National Oceanic and Atmospheric Administration seal
|Headquarters||"Montgomery, "Maryland, U.S.|
|Motto||OAR's Vision is to deliver NOAA’s future.
OAR's Mission is to conduct research to understand and predict the Earth’s oceans, weather and climate, to advance NOAA science, service and stewardship and transition the results so they are useful to society.
Oceanic and Atmospheric Research (OAR) is a division of the "National Oceanic and Atmospheric Administration (NOAA). OAR is also referred to as NOAA Research.
NOAA Research is the research and development arm of NOAA and is the driving force behind NOAA "environmental products and services aimed at protecting life and property and promoting sustainable economic growth. "Research, conducted by programs within NOAA and through collaborations outside NOAA, focuses on enhancing the understanding of environmental phenomena such as "tornadoes, "hurricanes, "climate variability, changes in the "ozone layer, "El Niño/La Niña events, "fisheries productivity, "ocean currents, deep sea "thermal vents, and "coastal ecosystem health.
The origins of NOAA Research date back more than 200 years with the creation of the Survey of the Coast in 1807 by Thomas Jefferson. The Coast Survey, which became the U.S. Lake Survey office in 1841, was developed to undertake "a hydrographic survey of northwestern [Great] lakes." Research executed by the scientists of this group was innovative and holistic: the first current meters were developed to understand water flow rates, and forecasting techniques were greatly enhanced to predict water levels and the relationship to lakefront property. The same traits of world class, long-term research continue to define NOAA Research today.
The science and technology that NOAA Research produces is not only relevant to society, it anticipates and responds to partners’ needs to demonstrates the value of technologies so that partners can deploy them into their applications. OAR works with end-users to integrate mature technologies (and associated expertise) into larger systems, either in NOAA operations or partner applications, via testbeds, patents, etc.
NOAA Research is an open research network consisting of seven federal research laboratories, six program offices, sixteen Cooperative Institutes (which are non-federal, non-profit research institutions in 5-10 year collaborative partnerships with NOAA), and 33 university based Sea Grant programs. OAR also relies on work performed at numerous public, private, and academic institutions. Through its laboratories, programs, and external partners, OAR seeks to balance the activities that benefit from the long-term, dedicated capabilities of federal facilities with those that require the diverse expertise of our university partners.
The components and programs of NOAA Research are:
Working under the broad themes of Climate, "Atmosphere, and Oceans, NOAA scientists study the ocean's depths and the highest reaches of "space. NOAA's long-term commitment to conducting preeminent research includes engaging in-house and external talent to:
Research plans and products are developed in partnership with "academia and other "federal agencies, and are peer-reviewed and widely distributed. A high premium is placed on external collaboration both domestically and internationally.
NOAA Research has three primary research areas: Climate, Weather and Air Chemistry, and Oceans, Coasts & the Great Lakes.
NOAA's research laboratories, the Climate Program Office, and research partners conduct research into complex "climate systems and how they work. The aim of this research is to predict climate variation in the shorter term, for example, cold spells or periods of "drought, and over longer terms, such as centuries and beyond.
NOAA scientists are at the forefront of studying climate change and modeling what the effects will be on the Earth. Researchers at NOAA’s Great Lakes Environmental Research Laboratory (GLERL) have developed the Coupled Hydrosphere-Atmosphere Research Model (CHARM) to enable a valid assessment of the impact of how "climate change might affect the climate and "ecology of the "Great Lakes. The CHARM model provides a realistic surface-atmosphere feedback portrayal, and accounts for runoff from land surfaces. It allows researchers to predict that "global warming likely will bring higher "temperatures and increased "precipitation to the Great Lakes. Development of a second generation of CHARM is underway to help answer questions about "greenhouse warming effects on Great Lakes water quantity.
NOAA researchers closely monitor the Earth's atmosphere searching for clues about long-term changes in the global climate. The data collected worldwide by NOAA researchers contributes to the understanding of complex climatic systems and the ability to forecast changes.
NOAA Research organizations conduct research on the upper and lower atmosphere as well as the space environment. Their findings form the basis for NOAA's contributions to major national and international environmental programs and agreements.
For instance, improvements in forecast and warning services provided by the National Weather Service are a direct result of NOAA research. Improvements in numerical modeling, observations gathered by satellites and Doppler weather radars (NEXRAD), and sophisticated weather warning and information processing and communications systems, have collectively led to significantly improved severe weather forecasts and warnings.
Other research programs focus on observation and study of the chemical and physical processes of the atmosphere, detecting the effects of pollution on those processes and monitoring and forecasting the phenomena affecting the Sun-Earth environment.
NOAA Research, in cooperation with its research partners, explores and investigates ocean habitats and resources. The findings of NOAA researchers contribute to the management of fisheries, conservation of coastlines, and development of a stronger economy through marine products and businesses, such as biotechnology and sustainable aquaculture.
NOAA’s Pacific Marine Environmental Laboratory (PMEL) in "Seattle, Washington, designed Deep-ocean Assessment and Reporting of Tsunamis (DART-II) technology, which provides two-way communication capabilities, allowing engineers the ability to troubleshoot these systems from the lab and repair them remotely when possible. This capability minimizes system downtime, especially in the harsh winter conditions of the "North Pacific, and reduces costs by not having to deploy a ship to make repairs.
Most environmental questions are not easily answered. NOAA is committed to tackling the complex issues that only advanced scientific knowledge can adequately address. NOAA Research seeks to:
The 7 laboratories that are part of NOAA Research are located throughout the United States near their areas of focus.
The NOAA Research Laboratories conduct an integrated program of research, technology development, and services to improve the understanding of Earth's atmosphere, oceans and inland waters, and to describe and predict changes occurring to them. The laboratories and their field stations are located across the country and around the world.
The laboratories have established formal collaborative agreements with universities/non-profit research institutions to form joint research institutes that are centers of scientific excellence pertaining to the earth's oceans, inland waters, intermountain west, atmosphere, and arctic environment.
Scientific reviews are conducted every five years to evaluate the quality, relevance, and performance of research conducted at the OAR laboratories. These reviews help to strategically position laboratories in their planning of future science and are intended to ensure that OAR laboratory research is linked to the NOAA Next Generation Strategic Plan, remains relevant to the NOAA research mission and its priorities, and is consistent with NOAA planning, programming, and budgeting processes.
NOAA Research partners with research-oriented universities and institutions to share data and resources to advance the goals of NOAA.