Journal ArticleDOI
Convectively Coupled Equatorial Waves: Analysis of Clouds and Temperature in the Wavenumber–Frequency Domain
Reads0
Chats0
TLDR
In this article, a wavenumber-frequency spectrum analysis is performed for all longitudes in the domain 158S−158N using a long (;18 years) twice-daily record of satellite-observed outgoing longwave radiation (OLR), a good proxy for deep tropical convection.Abstract:
A wavenumber-frequency spectrum analysis is performed for all longitudes in the domain 158S‐158N using a long (;18 years) twice-daily record of satellite-observed outgoing longwave radiation (OLR), a good proxy for deep tropical convection. The broad nature of the spectrum is red in both zonal wavenumber and frequency. By removing an estimated background spectrum, numerous statistically significant spectral peaks are isolated. Some of the peaks correspond quite well to the dispersion relations of the equatorially trapped wave modes of shallow water theory with implied equivalent depths in the range of 12‐50 m. Cross-spectrum analysis with the satellite-based microwave sounding unit deep-layer temperature data shows that these spectral peaks in the OLR are ‘‘coupled’’ with this dynamical field. The equivalent depths of the convectively coupled waves are shallower than those typical of equatorial waves uncoupled with convection. Such a small equivalent depth is thought to be a result of the interaction between convection and the dynamics. The convectively coupled equatorial waves identified correspond to the Kelvin, n 5 1 equatorial Rossby, mixed Rossby-gravity, n 5 0 eastward inertiogravity, n 5 1 westward inertio-gravity (WIG), and n 5 2 WIG waves. Additionally, the Madden‐Julian oscillation and tropical depression-type disturbances are present in the OLR spectra. These latter two features are unlike the convectively coupled equatorial waves due to their location away from the equatorial wave dispersion curves in the wavenumber-frequency domain. Extraction of the different convectively coupled disturbances in the time‐longitude domain is performed by filtering the OLR dataset for very specific zonal wavenumbers and frequencies. The geographical distribution of the variance of these filtered data gives further evidence that some of the spectral peaks correspond to particular equatorial wave modes. The results have implications for the cumulus parameterization problem, for the excitation of equatorial waves in the lower stratosphere, and for extended-range forecasting in the Tropics.read more
Citations
More filters
Cloud and Circulation Feedbacks in a Near-Global Aquaplanet Cloud-Resolving Model
TL;DR: In this article, a near-global aqua-planet cloud-resolving model with fixed meridionally-varying sea-surface temperature (SST) is used to investigate cloud feedbacks due to three climate perturbations: a uniform 4 K SST increase, a quadrupled CO2 concentration, and both combined.
Journal ArticleDOI
Convective Coupling in Tropical-Depression-Type Waves. Part I: Rainfall Characteristics and Moisture Structure
TL;DR: In this paper, the authors examine the rainfall progression in tropical depression (TD) type disturbances and associated tropospheric moisture controlling convective rainfall, and investigate the rainfall and moisture characteristics of TD-type waves using TRMM-derived rainfall products and the ERA-Interim data during the period of June-October 1998-2013.
Journal ArticleDOI
Role of convective and microphysical processes on the simulation of monsoon intraseasonal oscillation
Ushnanshu Dutta,Ushnanshu Dutta,Hemantkumar S. Chaudhari,Anupam Hazra,Samir Pokhrel,Subodh Kumar Saha,Chinta Veeranjaneyulu +6 more
TL;DR: In this paper, the role of ice-phase microphysics and convection for better simulation of Indian summer monsoon rainfall (ISMR) and monsoon intraseasonal oscillation (MISO) was explored.
Journal ArticleDOI
A local index of Maritime Continent intraseasonal variability based on rain rates over the land and sea
TL;DR: In this paper, a local index for describing intraseasonal variability over the Maritime Continent is developed, based on the ratio of area-averaged rain rate over the land to that over the sea.
Interactions between Tropical Convection and the Environment: A View across Scales
Abstract: The interaction between moist convection and the environment that engenders it is a problem that spans multiple scales. In this study, the problem is approached using a suite of observational and modeling tools. The first approach was the development of an algorithm to estimate latent heating profiles from radar observations using a high-resolution version of the Weather Research and Forecasting Model (WRF). A lookup table was constructed from WRF output to statistically quantify the relationship between latent heating and three characteristics of radar-observed storms: size, mean height and mean intensity. A tight link between organization (characterized by the size of the system) and the intensity (as measured by latent heat release) was found. The algorithm was validated against field campaign observations and shows skill in replicating the short-term (less than daily) variability associated with tropical synoptic systems. The second approach was to analyze the relationship between convection and the environment via moisture modulation using the Tropical Rain Measuring Mission satellite and reanalysis data, with focus on the tropical precipitation-water vapor relationship (P-r curve) which is a power-law relationship, which at the convective time and space scales is characterized by a sharp increase in precipitation beyond a critical value of moisture (the pickup threshold). The convective and stratiform components of the P-r relationship were studied separately and it was found that the pickup in tropical precipitation mainly originates from a rapid pickup in the areal extent of stratiform precipitation. A survey of the P-r curve across the tropical world–both land and ocean–shows that the pickup threshold is much lower over tropical land than over
References
More filters
Journal ArticleDOI
The NCEP/NCAR 40-Year Reanalysis Project
Eugenia Kalnay,Masao Kanamitsu,Robert Kistler,William D. Collins,D.G. Deaven,L. S. Gandin,M. Iredell,Suranjana Saha,Glenn H. White,John S. Woollen,Yuejian Zhu,Muthuvel Chelliah,Wesley Ebisuzaki,Wayne Higgins,John E. Janowiak,Kingtse C. Mo,Chester F. Ropelewski,Julian X. L. Wang,Ants Leetmaa,Richard W. Reynolds,Roy L. Jenne,Dennis Joseph +21 more
TL;DR: The NCEP/NCAR 40-yr reanalysis uses a frozen state-of-the-art global data assimilation system and a database as complete as possible, except that the horizontal resolution is T62 (about 210 km) as discussed by the authors.
Journal ArticleDOI
Quasi-geostrophic motions in the equatorial area
TL;DR: In this article, a single layer of homogeneous incompressible fluid with free surface is treated, where the Coriolis parameter is assumed to be proportional to the latitude, and a strong east-west current was formed along the equator.
Journal ArticleDOI
Observations of the 40-50-day tropical oscillation - a review
Roland A. Madden,Paul R. Julian +1 more
TL;DR: The 40-50-day cyclone oscillation is the result of large-scale circulation cells oriented in the equatorial plane that move eastward from at least the Indian Ocean to the central Pacific as discussed by the authors.
Journal ArticleDOI
TOGA COARE: The Coupled Ocean-Atmosphere Response Experiment.
Peter J. Webster,Roger Lukas +1 more
TL;DR: In this article, the authors present a simulation of the western Pacific warm pool, the region of the warmest sea surface temperature in the open oceans, which coexists with the largest annual precipitation and latent heat release in the atmosphere.