Abstract: An autonomous biobuoy system and methods for detecting characteristics of a marine environment, the system involving: a light source comprising a blue light emitting diode; a detector assembly for detecting the at least one characteristic of the marine environment, the detector assembly having a single photodiode configured to detect stimulated bioluminescence and transmissivity in response to the light source, the detector assembly configured to generate at least one detector assembly output signal responsive to at least one detected characteristic; and a transmitter coupled with the detector assembly for transmitting the at least one detector assembly output signal.

Abstract: A system for assessing the characteristics and toxicity of a water sample comprising: a test chamber; an optical signal generator configured to emit an optical signal into the test chamber; a first digital filter disposed between the optical signal generator and the test chamber; a first optical transducer disposed to generate a first data signal in response to detecting radiant energy in the test chamber; a second digital filter disposed between the first optical transducer and the test chamber; an aqueous suspension of dinoflagellates contained within the test chamber and mixed with the water sample; a stimulator disposed to stimulate the dinoflagellates to emit a bioluminescence signal; and a microprocessor operatively coupled to the optical signal generator, the first digital optical filter, the stimulator, the first optical transducer, and the second digital filter, wherein the microprocessor is configured to assess the spectral characteristics and toxicity of the water sample.

Abstract: A system for assessing the characteristics and toxicity of a water sample comprising: a test chamber; an optical signal generator configured to emit an optical signal into the test chamber; a first digital filter disposed between the optical signal generator and the test chamber; a first optical transducer disposed to generate a first data signal in response to detecting radiant energy in the test chamber; a second digital filter disposed between the first optical transducer and the test chamber; an aqueous suspension of dinoflagellates contained within the test chamber and mixed with the water sample; a stimulator disposed to stimulate the dinoflagellates to emit a bioluminescence signal; and a microprocessor operatively coupled to the optical signal generator, the first digital optical filter, the stimulator, the first optical transducer, and the second digital filter, wherein the microprocessor is configured to assess the spectral characteristics and toxicity of the water sample.

Abstract: A system for testing the toxicity of a test sample comprising: an aqueous suspension of dinoflagellates; a test chamber configured to contain the aqueous suspension of dinoflagellates and the test sample; an optical signal generator configured to emit an excitation signal for exciting the dinoflagellates to emit a fluorescence signal if the dinoflagellates are alive; a first optical transducer configured to produce a first data signal in response to detecting the fluorescence signal; a stimulator configured to introduce a gas into the aqueous suspension for stimulating the dinoflagellates to emit a bioluminescence signal if the dinoflagellates are alive; a second optical transducer configured to produce a second data signal in response to detecting the bioluminescence signal; and a processor configured to compare the first data signal and the second data signal to a control data to generate an output representing the toxicity of the test sample.

Abstract: A cartridge comprising: a container having a lower end; an aqueous suspension of dinoflagellates contained in the container; a gas port operatively coupled to the container, the port capable of directing a gas into the aqueous suspension in the lower end of the container; a gas vent operatively coupled to the container; and a shipping seal operatively coupled to the container to prevent the aqueous suspension from exiting the container.

Abstract: A toxicity test system comprising an aqueous suspension of dinoflagellates; a test chamber capable of containing the aqueous suspension and a test sample; an optical signal generator capable of emitting an excitation signal, which is capable of exciting the dinoflagellates to emit a fluorescence signal if the dinoflagellates are alive; a first optical transducer capable of producing a first data signal in response to detecting to the fluorescence signal; a stimulator capable of generating a pressure pulse, which is capable of stimulating the dinoflagellates to emit a bioluminescence signal if the dinoflagellates are alive; a second optical transducer capable producing a second data signal in response to detecting the bioluminescence signal; and an analyzer disposed to compare the first data signal and the second data signal to a control data to generate an output representative of the toxicity of the test sample.

Abstract: Autonomous biobuoy for detecting a characteristic of a marine biosphere and method of assembling the biobuoy. An autonomous biobuoy is provided for detecting a characteristic of a marine biosphere, comprising a detector assembly for detecting the characteristic of the marine biosphere, the detector assembly capable of generating a detector assembly output signal responsive to the characteristic detected thereby and a transmitter coupled to said detector assembly for broadcasting the detector assembly output signal.

Abstract: Portable profiler for profiling a marine biosphere and method of assembling the profiler. A portable profiler is provided for profiling a marine biosphere, comprising a housing; a ballast coupled to the housing for controlling movement of the housing in the biosphere; a light-sensitive detector assembly coupled to the housing for detecting bioluminescence, the detector assembly capable of generating an output signal in response to the bioluminescence detected thereby; and a data analysis and storage device coupled to the light-sensitive detector assembly for receiving the output signal.

Abstract: A cartridge comprising: a container having a lower end; an aqueous suspension of dinoflagellates contained in the container; a gas port operatively coupled to the container, the port capable of directing a gas into the aqueous suspension in the lower end of the container; a gas vent operatively coupled to the container; and a shipping seal operatively coupled to the container to prevent the aqueous suspension from exiting the container.

Abstract: A method for stimulating bioluminescent organisms comprising the steps of forming gas bubbles in an aqueous suspension comprising the bioluminescent organisms; stimulating the bioluminescent organisms with the gas bubbles; and then measuring a characteristic of light emitted by the stimulated bioluminescent organisms.

Abstract: A toxicity test system comprising an aqueous suspension of dinoflagellates; a test chamber capable of containing the aqueous suspension and a test sample; an optical signal generator capable of emitting an excitation signal, which is capable of exciting the dinoflagellates to emit a fluorescence signal if the dinoflagellates are alive; a first optical transducer capable of producing a first data signal in response to detecting to the fluorescence signal; a stimulator capable of generating a pressure pulse, which is capable of stimulating the dinoflagellates to emit a bioluminescence signal if the dinoflagellates are alive; a second optical transducer capable producing a second data signal in response to detecting the bioluminescence signal; and an analyzer disposed to compare the first data signal and the second data signal to a control data to generate an output representative of the toxicity of the test sample.

Abstract: A system for testing the toxicity of a test sample comprising: an aqueous suspension of dinoflagellates; a test chamber configured to contain the aqueous suspension of dinoflagellates and the test sample; an optical signal generator configured to emit an excitation signal for exciting the dinoflagellates to emit a fluorescence signal if the dinoflagellates are alive; a first optical transducer configured to produce a first data signal in response to detecting the fluorescence signal; a stimulator configured to introduce a gas into the aqueous suspension for stimulating the dinoflagellates to emit a bioluminescence signal if the dinoflagellates are alive; a second optical transducer configured to produce a second data signal in response to detecting the bioluminescence signal; and a processor configured to compare the first data signal and the second data signal to a control data to generate an output representing the toxicity of the test sample.

Abstract: A system for measuring toxicity levels of a solution includes a water proof sample container transparent to visible light which holds an aqueous test solution containing bioluminescent organisms. A light tight chamber has a cavity which holds the sample container and includes a light port. A stress generating system positioned in the sample container generates pressure pulses which stimulate the organisms to generate light emissions. A light detector system mounted to the light tight chamber in a light tight manner detects light emissions generated in the sample container which propagate through the light port and are received by the light detector system. The light detector system generates an electric pulse in response to detecting each detected light emission. A controller enables the stress generating system and the light detector system, and then counts the electric pulses within a predetermined period of time.

Abstract: A system for measuring toxicity levels of a solution includes a water proof sample container transparent to visible light which holds an aqueous test solution containing bioluminescent organisms. A light tight chamber has a cavity which holds the sample container and includes a light port. A stress generating system positioned in the sample container generates pressure pulses which stimulate the organisms to generate light emissions. A light detector system mounted to the light tight chamber in a light tight manner detects light emissions generated in the sample container which propagate through the light port and are received by the light detector system. The light detector system generates an electric pulse in response to detecting each detected light emission. A controller enables the stress generating system and the light detector system, and then counts the electric pulses within a predetermined period of time.

Abstract: A bioluminescent detector is disclosed for detecting and measuring in situ bioluminescence generated by marine microorganisms. The detector includes a laminar flow chamber, a turbulent flow chamber in fluid communication with the laminar flow chamber, and a photon detector network positioned with the turbulent flow chamber. The detector is dropped over the side of a ship which may be underway and sinks at constant velocity. As the detector descends, ocean water flows through the laminar flow chamber and then into the turbulent flow chamber where fluid turbulence subjects any bioluminescent organisms present to shear stress, causing them to generate photons that are detected by the photon detector network.

Abstract: A test chamber is disclosed for determining the bioluminescent signatures of planktonic organisms in which a light tight chamber has at least one light port, and preferably two light ports, where photomultiplier tubes are connected to the test chamber for detecting and measuring the flash kinetics of marine organisms. A door is pivotally mounted on the light tight chamber for permitting insertion and withdrawal of an organism sample holder. A vacuum tube is connected to the test chamber and to the sample holder via a passageway such that the organism can be excited by means of drawing off the fluid containing the organism. The bioluminescent characteristics of the organisms in the sample holder can then be detected and measured by means of the photomultiplier tubes.