Meterological Organization.
Woollings, T. (2014). Twentieth century North Atlantic jet variability. Quarterly Journal of the Royal Meteorological Society , 140.680 (2014): 783-791.
Young, P. (1996). Simplicity out of complexity in environmental modelling: Occam’s razor revisited. Journal of applied statistics , 23.2-3 (1996): 165-210.
Zwiers, F. (2013). Climate extremes: challenges in estimating and understanding recent changes in the frequency and intensity of extreme climate and weather events. Climate Science for Serving Society, Springer Netherlands , 2013. 339-389.