Your search keyword '"Ting, Mingfang"' showing total 6 results

1. Mechanism of Future Spring Drying in the Southwestern United States in CMIP5 Models.

Author

Ting, Mingfang, Seager, Richard, Li, Cuihua, Liu, Haibo, and Henderson, Naomi

Subjects

*CLIMATE change, *ATMOSPHERIC models, *METEOROLOGICAL precipitation, *CONVERGENCE (Meteorology)

Abstract

The net surface water budget, precipitation minus evaporation (P = E), shows a clear seasonal cycle in the U.S. Southwest with a net gain of surface water (positive P = E) in the cold half of the year (October-March) and a net loss of water (negative P = E) in the warm half (April-September), with June and July being the driest months of the year. There is a significant shift of the summer drying toward earlier in the year under a CO2 warming scenario, resulting in substantial spring drying (March-May) of the U.S. Southwest from the near-term future to the end of the current century, with gradually increasing magnitude. While the spring drying has been identified in previous studies, its mechanism has not been fully addressed. Using moisture budget analysis, it was found that the drying is mainly due to decreased mean moisture convergence, partially compensated by the increase in transient eddy moisture flux convergence. The decreased mean moisture convergence is further separated into components as a result of changes in circulation (dynamic changes) and changes in atmospheric moisture content (thermodynamic changes). The drying is found to be dominated by the thermodynamic-driven changes in column-averaged moisture convergence, mainly due to increased dry zonal advection caused by the climatological land-ocean thermal contrast, rather than by the well-known "dry get drier" mechanism. Furthermore, the enhanced dry advection in the warming climate is dominated by the robust zonal mean atmospheric warming, leading to equally robust spring drying in the southwestern United States. [ABSTRACT FROM AUTHOR]

Published

2018

2. Atmospheric Circulation Response to an Instantaneous Doubling of Carbon Dioxide. Part II: Atmospheric Transient Adjustment and Its Dynamics.

Author

Wu, Yutian, Seager, Richard, Shaw, Tiffany A., Ting, Mingfang, and Naik, Naomi

Subjects

ATMOSPHERIC circulation, CARBON dioxide, ATMOSPHERIC models

Abstract

The dynamical mechanisms underlying the transient circulation adjustment in the extratropical atmosphere after the instantaneous doubling of carbon dioxide are investigated using the National Center for Atmospheric Research Community Atmosphere Model version 3 coupled to a Slab Ocean Model. It is shown that the transient process during the first few months of integration is important in setting up the extratropical circulation response in equilibrium such as the poleward shift of the tropospheric jet streams. Three phases are found during the transient thermal/dynamical adjustment in the Northern Hemisphere: 1) a radiatively driven easterly anomaly in the subpolar stratosphere, 2) an acceleration of the westerly anomaly in the subpolar stratosphere as a result of anomalous planetary-scale eddy momentum flux convergence, and 3) a 'downward migration' of the westerly anomaly from the lower stratosphere to the troposphere, followed by the tropospheric jet shift. Several proposed mechanisms for inducing the poleward shift of the tropospheric jet streams are examined. No significant increase in eddy phase speed is found. The rise in tropopause height appears to lead the tropospheric jet shift but no close relation is observed. The length scale of transient eddies does increase but does not lead the tropospheric jet shift. Finally, the tropospheric jet shift can be captured by changes in the index of refraction and the resulting anomalous eddy propagation in the troposphere. [ABSTRACT FROM AUTHOR]

Published

2013

3. Atmospheric Circulation Response to an Instantaneous Doubling of Carbon Dioxide. Part I: Model Experiments and Transient Thermal Response in the Troposphere**.

Author

Wu, Yutian, Seager, Richard, Ting, Mingfang, Naik, Naomi, and Shaw, Tiffany A.

Subjects

ATMOSPHERIC circulation, CARBON dioxide, TROPOSPHERE, WESTERLIES, EDDIES, GLOBAL warming

Abstract

This study aims to understand the dynamical mechanisms driving the changes in the general circulation of the atmosphere due to increased carbon dioxide (CO2) by looking into the transient step-by-step adjustment of the circulation. The transient atmospheric adjustment is examined using the National Center for Atmospheric Research Community Atmosphere Model, version 3, coupled to a slab ocean model, and the CO2 concentration in the atmosphere is uniformly and instantaneously doubled. The thermal structure and circulation response is well established after one year of integration, with the magnitudes gradually increasing afterward toward quasi equilibrium. Tropical upper-tropospheric warming occurs in the first month. The expansion of the warming in the mid- and upper troposphere to the subtropics occurs later and is found to be primarily dynamically driven due to the intensification of transient eddy momentum flux convergence and resulting anomalous descending motion in this region. The poleward displacement of the midlatitude tropospheric jet streams occurs together with the change in eddy momentum flux convergence, but only after the intensification of the subpolar westerlies in the stratosphere. The results demonstrate the importance of the tropospheric eddies in setting up the extratropical tropospheric response to global warming. [ABSTRACT FROM AUTHOR]

Published

2012

4. Would Advance Knowledge of 1930s SSTs Have Allowed Prediction of the Dust Bowl Drought?

Author

Seager, Richard, Kushnir, Yochanan, Ting, Mingfang, Cane, Mark, Naik, Naomi, and Miller, Jennifer

Subjects

OCEAN temperature, WATER temperature, GLOBAL temperature changes, CLIMATOLOGY, DROUGHTS, DUST Bowl Era, 1931-1939

Abstract

Could the Dust Bowl drought of the 1930s have been predicted in advance if the SST anomalies of the 1930s had been foreknown? Ensembles of model simulations forced with historical observed SSTs in the global ocean, and also separately in the tropical Pacific and Atlantic Oceans, are compared with an ensemble begun in January 1929 with modeled atmosphere and land initial conditions and integrated through the 1930s with climatological SSTs. The ensemble with climatological SSTs produces values for the precipitation averaged over 1932–39 that are not statistically different from model climatology. In contrast, the ensembles with global SST forcing produce a drought centered in the central plains and southwestern North America that is clearly separated from the model climatology. Both the tropical Pacific and northern tropical Atlantic SST anomalies produce a statistically significant model drought in this region. The modeled drought has a spatial pattern that is different from the observed drought, which was instead centered in the central and northern plains and also impacted the northern Rocky Mountain states but not northeastern Mexico. The model error in extending the Dust Bowl drought too far south is attributed to an incorrect response of the model to warm subtropical North Atlantic SST anomalies. The model error in the northern states cannot be attributed to an incorrect response to tropical SST anomalies. The model also fails to reproduce the strong surface air warming across most of the continent during the 1930s. In contrast, the modeled patterns of precipitation reduction and surface air temperature warming during the 1950s drought are more realistic. [ABSTRACT FROM AUTHOR]

Published

2008

5. Multiple-Scale Spatio-Temporal Variability of Percipitation over the Coterminous United States.

Author

Joseph, Renu, Ting, Mingfang, and Kumar, Praveen

Subjects

*METEOROLOGICAL precipitation, *WEATHER

Abstract

Presents a study on the spatio-temporal variability of precipitation over the United States. Importance of understanding the nature of spatial and temporal variability of precipitation; Data and methodology used; Results and discussion.

Published

2000

6. Maintenance of circulation anomalies during the 1998 drought and 1993 floods over the United States.

Author

Liu, Alan Z., Ting, Mingfang, and Wang, Hailan

Subjects

*ATMOSPHERIC circulation

Abstract

Analyzes large-scale circulation anomalies associated with the 1988 drought and the 1993 floods in the United States. Description of research methodology used; Examination of differences in monthly climates; In-depth look at the stationary wave anomalies for 1988 and 1993.

Published

1998