Using new cabled ocean observing technologies,
scientists around the globe will
Acquire continuous long-term, broad-bandwidth data under all weather conditions to characterize periodic (e.g., tidal), episodic (e.g., volcanic), and low-frequency (e.g., Pacific Decadal Oscillation and plate deformation) signals
Obtain high-precision measurements coordinated in time and space, i.e., a coherent sampling array
Provide a well-characterized environment in which process studies can be conducted
Integrate data and information across disciplines, with multi-variate data sets to explore and test causal relationships
Develop and verify models integrating physics, chemistry, geology, and biology
Use power in new and creative ways (e.g., robotics and pumping)
Use real-time communications for adaptive sampling and remote control
A
key document describing the science that will be enabled by ocean obervatories is the
Ocean Observatories Initiative Science Plan, published in 2005.
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