LI-COR 2222UWB Underwater Cables

LI-COR 2222UWB Underwater Cable offers a waterproof connection to the LI-192SA and LI-193SA underwater PAR sensors.

Features

  • BNC connector for quick connection to LI-250A and LI-1400 light meters
  • Cable can also be connectorized for use with NexSens SDL500 submersible data loggers
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  • (1) LI-COR 2222UWB Underwater Cable
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LI-COR 2222UWB Underwater Cables
2222UWB-3
Underwater cable, 3m
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LI-COR Underwater PAR
2222UWB-10
Underwater cable, 10m
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LI-COR Underwater PAR
2222UWB-30
Underwater cable, 30m
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LI-COR Underwater PAR
2222UWB-50
Underwater cable, 50m
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LI-COR Underwater PAR
2222UWB-100
Underwater cable, 100m
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In The News

LI-COR PAR sensors detect light waves to aid aquatic ecosystem research

Understanding how the sun’s rays fuel phytoplankton or plant growth may prove valuable to understanding an aquatic ecosystem. A pair of sensors from LI-COR can help researchers studying algal blooms and aquatic vegetation by measuring how much light enters underwater environments. Sitting below the surface, the LI-192 flat-lensed photosynthetically active radiation sensor and the LI-193 spherical PAR sensor measure light waves striking their silicon photovoltaic detectors.  They sense light wavelengths between 400 and 700 nanometers, which is the ideal range for photosynthesis. Dave Johnson, a LI-COR product manager for the LI-190 series, said the sensors’ individual designs make them ideal for different applications.

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Ohio State greenhouse nurtures 'fruit fly of the plant world'

The Arabidopsis Biological Resource Center at Ohio State University was established in 1991 with funding from the National Science Foundation. Part of the center’s job is to meet demand for seed of the arabidopsis plant, which is widely used for genetic modeling. “A lot of the plants we’re growing are for seed production,” said Joan Leonard, greenhouse coordinator. “Arabidopsis is a good example. We call it the ‘fruit fly of the plant world,’ and it takes about six to eight weeks to go from seed to plant.” Arabidopsis is one of the many plants that will benefit from a new LI-COR PAR sensor being installed on campus. It will help manage light schedules for greenhouse plants.

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Current Monitoring after the Francis Scott Key Bridge Collapse

On March 26th, according to The Baltimore Sun , a 984-foot, 112,000-ton Dali lost propulsion and collided with a support column of the Francis Scott Key Bridge, collapsing the structure. Soon after the event, search and rescue, salvage crews, and other emergency responders were mobilized after the collision. As salvage efforts progressed in early April, NOAA’s Center for Operational Oceanographic Products and Services (CO-OPS) responded to a request for real-time tidal currents data and deployed a current monitoring buoy—CURBY (Currents Real-time BuoY)—into the Patapsco River north of the Francis Scott Key Bridge.

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