Studies Of Cloud Convection And Precipitation Processes Using Satellite Observations PDF Download

Are you looking for read ebook online? Search for your book and save it on your Kindle device, PC, phones or tablets. Download Studies Of Cloud Convection And Precipitation Processes Using Satellite Observations PDF full book. Access full book title Studies Of Cloud Convection And Precipitation Processes Using Satellite Observations.

Studies Of Cloud, Convection And Precipitation Processes Using Satellite Observations

Studies Of Cloud, Convection And Precipitation Processes Using Satellite Observations
Author: William B Rossow
Publisher: World Scientific
Total Pages: 333
Release: 2022-10-26
Genre: Technology & Engineering
ISBN: 9811256926
GET BOOK

Download Studies Of Cloud, Convection And Precipitation Processes Using Satellite Observations Book in PDF, ePub and Kindle

Clouds, convection and precipitation processes are central components of Earth's weather and climate. They are produced by atmospheric motions across a very wide range of space-time scales from local weather to long-term global climate variation. They feedback on these motions by perturbing the heating/cooling that drive the atmospheric circulation. These processes also perturb the oceanic circulation and land surface properties that affect the atmospheric circulation.Because of the coupling of the atmosphere-ocean-land system across all scales by cloud, convection and precipitation processes, studying their behaviors requires measurements in space-time variations across all these scales simultaneously. Satellite constellations with global coverage and high time resolution offer the ideal platforms for such observations. This book summarizes some of the latest research using combinations of various satellite observations to study these processes and to evaluate their representations in global weather and climate models.Included with this publication are downloadable electronic slides and accompanying notes of each lecture for students, teachers, and public speakers around the world to be better able to understand cloud, convection and precipitation processes.

Clouds and Their Climatic Impact

Clouds and Their Climatic Impact
Author: Sylvia Sullivan
Publisher: John Wiley & Sons
Total Pages: 371
Release: 2023-12-19
Genre: Science
ISBN: 1119700310
GET BOOK

Download Clouds and Their Climatic Impact Book in PDF, ePub and Kindle

Clouds and Their Climatic Impacts Clouds are an influential and complex element of Earth’s climate system. They evolve rapidly in time and exist over small spatial scales, but also affect global radiative balance and large-scale circulations. With more powerful models and extensive observations now at our disposal, the climate impact of clouds is receiving ever more research attention. Clouds and Their Climatic Impacts: Radiation, Circulation, and Precipitation presents an overview of our current understanding on various types of clouds and cloud systems and their multifaceted role in the radiative budget, circulation patterns, and rainfall. Volume highlights include: Interactions of aerosol with both liquid and ice clouds Surface and atmospheric cloud radiative feedbacks and effects Arctic, extratropical, and tropical clouds Cloud-circulation coupling at global, meso, and micro scales Precipitation efficiency, phase, and measurements The role of machine learning in understanding clouds and climate The American Geophysical Union promotes discovery in Earth and space science for the benefit of humanity. Its publications disseminate scientific knowledge and provide resources for researchers, students, and professionals.

Characterizing Deep Convective Cloud Properties and Their Energetic Impacts in Satellite Observations

Characterizing Deep Convective Cloud Properties and Their Energetic Impacts in Satellite Observations
Author: Juliet Ann Pilewskie
Publisher:
Total Pages: 0
Release: 2023
Genre:
ISBN:
GET BOOK

Download Characterizing Deep Convective Cloud Properties and Their Energetic Impacts in Satellite Observations Book in PDF, ePub and Kindle

Because atmospheric deep convection plays an important role in influencing Earth's global energy budget, it is increasingly important to consider how deep convective cloud and energetic properties might change due to a changing climate. Deep convective vertical intensity may increase in regions that are becoming increasingly moist in response to warming sea surface temperatures, which could alter precipitation, anvil cloud development, and their radiative response. The focus of this work, therefore, is to document the relationships between these properties applied to our present-day understanding of how convection fundamentally contributes to the Earth's energy budget: by 1) vertically transporting energy and mass to the upper troposphere, 2) balancing clear-sky radiative cooling through latent heating, and 3) modulating the top-of-atmospheric radiative energy budget. The processes influencing how convective updraft strength relates to cloud and precipitation development occur on the convective cloud scale and smaller, so it is necessary to document such characteristics on these scales. We begin by providing a near-global perspective of convection using a database of "convective objects" generated from ten years of A-Train measurements. By leveraging CloudSat's ability to distinguish convective cores, we define a proxy for a convective core vertical intensity based on the height of the attenuating radar signal. Over the tropics, these observations support previous insights from a precipitation perspective on where storms are the most intense. Motivated by wanting to understand deep convective contributions to lateral energy transport, we next document how the intensity and frequency of deep convective cores that reach the tropopause (hot towers) relate to anvil cloud and precipitation productivity within the tropics. It is found that the largest amount of mass within the upper troposphere supplied by hot towers is not geographically where the most precipitation and largest anvil extents occur. Motivated by convection's influence on the top-of-atmospheric radiative energy budget, we analyze how convective core depth and anvil structure influence their cloud radiative effects. We find that the most vertically intense systems more often contribute a warming at the top of the atmosphere compared to weaker systems, which holds across different regions in the tropics. Finally, we explore how these relationships are sensitive to large-scale environmental conditions to provide benchmark relationships for modeling studies assessing high cloud feedbacks in a changing climate.

Shallow Clouds, Water Vapor, Circulation, and Climate Sensitivity

Shallow Clouds, Water Vapor, Circulation, and Climate Sensitivity
Author: Robert Pincus
Publisher: Springer
Total Pages: 396
Release: 2018-05-29
Genre: Science
ISBN: 3319772732
GET BOOK

Download Shallow Clouds, Water Vapor, Circulation, and Climate Sensitivity Book in PDF, ePub and Kindle

This volume presents a series of overview articles arising from a workshop exploring the links among shallow clouds, water vapor, circulation, and climate sensitivity. It provides a state-of-the art synthesis of understanding about the coupling of clouds and water vapor to the large-scale circulation. The emphasis is on two phenomena, namely the self-aggregation of deep convection and interactions between low clouds and the large-scale environment, with direct links to the sensitivity of climate to radiative perturbations. Each subject is approached using simulations, observations, and synthesizing theory; particular attention is paid to opportunities offered by new remote-sensing technologies, some still prospective. The collection provides a thorough grounding in topics representing one of the World Climate Research Program’s Grand Challenges. Previously published in Surveys in Geophysics, Volume 38, Issue 6, 2017 The aritcles “Observing Convective Aggregation”, “An Observational View of Relationships Between Moisture Aggregation, Cloud, and Radiative Heating Profiles”, “Implications of Warm Rain in Shallow Cumulus and Congestus Clouds for Large-Scale Circulations”, “A Survey of Precipitation-Induced Atmospheric Cold Pools over Oceans and Their Interactions with the Larger-Scale Environment”, “Low-Cloud Feedbacks from Cloud-Controlling Factors: A Review”, “Mechanisms and Model Diversity of Trade-Wind Shallow Cumulus Cloud Feedbacks: A Review”, “Structure and Dynamical Influence of Water Vapor in the Lower Tropical Troposphere”, “Emerging Technologies and Synergies for Airborne and Space-Based Measurements of Water Vapor Profiles”, “Observational Constraints on Cloud Feedbacks: The Role of Active Satellite Sensors”, and “EUREC4A: A Field Campaign to Elucidate the Couplings Between Clouds, Convection and Circulation” are available as open access articles under a CC BY 4.0 license at link.springer.com.

Cloud-Resolving Modeling of Convective Processes

Cloud-Resolving Modeling of Convective Processes
Author: Xiaofan Li
Publisher: Springer
Total Pages: 364
Release: 2016-05-17
Genre: Science
ISBN: 3319263609
GET BOOK

Download Cloud-Resolving Modeling of Convective Processes Book in PDF, ePub and Kindle

This is an updated and revised second edition of the book presenting new developments in the field of cloud-resolving modeling. The first edition of the book introduces the framework of cloud-resolving model, methodologies for analysis of modeling outputs, and validation of simulations with observations. It details important scientific findings in the aspects of surface rainfall processes, precipitation efficiency, dynamic and thermodynamic processes associated with tropical convection, diurnal variations, radiative and cloud microphysical processes associated with development of cloud clusters, air-sea coupling on convective scales, climate equilibrium states, and remote sensing applications. In additional to the content from the first edition of the book, the second edition of the book contains the new scientific results in the development of convective-stratiform rainfall separation scheme, the analysis of structures of precipitation systems, the thermal effects of doubled carbon dioxide on rainfall, precipitation predictability, and modeling depositional growth of ice crystal. The book will be beneficial both to graduate students and to researchers who do cloud, mesoscale and global modeling.

Clouds and Climate

Clouds and Climate
Author: A. Pier Siebesma
Publisher: Cambridge University Press
Total Pages: 421
Release: 2020-08-20
Genre: Mathematics
ISBN: 1107061075
GET BOOK

Download Clouds and Climate Book in PDF, ePub and Kindle

Comprehensive overview of research on clouds and their role in our present and future climate, for advanced students and researchers.

Satellite Measurements of Clouds and Precipitation

Satellite Measurements of Clouds and Precipitation
Author: Hirohiko Masunaga
Publisher: Springer Nature
Total Pages: 303
Release: 2022-04-26
Genre: Science
ISBN: 9811922438
GET BOOK

Download Satellite Measurements of Clouds and Precipitation Book in PDF, ePub and Kindle

This book provides a thorough introductory description of the physical principles underlying the satellite remote sensing of clouds and precipitation. A diverse collection of satellite sensors is covered, including imagers, radars, and sounders over a broad spectral range from visible to microwave radiation. The progress in satellite instrument technology during the past two decades as represented by the Tropical Rainfall Measuring Mission (TRMM), CloudSat, and Global Measurement Mission (GPM) satellites has drastically improved our capability of measuring clouds and precipitation across the globe. At the same time, such rapid progress makes it increasingly challenging for scientists without specialized skills in remote sensing to fully grasp how satellite measurements are being made. This book is designed to mitigate that challenge. The targeted readers are graduate students and professional scientists seeking an extended summary of the theoretical background behind observations from space, ranging from fundamental physics (the statistical mechanics and radiative processes, for instance) to more practical levels of theory such as retrieval algorithm design.

Remote Sensing of Clouds and Precipitation

Remote Sensing of Clouds and Precipitation
Author: Constantin Andronache
Publisher: Springer
Total Pages: 288
Release: 2018-02-21
Genre: Technology & Engineering
ISBN: 3319725831
GET BOOK

Download Remote Sensing of Clouds and Precipitation Book in PDF, ePub and Kindle

This book presents current applications of remote sensing techniques for clouds and precipitation for the benefit of students, educators, and scientists. It covers ground-based systems such as weather radars and spaceborne instruments on satellites. Measurements and modeling of precipitation are at the core of weather forecasting, and long-term observations of the cloud system are vital to improving atmospheric models and climate projections. The first section of the book focuses on the use of ground-based weather radars to observe and measure precipitation and to detect and forecast storms, thunderstorms, and tornadoes. It also discusses the observation of clouds using ground-based millimeter radar. The second part of the book concentrates on spaceborne remote sensing of clouds and precipitation. It includes cases from the Tropical Rainfall Measuring Mission (TRMM) and the Global Precipitation Measurement (GPM) mission, using satellite radars to observe precipitation systems. Then, the focus is on global cloud observations from the ClaudSat, Cloud-Aerosol Lidar and Infrared Pathfinder Satellite Observation (CALIPSO), including a perspective on the Earth Clouds, Aerosols, and Radiation Explorer (EarthCARE) satellite. It also addresses global atmospheric water vapor profiling for clear and cloudy conditions using microwave observations. The final part of this volume provides a perspective into advances in cloud modeling using remote sensing observations.

Current Trends in the Representation of Physical Processes in Weather and Climate Models

Current Trends in the Representation of Physical Processes in Weather and Climate Models
Author: David A. Randall
Publisher: Springer
Total Pages: 372
Release: 2019-01-31
Genre: Science
ISBN: 9811333963
GET BOOK

Download Current Trends in the Representation of Physical Processes in Weather and Climate Models Book in PDF, ePub and Kindle

This book focuses on the development of physical parameterization over the last 2 to 3 decades and provides a roadmap for its future development. It covers important physical processes: convection, clouds, radiation, land-surface, and the orographic effect. The improvement of numerical models for predicting weather and climate at a variety of places and times has progressed globally. However, there are still several challenging areas, which need to be addressed with a better understanding of physical processes based on observations, and to subsequently be taken into account by means of improved parameterization. And this is all the more important since models are increasingly being used at higher horizontal and vertical resolutions. Encouraging debate on the cloud-resolving approach or the hybrid approach with parameterized convection and grid-scale cloud microphysics and its impact on models’ intrinsic predictability, the book offers a motivating reference guide for all researchers whose work involves physical parameterization problems and numerical models.

On the Interactions Between Clouds and Atmospheric Circulation in the Tropics and Midlatitudes

On the Interactions Between Clouds and Atmospheric Circulation in the Tropics and Midlatitudes
Author: Casey J. Wall
Publisher:
Total Pages: 158
Release: 2018
Genre:
ISBN:
GET BOOK

Download On the Interactions Between Clouds and Atmospheric Circulation in the Tropics and Midlatitudes Book in PDF, ePub and Kindle

Cloud radiative feedbacks are the largest source of uncertainty in climate projections. It has been shown that narrowing this uncertainty will require a better understanding of the two-way interactions between clouds and the atmospheric circulation. Understanding cloud-circulation interactions and constraining cloud-climate feedbacks are therefore important and urgent goals in climate research. These topics are investigated in this thesis. In Part A, satellite observations are used to study the interactions between clouds and atmospheric circulation over the Southern Ocean. Atmospheric motions modify the boundary-layer stratification, inversion strength, and large-scale vertical motion, and in doing so, modulate clouds. Surface heat fluxes also significantly modulate shallow clouds. The ability of climate models to simulate these processes is investigated. Climate models consistently struggle to accurately represent shallow clouds in subfreezing environments. The implications of these model biases for uncertainty in cloud-climate feedbacks is discussed. In Part B, cloud-circulation interactions are investigated over the warm and convective tropical oceans. In these regions, the average shortwave and longwave cloud radiative effects are individually large but nearly cancel at the top of the atmosphere. It has been hypothesized that this cancellation is caused by two-way interactions between clouds, atmospheric circulation, and sea surface temperature (SST). This hypothesis is investigated using a variety of satellite observations and climate model simulations. First, observations from polar-orbiting satellites are used to investigate the relationships between large-scale circulation and cloud properties. Next, a cloud-tracking algorithm is applied to geostationary satellite observations and is used to study the evolution of clouds, the ambient environment, and the underlying SST over the life cycle of convective storms. Finally, a climate model in global radiative-convective equilibrium configuration is used to investigate the impact of cloud-circulation-SST interactions on tropical climate. All three studies are consistent with the hypothesis that cloud-circulation-SST interactions cause the close balance in cloud radiative effects over warm tropical oceans. It is hypothesized that this mechanism could constrain cloud-climate feedbacks in the warm and convective tropics.