Dr Julie Jones
School of Geography and Planning
Director of One University
+44 114 222 7967
Full contact details
School of Geography and Planning
E5
Geography and Planning Building
Winter Street
91探花
S3 7ND
- Profile
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I am a climate scientist with an interest in reconstructing and understanding past climate variability, with a particular interest in the Antarctic and the Southern Hemisphere. I obtained my BSc in Environmental Sciences at the University of East Anglia (UEA) in Norwich. I then moved to the Climatic Research Unit (CRU) at UEA for my PhD research, looking at the Implications of Climate Change for Acidic Deposition over Europe, which I completed in 1997. Following a short period of postdoctoral research in CRU, I moved to a postdoctoral position at the Institute for Coastal Systems at the Helmholz-Zentrum Hereon, Geesthacht, Germany, where in 2005 I became group leader of the Palaeoclimate research group.
I took up a lectureship in Climate Science in the Department of Geography in 91探花 in August 2006, and am now Senior Lecturer in Climate Science. I have acted as an external examiner for PhDs in the UK and Germany, and am currently the external examiner for the MSc in Applied Meteorology and Climatology at the University of Birmingham.
I have supervised 10 PhD students, many of whom have continued into posts in academia or industry.
I am a fellow of the Royal Meteorological Society.
- Research interests
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A common theme to my research is the use of long instrumental and historical observations to reconstruct and to investigate past climate variability and change. My research currently focusses on the Antarctic and High Latitude Southern Hemisphere, where for large regions regular meteorological observations did not start until the mid-Twentieth Century, and I have used statistical reconstructions to extend this record back in time.
I have developed reconstructions of the Southern Annular Mode (SAM), using mid-latitude station observations back to the late 19th and early 20th century. This index represents the strength of the Southern Hemisphere westerly winds. The reconstructions can be downloaded here.
My work has frequently involved intercomparison of observations with palaeoclimate proxy data, reanalysis and climate model (GCM) simulations to further understanding of the causes of this past climate variability and change.
Together with PhD students, I have developed reconstruction methodologies using data from ships鈥 logbooks, for Southern African rainfall for El Nino Southern Oscillation. Previous students have also used archival data to explore past changes in the Northeast Indian Monsoon. Current research students are exploring causes of recent trends in relative humidity, current and future climate drivers of Arctic vegetation browning, and the interaction between climate change and rural livelihoods in Western Zambia.
I was awarded a Leverhulme Fellowship in 2018 to use ships鈥 logbooks to reconstruct the Southern Annular mode, in collaboration with scientists at the National Institute for Water and Atmospheric Research (NIWA) in New Zealand.
Other research interests throughout my career include:
- The design and analysis of global climate model (GCM) simulations for the mid- and late-Holocene and development of methodologies for systematic comparison of these simulations with proxy data
- Regional climate modelling with a focus on the European Alps
- Links between atmospheric circulation and transport of air pollution
- Publications
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Journal articles
- . Bulletin of the American Meteorological Society.
- . Scientific Data, 10(1), 1-16.
- . The Cryosphere, 15(12), 5785-5804.
- . International Journal of Climatology, 41(S1), E672-E689.
- . Journal of Hydrology, 584.
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- . Geosciences, 9(6).
- . Climate Dynamics.
- . Bulletin of the American Meteorological Society, 99(10), 2143-2145.
- . Marine Geology, 403, 262-270.
- . Earth Surface Processes and Landforms.
- . Geophysical Research Letters, 44(19), 9918-9927.
- . Weather and Forecasting.
- . Climate Dynamics.
- . Climate Dynamics, 48(11), 3869-3887.
- . Climate Dynamics.
- . Bulletin of the American Meteorological Society.
- . Nature Climate Change, 6(10), 917-926.
- . The Cryosphere Discussions.
- . Journal of Geophysical Research: Atmospheres, 121(6), 2836-2856.
- . Journal of Geophysical Research: Atmospheres, 121(6), 2814-2835.
- . Wiley Interdisciplinary Reviews: Climate Change, 7(2), 164-174.
- . WIREs Climate Change, 7(2).
- . Bulletin of the American Meteorological Society, 97(1), 111-121.
- . International Journal of Climatology, 35(8), 1697-1720.
- . The Holocene, 25(2), 379-390.
- . Environment and History, 20(3), 411-445.
- . Nature Geoscience, 5(11), 764-765.
- . JOURNAL OF CLIMATE, 25(18), 6253-6270.
- . International Journal of Climatology.
- . Climate of the Past, 7(4), 1189-1207.
- Using synoptic type analysis to understand New Zealand climate during the Mid-Holocene. Climate of the Past Discussions, 7(2), 1301-1337.
- . International Journal of Climatology, 30(5), 760-773.
- . J CLIMATE, 22(20), 5319-5345.
- . J CLIMATE, 22(20), 5346-5365.
- . Climate Dynamics, 29(4), 333-355.
- . Geophysical Research Letters, 33(16).
- Response [2]. Science, 312(5782), 1872-1873.
- Testing climate reconstructions - Response. SCIENCE, 312(5782), 1872-1873.
- . Science, 312(5773), 529-529.
- Comparison of a high-resolution regional simulation and the ERA40 reanalysis over the Alpine Region. Hrvatski Meteoroloski Casopis(40), 369-372.
- . Journal of Climate, 18(19), 4032-4045.
- . Nature, 432(7015), 290-291.
- . Science, 306(5696), 679-682.
- Instrument- and Tree-Ring-Based Estimates of the Antarctic Oscillation. Journal of Climate, 16(21), 3511-3524.
- . Eos, Transactions American Geophysical Union, 82(46), 553-553.
- . Climate Research, 14, 7-24.
- Assessment of the use of principal components analysis to relate air and precipitation chemistry to climate. Water, Air, and Soil Pollution, 85, 1569-1574.
- . Journal of Glaciology, 1-36.
- . Journal of the Royal Statistical Society Series C: Applied Statistics.
Chapters
- , Springer Proceedings in Mathematics & Statistics (pp. 175-182). Springer International Publishing
- , Climate Change 2013 the Physical Science Basis: Working Group I Contribution to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change (pp. 1217-1308).
- (pp. 1-5). Wiley
- , The Climate of Past Interglacials (pp. 517-526). Elsevier
- Simulated teleconnections during the Eemian, the last interglacial inception, and the preindustrial period. In Sirocco F, Litt T & Claussen M (Ed.), The climate of past interglacials (pp. 517-525). Elsevier
- Reconstructing large-scale variability from palaeoclimatic evidence by means of Data Assimulation through Upscaling and Nudging (DATUN). In Fischer H, Kumke T, Lohmann G, Miller H & Negendank J (Ed.), The Climate in Historical Times: towards a synthesis of Holocene proxy data and climate models (pp. 171-193). Berlin, Heidelberg: Springer.
Other
Preprints
- Teaching interests
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I have taught at all levels from undergraduate through to postgraduate taught. I currently teach on the following modules:
GEO113 Earth, Wind, Ice and Fire
GEO11005 Geographical skills, Methods and Techniques
GEO21011 Understanding the Climate System (module convenor)
GEO412: Current issues in Geography and Environmental Science
GEO3100 Employing Geography Skills in Sustainability and Social Justice (module convenor)
GEO356: Dissertation for Geography and Environmental Science
I also regularly teach on:
GEO11004: Why Geography Matters
GEO21012: Unlocking Past Environmental Changes
GEO6807: Understanding Environmental Change
GEO6809: Managing Climate Change
GEO6669 Polar and Alpine Change Research Project