Primary Productivity

Primary productivity in the ocean is the rate of carbon fixation as a direct result of photosynthesis (measured in mg C/m2/day), and plays an essential role in the global carbon cycle. Although marine photosynthetic organisms are almost entirely single-celled phytoplankton that comprise less than 1 percent of the the total global plant biomass, they account for about 40 percent of total global carbon fixation.

WET Labs sensors allow you to monitoring chlorophyll in situ to derive primary production proxy in various environments such as a coastal estuary.

Washington State Dept. of Ecology deployed moored WETStars and CT meters at four locations in Willapa Bay WA from 1998 through 2000. The goals of this study were to evaluate watershed vs. oceanic influence on the estuary and to assess controls on primary production.Chlorophyll fluorescence was measured at a 15-minute resolution for over three years in the turbid, productive and physically dynamic estuary, severely testing the performance of the sensors.

Transmissometers are effective in monitoring diel cycles in the particle load.Optical instrumentation can provide crucial data for biogeochemical studies. In the open ocean, the particle field is dominated by phytoplankton and biologically derived particles such as empty tests and plant material.

With a well designed sampling scheme, optical instruments can capture the variability in biological systems driven by physical forcing functions such as the light field and vertical mixing. In the Equatorial Pacific, beam attenuation profiles taken with a 650 nm transmissiometer showed diel cycles in the particle load in the photic zone. The daily change in the total particle load for three days during which profiles were taken every three hours can be represented by a sine curve. Taking the peak-to-trough difference and dividing by the trough value yields a dimensionless growth rate (mu) that can be compared to traditional methods of estimating phytoplankton productivity, such as labled CO2 uptake and physiological modeling.

The beam attenuation coefficient in the red wavelengths can be well correlated with the both the total particle load and the particulate organic carbon concentration. The transmissometer data set can then be used to calculate integrated production and test models of production. Spectral attenuation and absorption instruments (ac-s) expand the available data sets by constraining the dissolved organic carbon pool, the particle size spectra and the particle composition.

WET Labs WQM Water Quality Monitor
The Water Quality Monitor (WQM) is designed to deliver core biogeochemical water quality parameters in coastal ecosystems from a single integrated package.
Bench Top AFLA
WET Labs' Aquatic Laser Fluorescence Analyzer (ALFA) provides spectrally and temporally resolved measurements of key bio-environmental variables in oceanic, coastal, and fresh waters.
The HydroCycle-PO4 with technology by WET Labs is a single analyte wet chemistry sensor engineered for environmental monitoring.
ECO FL
ECO FL fluorometers measure fluorescence from chlorophyll-a, CDOM, uranine, rhodamine, and phycoyanin and phycoerythrin.
The Environmental Characterization Optics (ECO) series of sensors incorporates a common set of options with a single basic design to make them ideal for a wide variety of deployments.
ECO Triplet-w
The ECO Triplet custom optical instrument is now available with active anti-biofouling. It features an evolutionary design that builds off the bio-wiper and faceplate available on the current ECO line.
Provides highly accurate measurements of PAR (400–700 nm) in all aquatic environments.
ECO Triplet
The Triplet is a a special-order, three-optical-sensor instrument available in a user-defined configuration. The Triplet addresses the need for multiple simultaneous scattering and fluorescence sensors for autonomous and unattended measurement platforms.
BOSS Bio-Optical Sensor System
A flexible platform that expands sensor capabilities of profiling floats by providing multispectral radiometry, scattering, beam attenuation, chlorophyll, and CDOM measurements to complement the temperature, salinity and oxygen measurements of the profiling float.
WETStar Chlorophyll Fluorometer
The WETStar fluorometer provides breakthrough performance for detecting various types of fluorescence. It uses a central axial optical tube to provide efficient signal output.
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