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Space Sciences Series of ISSI

Shallow Clouds, Water Vapor, Circulation, and Climate Sensitivity

Herausgeber: Pincus, R., Winker, D., Bony, S., Stevens, B. (Eds.)

  • Provides a comprehensive view of the role of clouds and water vapor in helping control the past, present, and future large-scale circulations, with impacts on climate sensitivity
  • Includes thorough assessments of current understanding and future opportunities enabled by field experiments, new and prospective technologies, and emerging synthesis and understanding
  • Represents a deep source of cutting-edge information on the topics of convective self-aggregation and low cloud feedbacks
  • Presents a unified view of clouds, water vapor, and circulation informed by observational, theoretical, and modeling approaches 
Weitere Vorteile

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eBook 101,14 €
Preis für Deutschland (Brutto)
  • ISBN 978-3-319-77273-8
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  • eBooks sind auf allen Endgeräten nutzbar
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Hardcover 128,39 €
Preis für Deutschland (Brutto)
  • ISBN 978-3-319-77272-1
  • Kostenfreier Versand für Individualkunden weltweit
  • Gewöhnlich versandfertig in 3-5 Werktagen.
Über dieses Buch

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.

Über den Autor

Robert Pincus is a senior research scientist at the Cooperative Institute for Research in Environmental Sciences at the University of Colorado. He works on problems at the nexus of clouds, radiation, and climate ranging from practical questions as to how radiation calculations may be optimally coupled to modeling systems, through efforts aimed at the robust comparison of models and remote sensing observations, to a range of contributions synthesizing how observations of the past and projections of future change can be synthesized.

David Winker is a senior scientist at NASA Langley Research Center and Principal Investigator of the CALIPSO satellite mission. His work focuses on the use of lidar and combined lidar and passive observations to better understand atmospheric aerosols and clouds. His efforts have ranged from the development of space lidar systems and innovative retrieval techniques to the development of global lidar data products tailored to the needs of the climate and operational weather forecast communities. CALIPSO global cloud products have served as benchmark references for the GEWEX Cloud Assessment and for the evaluation of cloud thermodynamic phase in global models, leading to new insights into the behavior of clouds and guiding the improvement of models.

Bjorn Stevens is a director at the Max Planck Institute for Meteorology, where he leads the Atmosphere in the Earth System Department, and a professor at the University of Hamburg. His research, which uses a wide range of methodologies to study how water in the atmosphere influences Earth’s climate, has made important contributions to understanding of how turbulent mixing and cloud microphysical processes influence the structure and organization of clouds.  In showing how these processes influence the cloud response to warming, and how radiative forcing responds to aerosol perturbations, his research has proven instrumental for our present comprehension of climate change. 

Sandrine Bony is a Director of Research at the National Center for Scientific Research (CNRS) in France, working at the Laboratoire de Météorologie Dynamique (LMD) of Sorbonne University. Her research aims at understanding the role of clouds in climate and in climate change through modeling, observational and theoretical approaches. Her most important contributions include unraveling the physical mechanisms through which clouds respond to climate change and influence climate sensitivity, showing the influence of the organization of tropical convection on climate, and understanding the ways in which clouds and precipitation couple to atmospheric circulations.

 

Inhaltsverzeichnis (16 Kapitel)

  • Convective Self-Aggregation in Numerical Simulations: A Review

    Wing, Allison A. (et al.)

    Seiten 1-25

  • Observing Convective Aggregation

    Holloway, Christopher E. (et al.)

    Seiten 27-64

  • An Observational View of Relationships Between Moisture Aggregation, Cloud, and Radiative Heating Profiles

    Lebsock, Matthew D. (et al.)

    Seiten 65-82

  • Correction to: An Observational View of Relationships Between Moisture Aggregation, Cloud, and Radiative Heating Profiles

    Lebsock, Matthew D. (et al.)

    Seiten 83-83

  • Implications of Warm Rain in Shallow Cumulus and Congestus Clouds for Large-Scale Circulations

    Nuijens, Louise (et al.)

    Seiten 85-110

Dieses Buch kaufen

eBook 101,14 €
Preis für Deutschland (Brutto)
  • ISBN 978-3-319-77273-8
  • Versehen mit digitalem Wasserzeichen, DRM-frei
  • Erhältliche Formate: PDF
  • eBooks sind auf allen Endgeräten nutzbar
  • Sofortiger eBook Download nach Kauf
Hardcover 128,39 €
Preis für Deutschland (Brutto)
  • ISBN 978-3-319-77272-1
  • Kostenfreier Versand für Individualkunden weltweit
  • Gewöhnlich versandfertig in 3-5 Werktagen.
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Bibliografische Information

Bibliographic Information
Buchtitel
Shallow Clouds, Water Vapor, Circulation, and Climate Sensitivity
Herausgeber
  • Robert Pincus
  • David Winker
  • Sandrine Bony
  • Bjorn Stevens
Titel der Buchreihe
Space Sciences Series of ISSI
Buchreihen Band
65
Copyright
2018
Verlag
Springer International Publishing
Copyright Inhaber
This is a U.S. Government work and not under copyright protection in the US; foreign copyright protection may apply
eBook ISBN
978-3-319-77273-8
DOI
10.1007/978-3-319-77273-8
Hardcover ISBN
978-3-319-77272-1
Buchreihen ISSN
1385-7525
Auflage
1
Seitenzahl
VIII, 396
Anzahl der Bilder und Tabellen
10 schwarz-weiß Abbildungen, 134 Abbildungen in Farbe
Zusätzliche Informationen
Spin-off from the journal Surveys in Geophysics, Volume 38, Issue 6, 2017
Themen