IS54A:
Recent Advances in In Situ Biogeochemical Instrumentation, Sensors, and Observatory Science III Posters
IS54A:
Recent Advances in In Situ Biogeochemical Instrumentation, Sensors, and Observatory Science III Posters
Recent Advances in In Situ Biogeochemical Instrumentation, Sensors, and Observatory Science III Posters
Session ID#: 11399
Session Description:
Complex interactions of physical, biological, and chemical parameters
affect aquatic biogeochemical cycling over a wide range of spatial and
temporal scales, making observations of marine ecosystems particularly
challenging. Development and deployment of in-situ technologies to
measure these parameters have thus been widely recognized as a research
priority in the oceanographic community, to both improve scientific
understanding and inform management and policy decisions governing these
historical “undersampled” regions. As advances are made in development
of in-situ sensors and instrumentation, it is critical to share both
successes and challenges across the community; as such, this
interdisciplinary session is targeted at both scientists and engineers
to facilitate accelerated improvement of the next generation of sensors
and instrumentation technologies, data analysis techniques applied to
high-resolution sensor data, and calibration/validation mechanisms.
Topics may include: (1) adaptation of traditional instrumentation for
field use, i.e., “field hardening,” (2) development of novel in-situ
hardware (new techniques or new targets), (3) new deployment or
operation techniques that improve data quality (online calibration,
reduced energy consumption, reduced biofouling), (4) cost-lowering
techniques, (5) data analysis, data quality, or data distribution
improvements, or (6) lessons learned from existing deployments that
provide guidance for improvements in hardware and/or software methods.
This session would be an ideal candidate to include hardware or software
tutorials.
affect aquatic biogeochemical cycling over a wide range of spatial and
temporal scales, making observations of marine ecosystems particularly
challenging. Development and deployment of in-situ technologies to
measure these parameters have thus been widely recognized as a research
priority in the oceanographic community, to both improve scientific
understanding and inform management and policy decisions governing these
historical “undersampled” regions. As advances are made in development
of in-situ sensors and instrumentation, it is critical to share both
successes and challenges across the community; as such, this
interdisciplinary session is targeted at both scientists and engineers
to facilitate accelerated improvement of the next generation of sensors
and instrumentation technologies, data analysis techniques applied to
high-resolution sensor data, and calibration/validation mechanisms.
Topics may include: (1) adaptation of traditional instrumentation for
field use, i.e., “field hardening,” (2) development of novel in-situ
hardware (new techniques or new targets), (3) new deployment or
operation techniques that improve data quality (online calibration,
reduced energy consumption, reduced biofouling), (4) cost-lowering
techniques, (5) data analysis, data quality, or data distribution
improvements, or (6) lessons learned from existing deployments that
provide guidance for improvements in hardware and/or software methods.
This session would be an ideal candidate to include hardware or software
tutorials.
Primary Chair: Amy V Mueller, University of Washington, School of Oceanography, Seattle, WA, United States
Chairs: Aleck Zhaohui Wang, Woods Hole Oceanographic Institution, Woods Hole, MA, United States, Brian T Glazer, University of Hawaii at Manoa, Honolulu, HI, United States and Anna Michel, Woods Hole Oceanographic Institution, Applied Ocean Physics & Engineering, Woods Hole, MA, United States
Moderators: Amy V Mueller, University of Washington, School of Oceanography, Seattle, WA, United States, Aleck Zhaohui Wang, Woods Hole Oceanographic Institution, Marine Chemistry and Geochemistry, Woods Hole, MA, United States, Anna Michel, Woods Hole Oceanographic Institution, Woods Hole, MA, United States and Brian T Glazer, University of Hawaii at Manoa, Honolulu, HI, United States
Student Paper Review Liaison: Amy V Mueller, University of Washington, School of Oceanography, Seattle, WA, United States
Index Terms:
4262 Ocean observing systems [OCEANOGRAPHY: GENERAL]
4294 Instruments and techniques [OCEANOGRAPHY: GENERAL]
4805 Biogeochemical cycles, processes, and modeling [OCEANOGRAPHY: BIOLOGICAL AND CHEMICAL]
4894 Instruments, sensors, and techniques [OCEANOGRAPHY: BIOLOGICAL AND CHEMICAL]
Abstracts Submitted to this Session:
Development of new oxygen sensor for Argo profiling floats: Fast responsivity and long-term stability (87697)
Implementation of PLUTO Buoy for Monitoring Water Quality in Indonesia, Reflection and Future Plans (89333)
Initial results in the development of a highly portable sensor for multi-faceted studies of ocean acidificatio. (89894)
High resolution profiling of ammonium and carbonate with solid contact ion selective electrodes (90894)
Natural hydrocarbon seeps observation with underwater gliders and UV fluorescence sensor (91205)
Physical-biogeochemical Interactions in Northwestern Mediterranean, using the Glider "Sea Explorer" fitted with a Newly Developed Fluorescence Sensor, the MiniFluo-UV. (91512)
Developing a Technique to Determine Iron-Bearing Mineral Composition in Hydrothermal Plumes Using Optical Backscattering Sensors (91849)
Surface layer and bloom dynamics observed with the Prince William Sound Autonomous Profiler (91979)
Toward Best Practices For Assessing Near Surface Sensor Fouling: Potential Correction Approaches Using Underway Ferry Measurements (92187)
Non-Destructive Measurements of Reef Coral Respiration, Photosynthesis and Calcification Using A Newly Developed Diver-Deployed In Situ Respirometer: CISME (92600)
Engineering Design and Testing of a Novel High-Resolution Trace-Metal Clean Sampler for Profiling and Long-term Deployment Applications (89408)
In situ High-resolution Optical Measurements of Taxon-specific Plankton Vertical Distributions: Evidence for Regulation by Water Density and Large Fluorescent Particles (92828)
Laser Scattering Instrument for Measurement of Oceanic Particle Size Distribution from Submicron to Mesoplankton (93280)
Field Testing of a New Self-contained Fluorescence Oxygen Probe with a Fast Response Time for Continuous In-situ Monitoring (93688)
A novel method for concurrent measurements of dissolved inorganic carbon concentration and its carbon isotope composition δ13C (93391)
Multi-parameter instrumentation to understand interactions of physical, biological and chemical processes in marine ecosystems (89619)
The effects of turbulence on light exposure in a large-lake surface mixed-layer: a preliminary in-situ dual-dye study. (91311)
Improving remotely sensed fused ocean data products through cross-sensor calibration (92309)
Real-Time monitoring of the eutrophication and hypoxia off the Changjiang Estuary (93739)
See more of: Instrumentation & Sensing Technologies