Records |
Author |
Qian, C.; Fu, C.; Wu, Z.; Yan, Z. |
Title |
The role of changes in the annual cycle in earlier onset of climatic spring in northern China |
Type |
$loc['typeJournal Article'] |
Year |
2011 |
Publication |
Advances in Atmospheric Sciences |
Abbreviated Journal |
Adv. Atmos. Sci. |
Volume |
28 |
Issue |
2 |
Pages |
284-296 |
Keywords |
spring onset; Ensemble Empirical Mode Decomposition; modulated annual cycle; Asian winter monsoon; global warming |
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ISSN |
0256-1530 |
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$loc['no'] |
Call Number |
COAPS @ mfield @ |
Serial |
309 |
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Author |
Qian, C.; Yan, Z.; Wu, Z.; Fu, C.; Tu, K. |
Title |
Trends in temperature extremes in association with weather-intraseasonal fluctuations in eastern China |
Type |
$loc['typeJournal Article'] |
Year |
2011 |
Publication |
Advances in Atmospheric Sciences |
Abbreviated Journal |
Adv. Atmos. Sci. |
Volume |
28 |
Issue |
2 |
Pages |
297-309 |
Keywords |
climate extremes; EEMD; weather-intraseasonal fluctuations; modulated annual cycle; global warming |
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0256-1530 |
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$loc['no'] |
Call Number |
COAPS @ mfield @ |
Serial |
310 |
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Author |
Hu, Z.-Z.; Huang, B.; Kinter, J.L.; Wu, Z.; Kumar, A. |
Title |
Connection of the stratospheric QBO with global atmospheric general circulation and tropical SST. Part II: interdecadal variations |
Type |
$loc['typeJournal Article'] |
Year |
2012 |
Publication |
Climate Dynamics |
Abbreviated Journal |
Clim Dyn |
Volume |
38 |
Issue |
1-2 |
Pages |
25-43 |
Keywords |
Stratospheric QBO; Tropical Pacific SST; Interdecadal variation; Walker circulation; Tropical deep convection; ERA40 and NCEP/NCAR reanalyses; ENSO |
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ISSN |
0930-7575 |
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$loc['no'] |
Call Number |
COAPS @ mfield @ |
Serial |
260 |
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Author |
Wu, Z.; Huang, N.E.; Wallace, J.M.; Smoliak, B.V.; Chen, X. |
Title |
On the time-varying trend in global-mean surface temperature |
Type |
$loc['typeJournal Article'] |
Year |
2011 |
Publication |
Climate Dynamics |
Abbreviated Journal |
Clim Dyn |
Volume |
37 |
Issue |
3-4 |
Pages |
759-773 |
Keywords |
Global warming trend; Multidecadal variability; Ensemble empirical mode decomposition; IPCC AR4 |
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0930-7575 |
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$loc['no'] |
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COAPS @ mfield @ |
Serial |
299 |
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Author |
Huang, B.; Hu, Z.-Z.; Kinter, J.L.; Wu, Z.; Kumar, A. |
Title |
Connection of stratospheric QBO with global atmospheric general circulation and tropical SST. Part I: methodology and composite life cycle |
Type |
$loc['typeJournal Article'] |
Year |
2012 |
Publication |
Climate Dynamics |
Abbreviated Journal |
Clim Dyn |
Volume |
38 |
Issue |
1-2 |
Pages |
1-23 |
Keywords |
Stratospheric QBO; Tropical Pacific SST; Walker circulation; Deep convection; Atmospheric stability; ERA40 and NCEP/NCAR reanalyses |
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0930-7575 |
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$loc['no'] |
Call Number |
COAPS @ mfield @ |
Serial |
259 |
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Author |
Huang, B.; Hu, Z.-Z.; Schneider, E.K.; Wu, Z.; Xue, Y.; Klinger, B. |
Title |
Influences of tropical-extratropical interaction on the multidecadal AMOC variability in the NCEP climate forecast system |
Type |
$loc['typeJournal Article'] |
Year |
2012 |
Publication |
Climate Dynamics |
Abbreviated Journal |
Clim Dyn |
Volume |
39 |
Issue |
3-4 |
Pages |
531-555 |
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0930-7575 |
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$loc['no'] |
Call Number |
COAPS @ mfield @ |
Serial |
244 |
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Author |
Chen, X.; Zhang, Y.; Zhang, M.; Feng, Y.; Wu, Z.; Qiao, F.; Huang, N.E. |
Title |
Intercomparison between observed and simulated variability in global ocean heat content using empirical mode decomposition, part I: modulated annual cycle |
Type |
$loc['typeJournal Article'] |
Year |
2013 |
Publication |
Climate Dynamics |
Abbreviated Journal |
Clim Dyn |
Volume |
41 |
Issue |
11-12 |
Pages |
2797-2815 |
Keywords |
Ocean heat content; Modulated annual cycle; Empirical mode decomposition; Instantaneous frequency; Instantaneous amplitude; CMIP3 |
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0930-7575 |
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$loc['no'] |
Call Number |
COAPS @ mfield @ |
Serial |
209 |
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Author |
Misra, V.; Li, H.; Wu, Z.; DiNapoli, S. |
Title |
Global seasonal climate predictability in a two tiered forecast system: part I: boreal summer and fall seasons |
Type |
$loc['typeJournal Article'] |
Year |
2014 |
Publication |
Climate Dynamics |
Abbreviated Journal |
Clim Dyn |
Volume |
42 |
Issue |
5-6 |
Pages |
1425-1448 |
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0930-7575 |
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$loc['no'] |
Call Number |
COAPS @ mfield @ |
Serial |
142 |
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Author |
Hu, X.; Cai, M.; Yang, S.; Wu, Z. |
Title |
Delineation of thermodynamic and dynamic responses to sea surface temperature forcing associated with El Niño |
Type |
$loc['typeJournal Article'] |
Year |
2018 |
Publication |
Climate Dynamics |
Abbreviated Journal |
Clim Dyn |
Volume |
51 |
Issue |
11-12 |
Pages |
4329-4344 |
Keywords |
El Niño; SST anomalies; Thermodynamic and dynamic responses; Gill-type response |
Abstract |
A new framework is proposed to gain a better understanding of the response of the atmosphere over the tropical Pacific to the radiative heating anomaly associated with the sea surface temperature (SST) anomaly in canonical El Niño winters. The new framework is based on the equilibrium balance between thermal radiative cooling anomalies associated with air temperature response to SST anomalies and other thermodynamic and dynamic processes. The air temperature anomalies in the lower troposphere are mainly in response to radiative heating anomalies associated with SST, atmospheric water vapor, and cloud anomalies that all exhibit similar spatial patterns. As a result, air temperature induced thermal radiative cooling anomalies would balance out most of the radiative heating anomalies in the lower troposphere. The remaining part of the radiative heating anomalies is then taken away by an enhancement (a reduction) of upward energy transport in the central-eastern (western) Pacific basin, a secondary contribution to the air temperature anomalies in the lower troposphere. Above the middle troposphere, radiative effect due to water vapor feedback is weak. Thermal radiative cooling anomalies are mainly in balance with the sum of latent heating anomalies, vertical and horizontal energy transport anomalies associated with atmospheric dynamic response and the radiative heating anomalies due to changes in cloud. The pattern of Gill-type response is attributed mainly to the non-radiative heating anomalies associated with convective and large-scale energy transport. The radiative heating anomalies associated with the anomalies of high clouds also contribute positively to the Gill-type response. This sheds some light on why the Gill-type atmospheric response can be easily identifiable in the upper atmosphere. |
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0930-7575 |
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$loc['no'] |
Call Number |
COAPS @ user @ |
Serial |
997 |
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Author |
Sun, J.; Wu, Z. |
Title |
Isolating spatiotemporally local mixed Rossby-gravity waves using multi-dimensional ensemble empirical mode decomposition |
Type |
$loc['typeJournal Article'] |
Year |
2019 |
Publication |
Climate Dynamics |
Abbreviated Journal |
Clim Dyn |
Volume |
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Issue |
3-4 |
Pages |
1383-1405 |
Keywords |
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Abstract |
Tropical waves have relatively large amplitudes in and near convective systems, attenuating as they propagate away from the area where they are generated due to the dissipative nature of the atmosphere. Traditionally, nonlocal analysis methods, such as those based on the Fourier transform, are applied to identify tropical waves. However, these methods have the potential to lead to the misidentification of local wavenumbers and spatial locations of local wave activities. To address this problem, we propose a new method for analyzing tropical waves, with particular focus placed on equatorial mixed Rossby-gravity (MRG) waves. The new tropical wave analysis method is based on the multi-dimensional ensemble empirical mode decomposition and a novel spectral representation based on spatiotemporally local wavenumber, frequency, and amplitude of waves. We first apply this new method to synthetic data to demonstrate the advantages of the method in revealing characteristics of MRG waves. We further apply the method to reanalysis data (1) to identify and isolate the spatiotemporally heterogeneous MRG waves event by event, and (2) to quantify the spatial inhomogeneity of these waves in a wavenumber-frequency-energy diagram. In this way, we reveal the climatology of spatiotemporal inhomogeneity of MRG waves and summarize it in wavenumber-frequency domain: The Indian Ocean is dominated by MRG waves in the period range of 8–12 days; the western Pacific Ocean consists of almost equal energy distribution of MRG waves in the period ranges of 3–6 and 8–12 days, respectively; and the eastern tropical Pacific Ocean and the tropical Atlantic Ocean are dominated by MRG waves in the period range of 3–6 days. The zonal wavenumbers mostly fall within the band of 4–15, with Indian Ocean has larger portion of higher wavenumber (smaller wavelength components) MRG waves. |
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0930-7575 |
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$loc['no'] |
Call Number |
COAPS @ user @ |
Serial |
1093 |
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