The NOAA El Niño Rapid Response Field Campaign: Science Overview
Abstract
Forecasts by mid-summer 2015 indicated the likelihood of a strong and potentially record El Niño for the upcoming winter. The forecasts posed a fundamental challenge to NOAA: To what extent could the agency adapt its research and services, given advance information of a potentially extreme climate event? Taking a proactive approach, NOAA initiated the NOAA El Niño Rapid Response (ENRR) project. The ENRR included an observational field campaign led by the ESRL Physical Sciences Division together with model experiments performed to optimize observational strategies and support NOAA services in anticipating risks and impacts related to this event. The full ENRR ultimately involved contributions from across NOAA as well as from external partners. This presentation focuses on the ENRR field campaign. It summarizes the primary drivers for the campaign, questions, hypotheses, and objectives, a few surprises and lessons learned, and concludes with thoughts on future directions. The main aim of the field campaign was to determine the initial tropical atmospheric response linking this El Niño to its global impacts. Intensive observations were conducted in a data-sparse region over the central Pacific Ocean near the heart of El Niño, using NOAA's Gulfstream IV (G-IV) to obtain wind, temperature, moisture, and precipitation profiles from dropsondes, tail Doppler radar, and flight level observations. Most flights were over the central tropical Pacific, sampling organized tropical convection and convective outflow. The G-IV data were augmented in the central Pacific by radiosonde launches from Kiritimati and in the eastern tropical Pacific from the NOAA ship Ronald H. Brown. In the extratropics, a scanning X-band radar was deployed in Santa Clara CA. Additional extratropical flights were conducted by NOAA with the Global Hawk, and by partners at NASA Ames and the Scripps Institution of Oceanography. Data from the ENRR campaign were provided in real-time for assimilation into operational prediction models through the Global Telecommunication System, and are available to the community through the NOAA ESRL/PSD web site ENRR data. The data are being used now to address a broad array of research questions, and provide an unprecedented set of tropical atmospheric observations during a strong El Niño to support future research.
- Publication:
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AGU Fall Meeting Abstracts
- Pub Date:
- December 2016
- Bibcode:
- 2016AGUFM.A41L..03D
- Keywords:
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- 3339 Ocean/atmosphere interactions;
- ATMOSPHERIC PROCESSESDE: 3373 Tropical dynamics;
- ATMOSPHERIC PROCESSESDE: 4215 Climate and interannual variability;
- OCEANOGRAPHY: GENERALDE: 4522 ENSO;
- OCEANOGRAPHY: PHYSICAL