Amplification of Surface Temperature Trends and Variability in the Tropical Atmosphere | Zendy

Benjamin D. Santer | Zendy; T. M. L. Wigley | Zendy; C. A. Mears | Zendy; F. J. Wentz | Zendy; Stephen A. Klein | Zendy; Dian J. Seidel | Zendy; Karl E. Taylor | Zendy; Peter Thorne | Zendy; Michael Wehner | Zendy; Peter J. Gleckler | Zendy; J. S. Boyle | Zendy; William D. Collins | Zendy; Keith W. Dixon | Zendy; Charles Doutriaux | Zendy; Melissa Free | Zendy; Qiang Fu | Zendy; James E. Hansen | Zendy; Gareth S. Jones | Zendy; Reto Rüedy | Zendy; Thomas R. Karl | Zendy; John R. Lanzante | Zendy; Gerald A. Meehl | Zendy; V. Ramaswamy | Zendy; G. Russell | Zendy; Gavin A. Schmidt | Zendy

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Amplification of Surface Temperature Trends and Variability in the Tropical Atmosphere

Author(s) -

Benjamin D. Santer,

T. M. L. Wigley,

C. A. Mears,

F. J. Wentz,

Stephen A. Klein,

Dian J. Seidel,

Karl E. Taylor,

Peter Thorne,

Michael Wehner,

Peter J. Gleckler,

J. S. Boyle,

William D. Collins,

Keith W. Dixon,

Charles Doutriaux,

Melissa Free,

Qiang Fu,

James E. Hansen,

Gareth S. Jones,

Reto Rüedy,

Thomas R. Karl,

John R. Lanzante,

Gerald A. Meehl,

V. Ramaswamy,

G. Russell,

Gavin A. Schmidt

Publication year - 2005

Publication title -

science

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 12.556

H-Index - 1186

eISSN - 1095-9203

pISSN - 0036-8075

DOI - 10.1126/science.1114867

Subject(s) - climatology , troposphere , environmental science , atmospheric sciences , climate model , atmosphere (unit) , residual , range (aeronautics) , climate change , meteorology , geology , geography , oceanography , mathematics , materials science , algorithm , composite material

The month-to-month variability of tropical temperatures is larger in the troposphere than at Earth's surface. This amplification behavior is similar in a range of observations and climate model simulations and is consistent with basic theory. On multidecadal time scales, tropospheric amplification of surface warming is a robust feature of model simulations, but it occurs in only one observational data set. Other observations show weak, or even negative, amplification. These results suggest either that different physical mechanisms control amplification processes on monthly and decadal time scales, and models fail to capture such behavior; or (more plausibly) that residual errors in several observational data sets used here affect their representation of long-term trends.

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