Microscopic video imaging for computerized analysis of sperm motility
Microscopic video imaging for computerized analysis of sperm motilityMicroscopic video imaging is used for computerized analysis of sperm motility parameters
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Microscopic video imaging for computerized analysis of sperm motility
Microscopic video imaging for computerized analysis of sperm motility
Microscopic video imaging for computerized analysis of sperm motilityMicroscopic video imaging is used for computerized analysis of sperm motility parameters
Molecular Devices ImageXpress† High-Content Imaging System
Molecular Devices ImageXpress† High-Content Imaging SystemMolecular Devices ImageXpress† High-Content Imaging System that can generate more than 25,000 images in less than 5 hours of automated image acquisition.
Molecular Devices ImageXpress† High-Content Imaging System
Molecular Devices ImageXpress† High-Content Imaging SystemMolecular Devices ImageXpress† High-Content Imaging System that can generate more than 25,000 images in less than 5 hours of automated image acquisition.
Molecular Devices ImageXpress† High-Content Imaging System
Molecular Devices ImageXpress† High-Content Imaging SystemMolecular Devices ImageXpress† High-Content Imaging System
Molecular Devices ImageXpress† High-Content Imaging System
Molecular Devices ImageXpress† High-Content Imaging SystemMolecular Devices ImageXpress† High-Content Imaging System
Tablet-enabled field forms have been developed to help field efforts
Tablet-enabled field forms have been developed to help field effortsTablet-enabled field forms have been developed to help coordinate field efforts, collect site information, GPS coordinates, photos, and control data collection.
Tablet-enabled field forms have been developed to help field efforts
Tablet-enabled field forms have been developed to help field effortsTablet-enabled field forms have been developed to help coordinate field efforts, collect site information, GPS coordinates, photos, and control data collection.
USGS scientists evaluating the nebulizer assembly
USGS scientists evaluating the nebulizer assembly in a mixed mode ionization source of a triple quadrupole mass spectrometer used to measure individual cyanotoxins
USGS scientists evaluating the nebulizer assembly in a mixed mode ionization source of a triple quadrupole mass spectrometer used to measure individual cyanotoxins
Using the 384-well plate format, a single zebrafish embryo is tested
Using the 384-well plate format, a single zebrafish embryo is testedUsing the 384-well plate format, a single zebrafish embryo is tested in each well. This is an example of a 72 hour post fertilization fli1:egfp zebrafish (3 millimeters long) imaged under a fluorescein isothiocyanate (FITC) filter.
Using the 384-well plate format, a single zebrafish embryo is tested
Using the 384-well plate format, a single zebrafish embryo is testedUsing the 384-well plate format, a single zebrafish embryo is tested in each well. This is an example of a 72 hour post fertilization fli1:egfp zebrafish (3 millimeters long) imaged under a fluorescein isothiocyanate (FITC) filter.
Leidy Creek near Moran (13012465) streamgage
Leidy Creek near Moran (13012465) streamgage
Otolith from a Bloater Chub used for age analysis
An otolith, sometimes called “earstone,” of a bloater, a small prey fish in the Great Lakes. Fishery scientists interpret the age of bloater and other fishes by counting annual growth rings on their otoliths.
An otolith, sometimes called “earstone,” of a bloater, a small prey fish in the Great Lakes. Fishery scientists interpret the age of bloater and other fishes by counting annual growth rings on their otoliths.
South Fork Spread Creek near Moran (13012475) streamgage
South Fork Spread Creek near Moran (13012475) streamgageSouth Fork Spread Creek near Moran (13012475) streamgage
South Fork Spread Creek near Moran (13012475) streamgage
South Fork Spread Creek near Moran (13012475) streamgageSouth Fork Spread Creek near Moran (13012475) streamgage
A high water mark above the eaves of a Spring Hill, NC house
A high water mark above the eaves of a Spring Hill, NC houseUSGS hydrologic technician Rob Forde flags a high water mark above the eaves at Presbyterian Church of the Covenant, 118 Manchester Road, Spring Hill, North Carolina on Sept. 21, 2018, in the wake of flooding brought on by Hurricane Florence.
A high water mark above the eaves of a Spring Hill, NC house
A high water mark above the eaves of a Spring Hill, NC houseUSGS hydrologic technician Rob Forde flags a high water mark above the eaves at Presbyterian Church of the Covenant, 118 Manchester Road, Spring Hill, North Carolina on Sept. 21, 2018, in the wake of flooding brought on by Hurricane Florence.
Biologists from the USGS and Nature Conservancy identify a small fish
Biologists from the USGS and Nature Conservancy identify a small fishBiologists from the USGS and Nature Conservancy identify a small fish captured during a September electrofishing survey on a tributary to Follensby Pond, Adirondack Mountains, New York
Biologists from the USGS and Nature Conservancy identify a small fish
Biologists from the USGS and Nature Conservancy identify a small fishBiologists from the USGS and Nature Conservancy identify a small fish captured during a September electrofishing survey on a tributary to Follensby Pond, Adirondack Mountains, New York
Field of Phragmites
Field of Phragmites near Cedar Point, Ohio.
Field of Phragmites near Cedar Point, Ohio.
Grand Teton National Park in autumn.
Grand Teton National Park in autumn.
Collage of USGS staff in the field
Upper Left: Dann Blackwood operating the SEABOSS winch during a sampling cruise; Lower left: Bill Schwab, Laura Brothers and Emile Bergeron on the deck of a research vessel; Center Left: Tom O'Brien carrying equipment during a research cruise; Center: USGS staff deploying a seismic system from a research vessel; left: Chuck Worley ready to deploy a multibeam e
Upper Left: Dann Blackwood operating the SEABOSS winch during a sampling cruise; Lower left: Bill Schwab, Laura Brothers and Emile Bergeron on the deck of a research vessel; Center Left: Tom O'Brien carrying equipment during a research cruise; Center: USGS staff deploying a seismic system from a research vessel; left: Chuck Worley ready to deploy a multibeam e
Location of Otolith Inside Alewife
Otoliths are located directly behind the brain of bony fishes. On the young alewife shown here, the approximate location of the otoliths is noted with a yellow arrow.
Otoliths are located directly behind the brain of bony fishes. On the young alewife shown here, the approximate location of the otoliths is noted with a yellow arrow.
New outcrops make good geology
This aerial view of the western part of Kīlauea Volcano's caldera was taken on August 6, 2018. The down-dropped block is faulted about 120 m (400 feet) below the caldera floor. Many 19th-century lava flows are exposed in the fault scarps. Halema‘uma‘u (not visible) is to the left of this photo. USGS photo by D.Swanson.
This aerial view of the western part of Kīlauea Volcano's caldera was taken on August 6, 2018. The down-dropped block is faulted about 120 m (400 feet) below the caldera floor. Many 19th-century lava flows are exposed in the fault scarps. Halema‘uma‘u (not visible) is to the left of this photo. USGS photo by D.Swanson.
Skinny Common Murre with keel protruding
Skinny Common Murre with keel protruding. Lower Cook Inlet, Alaska
Skinny Common Murre with keel protruding. Lower Cook Inlet, Alaska
ECCC Robot Assisted Vision Slide 1
ECCC Robot Assisted Vision Slide Two
ECCC Robot Assisted Vision Slide Two
Treating Phragmites in the Laboratory
The untreated non-native Phragmites plant (left) appears healthy; the organically treated plants (right) appear dead.
The untreated non-native Phragmites plant (left) appears healthy; the organically treated plants (right) appear dead.
Whitebark pine cone, opened and in a seed trap
Whitebark pine cone on a seed trap
Former site of San Clemente Dam, Carmel River
San Clemente Dam was a 106-foot-high concrete arch dam that was located approximately 18.5 miles from the Pacific Ocean on the Carmel River. It was built in 1921 to create a reservoir to support the growing residential, agricultural, and tourism-related development.
San Clemente Dam was a 106-foot-high concrete arch dam that was located approximately 18.5 miles from the Pacific Ocean on the Carmel River. It was built in 1921 to create a reservoir to support the growing residential, agricultural, and tourism-related development.