OCB Scoping Workshop April 28-30, 2009

Print version E-mail to a friend
Text Size: Change text to small (default) Change text to medium Change text to large
null
We gratefully acknowledge the support of the U.S. National Science Foundation, the National Aeronautical and Space Administration and the National Oceanic and Atmospheric Administration.

null
U.S. National Science Foundation

null
National Aeronautical and Space Administration

null
National Oceanic and Atmospheric Administration

Related Files

» Science Background

Related Links

» U.S. Ocean Carbon and Biogeochemistry

This Ocean Carbon and Biogeochemistry (OCB) Scoping Workshop focused on the implementation of a long-term observing system for marine biogeochemistry using chemical and biological sensors deployed on autonomous platforms, such as profiling floats, gliders or other long-endurance autonomous vehicles. Several chemical and biological sensors can now be deployed for months to years in the ocean on floats and gliders. These systems are becoming sufficiently affordable that it is possible to envision biogeochemical sensor networks with hundreds of nodes or more, similar to the current Argo network of 3000 floats. This will allow the development of basin-scale and, ultimately, global-scale observing systems. These sensor networks will permit ocean scientists to quantitatively observe fundamental biogeochemical processes such as rates of nutrient supply, net community production, physical controls on bloom development (e.g. the Sverdrup Hypothesis), dynamics of oxygen minimum zones and their impacts on denitrification, and carbon export throughout the ocean with a level of detail hitherto impossible. The spatial and temporal responses of these processes to climate oscillations and greenhouse gas forcing will be observed with a resolution that is simply not possible when observations are limited to ships. An integrated observing system that combines in situ sensors deployed on long endurance platforms with satellite sensors and data-assimilating, biogeochemical-ecological models would provide previously unachievable constraints on the carbon cycle and its sensitivity to a changing climate. It would transform ocean biogeochemistry.

These capabilities are developing rapidly but they are not yet widely appreciated by the ocean science community. This Scoping Workshop had four specific goals: 1) to provide carbon cycle scientists with a critical review of currently existing technologies, their strengths, their weaknesses, and expected developments, 2) to identify problems that can only be solved with these types of observations over several years and to then discuss experiments that could be implemented in the near-term to address these topics, 3) to outline the requirements for a long-term observing system based on in situ sensors, satellites and data-assimilating models to monitor biogeochemical processes on a global scale, and 4) to identify factors limiting development of proven sensors and unmet technical developments required to expand our capability to an integrated observing system.

Facilities at MBARI limited the meeting size to approximately 60 participants. The steering committee strove to achieve a balance among participants from the observational carbon cycle community, biogeochemical modeling community, scientists and engineers developing sensors or platforms for long-term, autonomous observations and representatives of large programs and funding agencies. The committee also seeked a balance in early to late career experience, international participation and diversity. We especially encouraged persons who might represent larger groups of individuals or programs.



 

WHOI logo

Last updated June 17, 2009
© Woods Hole Oceanographic Institution. All rights reserved