All Stories

  1. The relation between aerosol vertical distribution and temperature inversions in the Arctic in winter and spring

    Article • Geophysical Research Letters, February 2019, American Geophysical Union (AGU)

    Professor Michael K. H. Tjernström

  2. The Turbulent Structure of the Arctic Summer Boundary Layer During The Arctic Summer Cloud-Ocean Study

    Article • Journal of Geophysical Research Atmospheres, September 2017, Wiley

    Professor Michael K. H. Tjernström, Dr Joseph Sedlar

  3. The free troposphere as a potential source of arctic boundary layer aerosol particles

    Article • Geophysical Research Letters, July 2017, Wiley

    Professor Michael K. H. Tjernström, Dr Joseph Sedlar, Adele Igel

  4. Modelling micro- and macrophysical contributors to the dissipation of an Arctic mixed-phase cloud during the Arctic Summer Cloud Ocean Study (ASCOS)

    Article • Atmospheric Chemistry and Physics, June 2017, Copernicus GmbH

    Professor Michael K. H. Tjernström

  5. Direct determination of the air-sea CO2 gas transfer velocity in Arctic sea ice regions

    Article • Geophysical Research Letters, April 2017, American Geophysical Union (AGU)

    Professor Michael K. H. Tjernström

  6. Clouds, warm air, and a climate cooling signal over the summer Arctic

    Article • Geophysical Research Letters, January 2017, American Geophysical Union (AGU)

    Professor Michael K. H. Tjernström, Dr Joseph Sedlar

  7. Response of the lower troposphere to moisture intrusions into the Arctic

    Article • Geophysical Research Letters, January 2017, American Geophysical Union (AGU)

    Professor Michael K. H. Tjernström

  8. Measurement of wind profiles by motion-stabilised ship-borne Doppler lidar

    Article • Atmospheric Measurement Techniques, November 2015, Copernicus GmbH

    Professor Michael K. H. Tjernström

  9. Modelling coastal low-level wind-jets: does horizontal resolution matter?

    Article • Meteorology and Atmospheric Physics, November 2015, Springer Science + Business Media

    Professor Michael K. H. Tjernström

  10. The vertical structure of cloud radiative heating over the Indian subcontinent during summer monsoon

    Article • Atmospheric Chemistry and Physics, October 2015, Copernicus GmbH

    Professor Michael K. H. Tjernström

  11. Lagrangian tracing of Sahelian Sudan moisture sources

    Article • Journal of Geophysical Research Atmospheres, July 2015, American Geophysical Union (AGU)

    Abubakr A M Salih, Professor Michael K. H. Tjernström

  12. Warm-air advection, air mass transformation and fog causes rapid ice melt

    Article • Geophysical Research Letters, July 2015, American Geophysical Union (AGU)

    Professor Michael K. H. Tjernström

  13. Structure and variability of the Oman coastal low-level jet

    Article • Tellus A Dynamic Meteorology and Oceanography, June 2015, Taylor & Francis

    Professor Michael K. H. Tjernström

  14. The thermodynamic structure of summer Arctic stratocumulus and the dynamic coupling to the surface

    Article • Atmospheric Chemistry and Physics, November 2014, Copernicus GmbH

    Professor Michael K. H. Tjernström

  15. Large-eddy simulations of an Arctic mixed-phase stratiform cloud observed during ISDAC: sensitivity to moisture aloft, surface fluxes and large-scale forcing

    Article • Quarterly Journal of the Royal Meteorological Society, September 2014, Wiley

    Professor Michael K. H. Tjernström

  16. Advances in understanding and parameterization of small-scale physical processes in the marine Arctic climate system: a review

    Article • Atmospheric Chemistry and Physics, September 2014, Copernicus GmbH

    Professor Michael K. H. Tjernström

  17. The importance of spring atmospheric conditions for predictions of the Arctic summer sea ice extent

    Article • Geophysical Research Letters, July 2014, American Geophysical Union (AGU)

    Professor Michael K. H. Tjernström

  18. The Arctic Summer Cloud Ocean Study (ASCOS): overview and experimental design

    Article • Atmospheric Chemistry and Physics, March 2014, Copernicus GmbH

    Professor Michael K. H. Tjernström

  19. The Arctic summer atmosphere: an evaluation of reanalyses using ASCOS data

    Article • Atmospheric Chemistry and Physics, March 2014, Copernicus GmbH

    Professor Michael K. H. Tjernström

  20. Near-surface meteorology during the Arctic Summer Cloud Ocean Study (ASCOS): evaluation of reanalyses and global climate models

    Article • Atmospheric Chemistry and Physics, January 2014, Copernicus GmbH

    Professor Michael K. H. Tjernström

  21. Vertical profiling of aerosol particles and trace gases over the central Arctic Ocean during summer

    Article • Atmospheric Chemistry and Physics, December 2013, Copernicus GmbH

    Professor Michael K. H. Tjernström

  22. Stable Atmospheric Boundary Layers and Diurnal Cycles: Challenges for Weather and Climate Models

    Article • Bulletin of the American Meteorological Society, November 2013, American Meteorological Society

    Professor Michael K. H. Tjernström

  23. Cloud and boundary layer interactions over the Arctic sea ice in late summer

    Article • Atmospheric Chemistry and Physics, September 2013, Copernicus GmbH

    Professor Michael K. H. Tjernström

  24. Global distribution and seasonal variability of coastal low-level jets derived from ERA-Interim reanalysis

    Article • Tellus A Dynamic Meteorology and Oceanography, August 2013, Taylor & Francis

    Professor Michael K. H. Tjernström

  25. Springtime atmospheric energy transport and the control of Arctic summer sea-ice extent

    Article • Nature Climate Change, April 2013, Springer Science + Business Media

    Professor Michael K. H. Tjernström

  26. Influence of the Arctic Oscillation on the vertical distribution of clouds as observed by the A-Train constellation of satellites

    Article • Atmospheric Chemistry and Physics, November 2012, Copernicus GmbH

    Professor Michael K. H. Tjernström

  27. Climate impact of deforestation over South Sudan in a regional climate model

    Article • International Journal of Climatology, September 2012, Wiley

    Abubakr A M Salih, Professor Michael K. H. Tjernström

  28. Arctic climate change in 21st century CMIP5 simulations with EC-Earth

    Article • Climate Dynamics, September 2012, Springer Science + Business Media

    Professor Michael K. H. Tjernström

  29. Meteorological conditions in the central Arctic summer during the Arctic Summer Cloud Ocean Study (ASCOS)

    Article • Atmospheric Chemistry and Physics, August 2012, Copernicus GmbH

    Professor Michael K. H. Tjernström

  30. On the fog variability over south Asia

    Article • Climate Dynamics, June 2012, Springer Science + Business Media

    Professor Michael K. H. Tjernström

  31. Modelling atmospheric structure, cloud and their response to CCN in the central Arctic: ASCOS case studies

    Article • Atmospheric Chemistry and Physics, April 2012, Copernicus GmbH

    Professor Michael K. H. Tjernström

  32. On the Relationship between Thermodynamic Structure and Cloud Top, and Its Climate Significance in the Arctic

    Article • Journal of Climate, April 2012, American Meteorological Society

    Professor Michael K. H. Tjernström

  33. Aerosol composition and sources in the central Arctic Ocean during ASCOS

    Article • Atmospheric Chemistry and Physics, October 2011, Copernicus GmbH

    Professor Michael K. H. Tjernström

  34. Characteristics of water-vapour inversions observed over the Arctic by Atmospheric Infrared Sounder (AIRS) and radiosondes

    Article • Atmospheric Chemistry and Physics, September 2011, Copernicus GmbH

    Professor Michael K. H. Tjernström

  35. An Ensemble of Arctic Simulations of the AOE-2001 Field Experiment

    Article • Atmosphere, May 2011, MDPI AG

    Professor Michael K. H. Tjernström

  36. Near-surface profiles of aerosol number concentration and temperature over the Arctic Ocean

    Article • Atmospheric Measurement Techniques Discussions, May 2011, Copernicus GmbH

    Professor Michael K. H. Tjernström

  37. Mixing, heat fluxes and heat content evolution of the Arctic Ocean mixed layer

    Article • Ocean Science, May 2011, Copernicus GmbH

    Professor Michael K. H. Tjernström

  38. On the potential contribution of open lead particle emissions to the central Arctic aerosol concentration

    Article • Atmospheric Chemistry and Physics, April 2011, Copernicus GmbH

    Professor Michael K. H. Tjernström

  39. Measurements of bubble size spectra within leads in the Arctic summer pack ice

    Article • Ocean Science, February 2011, Copernicus GmbH

    Professor Michael K. H. Tjernström

  40. The vertical distribution of thin features over the Arctic analysed from CALIPSO observations

    Article • Tellus B, January 2011, Taylor & Francis

    Professor Michael K. H. Tjernström

  41. The vertical distribution of thin features over the Arctic analysed from CALIPSO observations

    Article • Tellus B, January 2011, Taylor & Francis

    Professor Michael K. H. Tjernström

  42. A transitioning Arctic surface energy budget: the impacts of solar zenith angle, surface albedo and cloud radiative forcing

    Article • Climate Dynamics, November 2010, Springer Science + Business Media

    Professor Michael K. H. Tjernström

  43. Comparing Estimates of Turbulence Based on Near-Surface Measurements in the Nocturnal Stable Boundary Layer

    Article • Boundary-Layer Meteorology, October 2010, Springer Science + Business Media

    Professor Michael K. H. Tjernström

  44. The vertical distribution of atmospheric DMS in the high Arctic summer

    Article • Tellus B, July 2010, Taylor & Francis

    Professor Michael K. H. Tjernström

  45. Warm winds from the Pacific caused extensive Arctic sea-ice melt in summer 2007

    Article • Climate Dynamics, April 2010, Springer Science + Business Media

    Professor Michael K. H. Tjernström

  46. The vertical distribution of atmospheric DMS in the high Arctic summer

    Article • Tellus B, January 2010, Taylor & Francis

    Professor Michael K. H. Tjernström

  47. The performance of a global and mesoscale model over the central Arctic Ocean during late summer

    Article • Journal of Geophysical Research Atmospheres, July 2009, American Geophysical Union (AGU)

    Professor Michael K. H. Tjernström

  48. Stratiform Cloud—Inversion Characterization During the Arctic Melt Season

    Article • Boundary-Layer Meteorology, July 2009, Springer Science + Business Media

    Professor Michael K. H. Tjernström

  49. Mesoscale Variability in the Summer Arctic Boundary Layer

    Article • Boundary-Layer Meteorology, February 2009, Springer Science + Business Media

    Professor Michael K. H. Tjernström

  50. The Effects of Critical Layers on Residual Layer Turbulence

    Article • Journal of the Atmospheric Sciences, February 2009, American Meteorological Society

    Professor Michael K. H. Tjernström

  51. The vertical structure of the lower Arctic troposphere analysed from observations and the ERA-40 reanalysis

    Article • Quarterly Journal of the Royal Meteorological Society, January 2009, Wiley

    Professor Michael K. H. Tjernström

  52. Graversen et al. reply

    Article • Nature, September 2008, Springer Science + Business Media

    Professor Michael K. H. Tjernström

  53. How Well Do Regional Climate Models Reproduce Radiation and Clouds in the Arctic? An Evaluation of ARCMIP Simulations

    Article • Journal of Applied Meteorology and Climatology, September 2008, American Meteorological Society

    Professor Michael K. H. Tjernström

  54. The Arctic and Antarctic: Two Faces of Climate Change

    Article • Eos, May 2008, American Geophysical Union (AGU)

    Professor Michael K. H. Tjernström

  55. Vertical structure of recent Arctic warming

    Article • Nature, January 2008, Springer Science + Business Media

    Professor Michael K. H. Tjernström

  56. On the Scale-dependence of the Gradient Richardson Number in the Residual Layer

    Article • Boundary-Layer Meteorology, December 2007, Springer Science + Business Media

    Professor Michael K. H. Tjernström

  57. Is There a Diurnal Cycle in the Summer Cloud-Capped Arctic Boundary Layer?

    Article • Journal of the Atmospheric Sciences, November 2007, American Meteorological Society

    Professor Michael K. H. Tjernström

  58. An evaluation of Arctic cloud and radiation processes during the SHEBA year: simulation results from eight Arctic regional climate models

    Article • Climate Dynamics, June 2007, Springer Science + Business Media

    Professor Michael K. H. Tjernström

  59. Can Ice-Nucleating Aerosols Affect Arctic Seasonal Climate?

    Article • Bulletin of the American Meteorological Society, April 2007, American Meteorological Society

    Professor Michael K. H. Tjernström

  60. Atmospheric mass-transport inconsistencies in the ERA-40 reanalysis

    Article • Quarterly Journal of the Royal Meteorological Society, January 2007, Wiley

    Professor Michael K. H. Tjernström

  61. Evaluation of an ensemble of Arctic regional climate models: spatiotemporal fields during the SHEBA year

    Article • Climate Dynamics, May 2006, Springer Science + Business Media

    Professor Michael K. H. Tjernström

  62. MEAD: An interdisciplinary study of the marine effects of atmospheric deposition in the Kattegat

    Article • Environmental Pollution, April 2006, Elsevier

    Professor Michael K. H. Tjernström

  63. Aerosol number–size distributions during clear and fog periods in the summer high Arctic: 1991, 1996 and 2001

    Article • Tellus B, January 2006, Taylor & Francis

    Professor Michael K. H. Tjernström

  64. Modeling of the Coastal Boundary Layer and Pollutant Transport in New England

    Article • Journal of Applied Meteorology and Climatology, January 2006, American Meteorological Society

    Professor Michael K. H. Tjernström

  65. ‘Modelling the Arctic Boundary Layer: An Evaluation of Six Arcmip Regional-Scale Models using Data from the Sheba Project’

    Article • Boundary-Layer Meteorology, November 2005, Springer Science + Business Media

    Professor Michael K. H. Tjernström

  66. High Spatial and Temporal Variability of Dry Deposition in a Coastal Region

    Article • Environmental Fluid Mechanics, August 2005, Springer Science + Business Media

    Professor Michael K. H. Tjernström

  67. Experimental Equipment: A Supplement to The Summertime Arctic Atmosphere: Meteorological Measurements during the Arctic Ocean Experiment 2001

    Article • Bulletin of the American Meteorological Society, September 2004, American Meteorological Society

    Professor Michael K. H. Tjernström

  68. The Summertime Arctic Atmosphere: Meteorological Measurements during the Arctic Ocean Experiment 2001

    Article • Bulletin of the American Meteorological Society, September 2004, American Meteorological Society

    Professor Michael K. H. Tjernström

  69. The Turbulence Structure of the Stable Atmospheric Boundary Layer Around a Coastal Headland: Aircraft Observations and Modelling Results

    Article • Boundary-Layer Meteorology, June 2003, Springer Science + Business Media

    Professor Michael K. H. Tjernström

  70. Mesoscale Dynamics

    Article • January 2003, Springer Science + Business Media

    Professor Michael K. H. Tjernström

  71. The structure of gradually transforming marine stratocumulus during the ASTEX first Lagrangian experiment

    Article • Quarterly Journal of the Royal Meteorological Society, January 2003, Wiley

    Professor Michael K. H. Tjernström

  72. The Sensitivity Of A Stratocumulus Transition: Model Simulations Of The Astex First Lagrangian

    Article • Boundary-Layer Meteorology, April 2000, Springer Science + Business Media

    Professor Michael K. H. Tjernström

  73. Airborne flux measurements in NOPEX: comparison with footprint estimated surface heat fluxes

    Article • Agricultural and Forest Meteorology, December 1999, Elsevier

    Professor Michael K. H. Tjernström

  74. Introduction to the in situ airborne meteorological measurements in NOPEX

    Article • Agricultural and Forest Meteorology, December 1999, Elsevier

    Professor Michael K. H. Tjernström

  75. Regional surface fluxes over the Nopex area

    Article • Journal of Hydrology, December 1998, Elsevier

    Professor Michael K. H. Tjernström

  76. Small-Scale Variability in the Coastal Atmospheric Boundary Layer

    Article • Boundary-Layer Meteorology, July 1998, Springer Science + Business Media

    Professor Michael K. H. Tjernström

  77. The Effect of Inertial Navigation System Time Response on Airborne Turbulence Measurements

    Article • Journal of Atmospheric and Oceanic Technology, December 1995, American Meteorological Society

    Professor Michael K. H. Tjernström

  78. Modeling the Impact of Marine Stratocumulus on Boundary Layer Structure

    Article • Journal of the Atmospheric Sciences, April 1995, American Meteorological Society

    Professor Michael K. H. Tjernström

  79. Analysis of the turbulence structure of a marine low-level jet

    Article • Boundary-Layer Meteorology, October 1993, Springer Science + Business Media

    Professor Michael K. H. Tjernström

  80. Some tests with a surface energy balance scheme, including a bulk parameterisation for vegetation, in a mesoscale model

    Article • Boundary-Layer Meteorology, July 1989, Springer Science + Business Media

    Professor Michael K. H. Tjernström

  81. Numerical simulations of stratiform boundary-layer clouds on the meso-γ-scale. Part II: The influence of a step change in surface roughness and surface temperature

    Article • Boundary-Layer Meteorology, August 1988, Springer Science + Business Media

    Professor Michael K. H. Tjernström

  82. Numerical simulations of stratiform boundary-layer clouds on the meso-γ-scale. Part I: The influence of terrain height differences

    Article • Boundary-Layer Meteorology, July 1988, Springer Science + Business Media

    Professor Michael K. H. Tjernström