1 / 1

ACKNOWLEDGEMENTS

NEW SUBMERSIBLE ACTIVE FLUOROMETER USED TO MONITOR PHOTOSYNTHETIC PARAMETERS AND ALGAL BIOMASS. Donovan, C. Turner Designs, Inc, Sunnyvale, California USA. Beta testing conducted by:.

donagh
Download Presentation

ACKNOWLEDGEMENTS

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. NEW SUBMERSIBLE ACTIVE FLUOROMETER USED TO MONITOR PHOTOSYNTHETIC PARAMETERS AND ALGAL BIOMASS Donovan, C. Turner Designs, Inc, Sunnyvale, California USA Beta testing conducted by: Dr. Raphael Kudela of the University of California at Santa Cruz and Dr. Erik Smith of the University of South Carolina Center for Integrated Marine Technologies (CIMT)Ocean Observing System Monterey, California PERFORMANCE TESTING INTRODUCTION Response Curves Physiological Parameters Minimum Detection Limit Turner Designs, Inc has developed an in situ variable fluorescence system that can be used to determine the quantum efficiency of phytoplankton in both oligotrophic and mesotrophic environments. The PhytoFlash (patent pending) is distinct from other ‘active’ fluorometers on the market in that it is the first solid-state instrument capable of variable fluorescence measurements on natural concentrations of phytoplankton. The solid-state platform allows for a much wider range of uses due to the small size, power efficiency, more stable components, and lower price point. Fo Fm 1 2 Response curves and physiological parameters of Dunaliellasalina and Skeletonema were determined using the Blue LED PhytoFlash. 1 http://online.sfsu.edu/~dhr/cimt/ IN SITU EXPERIMENTS The PhytoFlash was integrated into the CIMT CTD January 2006 shipboard survey. Water samples were collected with Niskin bottles and processed for extracted chlorophyll a. 1. Data reflecting the correlation between Fo and Fm with extracted chlorophyll a. Calculated minimum detection limits (MDL) were 0.15 μg/l. MDL calculations were similar for Fo and Fm, suggesting yields are accurate at low chlorophyll a concentrations. • The PhytoFlash can be integrated into a CTD or multi-parameter system, used in self-contained mode in conjunction with the internal data logger and attachable battery or in flow-through mode for laboratory work and in underway monitoring mode. The variable fluorescence measurement is being used in an ever-growing list of applications, such as; • In situ measurement of phytoplankton photosynthetic parameters • Indicator of nutrient status of planktonic algae • Detection of the onset of algae blooms • Accurate measurement of algal biomass and monitoring algal community changes • Measurement of non-photochemical quenching (laboratory mode) • Ballast water monitoring • The PhytoFlash technique utilizes 3 low intensity LEDs to measure Fo and Fm and 6 high intensity LEDs to saturate cells in the sample chamber. The response curve from the saturating flash can be viewed in the laboratory mode. Unlike other ‘active’ fluorescence systems, the PhytoFlash does not provide induction curve data and is not designed as a physiological instrument for laboratory use. Rather, it is designed as a simplified and robust variable fluorescence system for submersible and/or laboratory use. Depth (m) United States Geological Survey South Bay Cruise in San Francisco Bay, California. Fo and Extracted chlorophyll a Quantum Efficiency Coastal Ocean Projects Program/River Influences on Shelf Ecosystems Columbia River, Oregon/Washington FvFm Underway Mapping Longitude (deg W) USGS Hydrographic Stations in San Francisco Bay, California U.S.A Samples were collected at five sites during CTD profiles along a northern transect and tested on the PhytoFlash. The first graph presents a direct correlation between the Fo and extracted chlorophyll a. The second graph displays yields determined at each station. Phytoplankton samples comprised of mainly diatoms and dinoflagellates. PHYTOFLASH SPECIFICATIONS Long-Term Monitoring Site at North Inlet Winyah Bay National Estuarine Research Reserve, South Carolina. Optical Specifications Excitation Filter <500 nm Emission Filter 680AF80 nm LED wavelength 460nm Minimum Detection Limit 0.15 µg/l Electronic Specifications Data Rate 230Hz Saturating LED duration 200-10,000 ms, 200ms (default) Data Format RS-232 Physical Dimensions Length 12 inches 30.5 cm Width 3 inches 7.6 cm Weight (in air) 2.95 pounds 1.34 kg Sample Volume 5.36 ml DunaliellaSkeletonema Fo 5950 7450 Fm 17309 20273 Fv 11359 12823 Yield 0.656 0.642 Skeletonema The PhytoFlash was deployed as part of the NSF sponsored RISE program off the Oregon/Washington coast. Samples were collected from Niskin bottles, dark adapted for 30 minutes, and then run in laboratory mode. As expected there was a decrease in FvFm moving from onshore to offshore, and from surface to depth. Dunaliella Oyster Landing (OL) - (latitude 33o20'58" longitude 79o11'34") The OL meteorological and water quality monitoring site, located at the end of the pier, is considered a fairly pristine and undisturbed area. The pier stretches into the upper reaches of Crabhaul Creek in the mid-western portion of North Inlet. The sampling site is located approximately 2.8km from the headwaters of Crabhaul Creek. The creek directly drains pine forested uplands and wetlands. Salinity can range from 0-32 ppt. and average tidal flux is approximately 1.4m. The creek has an average depth of ~2m MHW and an average width of ~150m at MHW. The bottom is comprised mostly of oyster shell hash with some fine sediment and detritus. (http://www.northinlet.sc.edu/research/Default.htm#four%20sites) North Inlet Solid Standard CONCLUSIONS http://www.google.com/lochp?hl=en&tab=wl&q= • The PhytoFlash is able to produce repeatable physiological parameters for freshwater and marine phytoplankton at low concentrations. • The PhytoFlash is the first in situ,solid-state active fluorometer for use in natural waters. • The PhytoFlash can be used for real-time data collection through the use of the internal data logger and battery pack or integrated into a CTD system. • The PhytoFlash makes real-time, variable fluorescence measurements a reality for the research community. Quantum Efficiency “Blank Corrected” CDOM and Water Level PHOTOSYNTHETIC PARAMETERS The PhytoFlash will provide the following parameters: FoMinimum fluorescence Fm Maximum fluorescence Fv Variable fluroescence (Fm-Fo) Fv/Fm (yield) Maximum quantum yield of photochemistry in PSII BlankCalculated blank value used in calibration Response Curves Available during laboratory mode ACKNOWLEDGEMENTS 1. 2. We would like to thank Dr. Raphael M. Kudela and Atma Roberts from the University of California at Santa Cruz, Dr. Erik Smith and Tracy Buck from the University of South Carolina’s Belle W. Baruch Institute for Marine and Coastal Sciences, Dr. Nick Welschmeyer from Moss Landing Marine Laboratories and his graduate students, Dr. Jacco Kromkamp from the Netherlands Institute of Ecology (NIOO-KNAW), and the USGS crew at Menlo Park, California. The PhytoFlash was deployed at a depth of 0.5 m. An ISCO sampler was programmed to collect samples at two hour intervals. Samples were processed for extracted chlorophyll a, inorganic nutrients, and absorbance of filtered water samples. 1. Data reflecting absorbance, determined on a spectrofluorometer at 355nm, and water level over two tidal cycles (January 25, 2006). Absorbance is negatively correlated to water level, suggesting a strong export of colored fractionated water on the ebb tide. 2. Absorbance, water level, and PhytoFlash blank data were used a posteriori to “blank correct” for the PhytoFlash yields.

More Related