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Evaluation of NMC global analyses : 1979-1987 (1988)

Trenberth, Kevin E. ; National Center for Atmospheric Research 〈Boulder, Colo.〉 ; Olson, Jerry G.

Boulder, Colo. : National Center for Atmospheric Research [u.a.]

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Call number: AWI A5-04-0045

In: NCAR technical notes

Type of Medium: Series available for loan

Pages: 82 S.

Series Statement: NCAR technical notes 299 : STR

URL: https://opensky.ucar.edu/islandora/object/technotes%3A411

Note: Table of Contents: Preface. - Acknowledgments. - 1. Introduction. - 2. The evolution of GDAS. - 3. The NMC data set. - 4. Internal consistency. - 5. Problems with individual analyses. - 6. 15 day averages. - 7. Discussion and conclusions. - References. - Appendix I Acronyms. - Appendix II Summary of NMC operational changes. - Appendix III Impact of NMC operational changes. - Appendix IV Missing data. - Appendix V Bad/suspicious NMC data. - Appendix VI Trends/changes in NMC data.

Location: AWI Reading room

Branch Library: AWI Library

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Designing the climate observing system of the future (2018)

Weatherhead, Elizabeth C. ; Wielicki, Bruce A. ; Ramaswamy, Venkatachalam ; [et al.]

John Wiley & Sons

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Publication Date: 2022-05-26

Description: © The Author(s), 2018. This article is distributed under the terms of the Creative Commons Attribution License. The definitive version was published in Earth's Future 6 (2018): 80–102, doi:10.1002/2017EF000627.

Description: Climate observations are needed to address a large range of important societal issues including sea level rise, droughts, floods, extreme heat events, food security, and freshwater availability in the coming decades. Past, targeted investments in specific climate questions have resulted in tremendous improvements in issues important to human health, security, and infrastructure. However, the current climate observing system was not planned in a comprehensive, focused manner required to adequately address the full range of climate needs. A potential approach to planning the observing system of the future is presented in this article. First, this article proposes that priority be given to the most critical needs as identified within the World Climate Research Program as Grand Challenges. These currently include seven important topics: melting ice and global consequences; clouds, circulation and climate sensitivity; carbon feedbacks in the climate system; understanding and predicting weather and climate extremes; water for the food baskets of the world; regional sea-level change and coastal impacts; and near-term climate prediction. For each Grand Challenge, observations are needed for long-term monitoring, process studies and forecasting capabilities. Second, objective evaluations of proposed observing systems, including satellites, ground-based and in situ observations as well as potentially new, unidentified observational approaches, can quantify the ability to address these climate priorities. And third, investments in effective climate observations will be economically important as they will offer a magnified return on investment that justifies a far greater development of observations to serve society's needs.

Keywords: Climate observations ; Climate Observing System Simulation Experiments ; Value of information ; Economic value ; Grand challenges

Repository Name: Woods Hole Open Access Server

Type: Article

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New Record Ocean Temperatures and Related Climate Indicators in 2023 (2024)

Cheng, Lijing ; Abraham, John ; Trenberth, Kevin E ; [et al.]

Springer-Nature

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Publication Date: 2024-01-19

Description: The global physical and biogeochemical environment has been substantially altered in response to increased atmospheric greenhouse gases from human activities. In 2023, the sea surface temperature (SST) and upper 2000 m ocean heat content (OHC) reached record highs. The 0–2000 m OHC in 2023 exceeded that of 2022 by 15 ± 10 ZJ (1 Zetta Joules = 1021 Joules) (updated IAP/CAS data); 9 ± 5 ZJ (NCEI/NOAA data). The Tropical Atlantic Ocean, the Mediterranean Sea, and southern oceans recorded their highest OHC observed since the 1950s. Associated with the onset of a strong El Niño, the global SST reached its record high in 2023 with an annual mean of ~0.23°C higher than 2022 and an astounding 〉 0.3°C above 2022 values for the second half of 2023. The density stratification and spatial temperature inhomogeneity indexes reached their highest values in 2023.

Description: Published

Description: OSA4: Ambiente marino, fascia costiera ed Oceanografia operativa

Description: JCR Journal

Repository Name: Istituto Nazionale di Geofisica e Vulcanologia (INGV)

Type: article

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