OceanRep
Browse by Projects
Number of items: 27.
B
Blume, C.
(2012)
Statistical Learning to Model Stratospheric Variability.
(PhD/ Doctoral thesis), Freie Universität Berlin, Berlin, Germany, 145 pp.
H
Haase, S. , Matthes, K. , Latif, M. and Omrani, N. E.
(2018)
The Importance of a Properly Represented Stratosphere for Northern Hemisphere Surface Variability in the Atmosphere and the Ocean.
Journal of Climate, 31
(20).
pp. 8481-8497.
DOI 10.1175/JCLI-D-17-0520.1.
Hansen, F. , Matthes, K. and Wahl, S.
(2016)
Tropospheric QBO-ENSO interactions and differences between Atlantic and Pacific.
Journal of Climate, 29
(4).
pp. 1353-1368.
DOI 10.1175/JCLI-D-15-0164.1.
K
Kemena, T. P. , Matthes, K. , Martin, T. , Wahl, S. and Oschlies, A.
(2018)
Atmospheric feedbacks in North Africa from an irrigated, afforested Sahara.
Climate Dynamics, 50
(11-12).
pp. 4561-4581.
DOI 10.1007/s00382-017-3890-8.
L
Lubis, S. W., Matthes, K. , Harnik, N., Omrani, N. E. and Wahl, S.
(2018)
Downward Wave Coupling between the Stratosphere and Troposphere under Future Anthropogenic Climate Change.
Journal of Climate, 31
(10).
pp. 4135-4155.
DOI 10.1175/JCLI-D-17-0382.1.
Lubis, S. W., Silverman, V., Matthes, K. , Harnik, N., Omrani, N. E. and Wahl, S.
(2017)
How Does Downward Planetary Wave Coupling Affect Polar Stratospheric Ozone in the Arctic Winter Stratosphere?.
Atmospheric Chemistry and Physics, 17
.
pp. 2437-2458.
DOI 10.5194/acp-17-2437-2017.
Lubis, S. W.
(2016)
Processes Controlling Stratospheric Dynamic
Variability, the Implications for Ozone Levels,
and the Coupling to the Troposphere and
Mesosphere.
(PhD/ Doctoral thesis), Christian-Albrechts-Universität, Kiel, X, 135 pp.
Lubis, S. W., Omrani, N. E., Matthes, K. and Wahl, S.
(2016)
Impact of the Antarctic Ozone Hole on the Vertical Coupling of the Stratosphere-Mesosphere-Lower Thermosphere System.
Journal of the Atmospheric Sciences, 73
(6).
pp. 2509-2528.
DOI 10.1175/JAS-D-15-0189.1.
Lubis, S. W., Matthes, K. , Omrani, N. E. , Harnik, N. and Wahl, S.
(2016)
Influence of the Quasi-Biennial Oscillation and Sea Surface Temperature Variability on Downward Wave Coupling in the Northern Hemisphere.
Journal of the Atmospheric Sciences, 73
(5).
pp. 1943-1965.
DOI 10.1175/JAS-D-15-0072.1.
M
Maycock, A. C., Matthes, K. , Tegtmeier, S., Schmidt, H., Thiéblemont, R., Hood, L., Bekki, S., Deushi, M., Jöckel, P., Kirner, O., Kunze, M., Marchand, M., Marsh, D. R., Michou, M., Revell, L. E., Rozanov, E., Stenke, A., Yamashita, Y. and Yoshida, K.
(2018)
The representation of solar cycle signals in stratospheric ozone. Part II: Analysis of global models.
Atmospheric Chemistry and Physics, 18
.
pp. 11323-11343.
DOI 10.5194/acp-18-11323-2018.
Matthes, K. , Funke, B., Anderson, M. E., Barnard, L., Beer, J., Charbonneau, P., Clilverd, M. A., Dudok de Wit, T., Haberreiter, M., Hendry, A., Jackman, C. H., Kretschmar, M., Kruschke, T. , Kunze, M., Langematz, U., Marsh, D. R., Maycock, A., Misios, S., Rodger, C. J., Scaife, A. A., Seppälä, A., Shangguan, M., Sinnhuber, M., Tourpali, K., Usoskin, I., van de Kamp, M., Verronen, P. T. and Versick, S.
(2017)
Solar Forcing for CMIP6 (v3.2).
Geoscientific Model Development, 10
(6).
pp. 2247-2302.
DOI 10.5194/gmd-10-2247-2017.
Misios, S., Mitchell, D. M., Gray, L. J., Tourpali, K., Matthes, K. , Hood, L., Schmidt, H., Chiodo, G., Thiéblemont, R., Rozanov, E. and Krivolutsky, A.
(2016)
Solar signals in CMIP-5 Simulations: Effects of Atmosphere-ocean Coupling.
Quarterly Journal of the Royal Meteorological Society, 142
(Part B).
pp. 928-941.
DOI 10.1002/qj.2695.
N
P
Pilch Kedzierski, R. , Matthes, K. and Bumke, K.
(2017)
Wave Modulation of the Extratropical Tropopause Inversion Layer.
Atmospheric Chemistry and Physics, 17
.
pp. 4093-4114.
DOI 10.5194/acp-17-4093-2017.
Pilch Kedzierski, R. , Matthes, K. and Bumke, K.
(2016)
The tropical tropopause inversion layer: variability and modulation by equatorial waves.
Atmospheric Chemistry and Physics, 16
.
pp. 11617-11633.
DOI 10.5194/acp-16-11617-2016.
Pilch Kedzierski, R. , Neef, L. and Matthes, K.
(2016)
Tropopause sharpening by data assimilation.
Geophysical Research Letters, 43
(15).
pp. 8298-8305.
DOI 10.1002/2016GL069936.
Pilch Kedzierski, R.
(2016)
Advanced Understanding of the Tropopause Inversion Layer: High-Resolution GPS-RO Observations and Reanalyses.
(PhD/ Doctoral thesis), Christian-Albrechts-Universität Kiel, Kiel, Germany, 150 pp.
Pilch Kedzierski, R. , Matthes, K. and Bumke, K.
(2015)
Synoptic-Scale Behavior of the Extratropical Tropopause Inversion Layer.
Geophysical Research Letters, 42
(22).
10,018-10,026.
DOI 10.1002/2015GL066409.
Petrick, C., Matthes, K. , Dobslaw, H. and Thomas, M.
(2012)
Impact of the solar cycle and the QBO on the atmosphere and the ocean.
Journal of Geophysical Research: Atmospheres, 117
.
D17111.
DOI 10.1029/2011JD017390.
S
Silverman, V., Lubis, S. W., Harnik, N. and Matthes, K.
(2021)
A Synoptic View of the Onset of the Mid-Latitude QBO Signal.
Journal of the Atmospheric Sciences, 78
(12).
pp. 3759-3780.
DOI 10.1175/JAS-D-20-0387.1.
T
Thiéblemont, R. , Ayarzagüena, B. , Matthes, K. , Bekki, S., Abalichin, J. and Langematz, U.
(2019)
Drivers and Surface Signal of Interannual Variability of Boreal Stratospheric Final Warmings.
Journal of Geophysical Research: Atmospheres, 124
(10).
pp. 5400-5417.
DOI 10.1029/2018JD029852.
Thieblemont, R., Matthes, K. , Omrani, N. E., Kodera, K. and Hansen, F.
(2015)
Solar forcing synchronizes decadal North Atlantic climate variability.
Nature Communications, 6
(8268).
DOI 10.1038/ncomms9268.
W
Wang, W. , Matthes, K. , Tian, W., Park, W. , Shangguan, M. and Ding, A.
(2019)
Solar impacts on decadal variability of tropopause temperature and lower stratospheric (LS) water vapour: a mechanism through ocean–atmosphere coupling.
Climate Dynamics, 52
(9-10).
pp. 5585-5604.
DOI 10.1007/s00382-018-4464-0.
Wang, W., Matthes, K. , Omrani, N. E. and Latif, M.
(2016)
Decadal variability of the tropical tropopause temperature and its relation to the Pacific Decadal Oscillation.
Scientific Reports, 6
( 29537).
DOI 10.1038/srep29537.
Wang, W., Matthes, K. and Schmidt, T.
(2015)
Quantifying contributions to the recent temperature variability in the tropical tropopause layer.
Atmospheric Chemistry and Physics, 15
(10).
pp. 5815-5826.
DOI 10.5194/acp-15-5815-2015.
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