<h1>Paul’s Preparation Bibliography</h1><p>(2016).&nbsp;atmospheric chemistry.&nbsp;In&nbsp;Rennie, R., &amp; Law, J.&nbsp;(Eds.), <em>A Dictionary of Chemistry</em>.&nbsp;: Oxford University Press, http://www.oxfordreference.com/view/10.1093/acref/9780198722823.001.0001/acref-9780198722823-e-4908.</p><p>Francis, Jennifer. New England Aquarium, 10/19/17: Crazy Weather and the Arctic Meltdown, <a href="https://www.youtube.com/watch?v=wtmuBoolHQg" target="_blank">https://www.youtube.com/watch?v=wtmuBoolHQg</a></p><p>&nbsp;Hess, S., &amp; Hall. (1960). Introduction to Theoretical Meteorology.&nbsp;<em>Physics Today,</em>&nbsp;<em>13</em>(10), 56.</p><p>J. T. Overpeck,et al. Arctic System on Trajectory to New, Seasonally Ice-Free State, <em>Eos</em>, Vol 86, No. 34, 23 August 2005 <a href="https://marine.rutgers.edu/pubs/private/OverpecketalEOS05.pdf">https://marine.rutgers.edu/pubs/private/OverpecketalEOS05.pdf</a></p><p>Jacob, D. J. (1999). <em>Introduction to atmospheric chemistry.</em> Princeton, New Jersey: Princeton University Press. </p><p>Liu, J., Z. Chen, J. Francis, M. Song, T. Mote, and Y. Hu,&nbsp;2016:&nbsp;<a href="https://journals.ametsoc.org/doi/abs/10.1175/JCLI-D-15-0391.1">Has Arctic Sea Ice Loss Contributed to Increased Surface Melting of the Greenland Ice Sheet?.</a>&nbsp;<em>J. Climate,</em>29,&nbsp;3373–3386,&nbsp;<a href="https://doi.org/10.1175/JCLI-D-15-0391.1">https://doi.org/10.1175/JCLI-D-15-0391.1</a>&nbsp;</p><p>Matthews, J. (Ed.) (2014).&nbsp;<em>Encyclopedia of environmental change</em>&nbsp;(Vols. 1-3). Thousand Oaks,, CA: SAGE Publications, Ltd. doi: 10.4135/9781446247501</p><p>National Research Council. 2014.&nbsp;<em>The Arctic in the Anthropocene: Emerging Research Questions</em>. Washington, DC: The National Academies Press. doi: 10.17226/18726.</p><p>Seinfeld, John H. &amp; Spyros N. Pandis. <em>Atmospheric Chemistry and Physics: From Air Pollution to Climate Change</em>. Wiley, 2006.</p><p>Tang, Q., Zhang, X., &amp; Francis, J. A. (2013). Extreme summer weather in northern mid-latitudes linked to a vanishing cryosphere.<em> Nature Climate Change, 4</em>, 45. Retrieved from <a href="https://doi.org/10.1038/nclimate2065" target="_blank">https://doi.org/10.1038/nclimate2065</a> </p><p>Vaideanu, P., Dima, M. &amp; Voiculescu, M. Theor Appl Climatol (2018) 134: 1245. <a href="https://doi-org.qe2a-proxy.mun.ca/10.1007/s00704-017-2330-3">https://doi-org.qe2a-proxy.mun.ca/10.1007/s00704-017-2330-3</a></p><p>Wiese, Chuck, A Warming Arctic Would Not Cause Increased Severe Weather or Temperature Extremes. <em>Ed Berry.com</em> https://edberry.com/blog/climate-physics/meteorology/a-warming-arctic-would-not-cause-increased-severe-weather-or-temperature-extremes</p><p>Plus Wikipedia for terms I didn’t understand.</p><p>&nbsp;</p><h1>Jennifer’s Suggested Five (or so) Texts</h1><p>Francis, J.A., Clarity and clouds: Progress in understanding Arctic influences on mid-latitude weather. A "Frostbites" essay in the 2018 Arctic Report Card, NOAA Arctic Program.</p><p><a href="https://arctic.noaa.gov/Report-Card/Report-Card-2018/ArtMID/7878/ArticleID/790/Clarity-and-Clouds-Progress-in-Understanding-Arctic-Influences-on-Mid-latitude-Weather" target="_blank">https://arctic.noaa.gov/Report-Card/Report-Card-2018/ArtMID/7878/ArticleID/790/Clarity-and-Clouds-Progress-in-Understanding-Arctic-Influences-on-Mid-latitude-Weather</a></p><p>&nbsp;Vavrus, S.J., 2018: The influence of Arctic amplification on mid-latitude weather and climate.&nbsp;<em>Curr. Clim. Change Rep.,</em>&nbsp;doi:&nbsp;1.1007/s40641-018-0105-2.</p><p>Francis, J.A., 2017: Why are Arctic linkages to extreme weather still up in the air?&nbsp;<em>Bull. Amer. Meteoro. Soc., 98,</em>&nbsp;2551–2557.</p><p>Francis, J.A., 2018:&nbsp;Scientific American, April 2018, Vol. 318, No. 4:&nbsp;Meltdown <a href="https://www.scientificamerican.com/article/the-arctic-is-breaking-climate-records-altering-weather-worldwide/" target="_blank">https://www.scientificamerican.com/article/the-arctic-is-breaking-climate-records-altering-weather-worldwide/</a></p>