A collage of images depicting USGS employees working on various water resources activities in New England states.
Katherine Trickey
Katherine Trickey is a Physical Scientist in the New England Water Science Center.
Katherine began working with GIS technologies in 2012. Her work for the USGS includes web application development, programming, data visualization, graphic design, multimedia design, scientific communication, working with GIS technologies, and web development.
Professional Experience
Physical Scientist, U.S. Geological Survey, New England Water Science Center, 2023 to Present
Student Trainee (Hydrology), U.S. Geological Survey, New England Water Science Center, 2019 to 2023
Education and Certifications
M.S. Geographic Information Systems, Pennsylvania State University, 2022
Graduate Certificate in Geospatial Programming and Web Map Development, Pennsylvania State University, 2020
Post-Baccalaureate Certificate in Geographic Information Systems, Pennsylvania State University, 2019
B.S. Wildlife Biology, Unity College, 2015
Science and Products
A collage of images depicting USGS employees working on various water resources activities in New England states.
A collage of images depicting USGS employees working on various hydrologic monitoring activities in New England states.
A collage of images depicting USGS employees working on various hydrologic monitoring activities in New England states.
A collage of images depicting USGS employees working on various field activities, throughout all seasons of the year, in New England states.
A collage of images depicting USGS employees working on various field activities, throughout all seasons of the year, in New England states.
A collage of relevant keywords and photographs about stream crossing projects. Important components of stream crossing projects include flood flows, aquatic organism passage, stream crossing standards, and the hydraulic modeling tool. The photograph on the left shows a drop at the outflow of a culvert that would impede aquatic organism passage.
A collage of relevant keywords and photographs about stream crossing projects. Important components of stream crossing projects include flood flows, aquatic organism passage, stream crossing standards, and the hydraulic modeling tool. The photograph on the left shows a drop at the outflow of a culvert that would impede aquatic organism passage.
The Importance of Aquatic Connectivity for Maintaining Cold-water Species in the Face of Climate Change (AD)
linkThe U.S. Geological Survey and the University of Massachusetts Amherst presents a video that describes aquatic connectivity, and its importance for maintaining cold-water species in the face of climate change.
The Importance of Aquatic Connectivity for Maintaining Cold-water Species in the Face of Climate Change (AD)
linkThe U.S. Geological Survey and the University of Massachusetts Amherst presents a video that describes aquatic connectivity, and its importance for maintaining cold-water species in the face of climate change.
The Importance of Aquatic Connectivity for Maintaining Cold-water Species in the Face of Climate Change
linkThe U.S. Geological Survey and the University of Massachusetts Amherst presents a video that describes aquatic connectivity, and its importance for maintaining cold-water species in the face of climate change.
The Importance of Aquatic Connectivity for Maintaining Cold-water Species in the Face of Climate Change
linkThe U.S. Geological Survey and the University of Massachusetts Amherst presents a video that describes aquatic connectivity, and its importance for maintaining cold-water species in the face of climate change.
The USGS New England Water Science Center features Alexander Bissell in their Center Stage Video Series. He talks about a special project he worked on and his work in water quality.
The USGS New England Water Science Center features Alexander Bissell in their Center Stage Video Series. He talks about a special project he worked on and his work in water quality.
The USGS New England Water Science Center features Alexander Bissell in their Center Stage Video Series. He talks about a special project he worked on and his work in water quality.
The USGS New England Water Science Center features Alexander Bissell in their Center Stage Video Series. He talks about a special project he worked on and his work in water quality.
Geonarrative: Feasibility of Developing a GIS-Based Hydraulic Modeling Tool for Stream Crossing Projects in Massachusetts
This interactive geonarrative presents information on how feasible it is to develop a GIS-based hydraulic modeling tool for preliminary culvert designs for stream crossings in Massachusetts.
Water-Quality Data Collection Sites in the Merrimack River Basin and its Major Tributaries
This interactive map displays the location of water-quality data-collection sites, the drainage area for the Merrimack River, and selected streams in the Merrimack River Basin.
Nitrogen Loading from Selected Long Island Sound Tributaries from 1995 to 2016
This dashboard application displays nitrogen concentrations and loads in selected Long Island Sound tributaries.
Chloride Data for Streams in Connecticut, Massachusetts, and Rhode Island
View recent and historical chloride and specific conductance data for active water-quality monitoring stations on streams in Connecticut, Massachusetts, and Rhode Island.
Science and Products
A collage of images depicting USGS employees working on various water resources activities in New England states.
A collage of images depicting USGS employees working on various water resources activities in New England states.
A collage of images depicting USGS employees working on various hydrologic monitoring activities in New England states.
A collage of images depicting USGS employees working on various hydrologic monitoring activities in New England states.
A collage of images depicting USGS employees working on various field activities, throughout all seasons of the year, in New England states.
A collage of images depicting USGS employees working on various field activities, throughout all seasons of the year, in New England states.
A collage of relevant keywords and photographs about stream crossing projects. Important components of stream crossing projects include flood flows, aquatic organism passage, stream crossing standards, and the hydraulic modeling tool. The photograph on the left shows a drop at the outflow of a culvert that would impede aquatic organism passage.
A collage of relevant keywords and photographs about stream crossing projects. Important components of stream crossing projects include flood flows, aquatic organism passage, stream crossing standards, and the hydraulic modeling tool. The photograph on the left shows a drop at the outflow of a culvert that would impede aquatic organism passage.
The Importance of Aquatic Connectivity for Maintaining Cold-water Species in the Face of Climate Change (AD)
linkThe U.S. Geological Survey and the University of Massachusetts Amherst presents a video that describes aquatic connectivity, and its importance for maintaining cold-water species in the face of climate change.
The Importance of Aquatic Connectivity for Maintaining Cold-water Species in the Face of Climate Change (AD)
linkThe U.S. Geological Survey and the University of Massachusetts Amherst presents a video that describes aquatic connectivity, and its importance for maintaining cold-water species in the face of climate change.
The Importance of Aquatic Connectivity for Maintaining Cold-water Species in the Face of Climate Change
linkThe U.S. Geological Survey and the University of Massachusetts Amherst presents a video that describes aquatic connectivity, and its importance for maintaining cold-water species in the face of climate change.
The Importance of Aquatic Connectivity for Maintaining Cold-water Species in the Face of Climate Change
linkThe U.S. Geological Survey and the University of Massachusetts Amherst presents a video that describes aquatic connectivity, and its importance for maintaining cold-water species in the face of climate change.
The USGS New England Water Science Center features Alexander Bissell in their Center Stage Video Series. He talks about a special project he worked on and his work in water quality.
The USGS New England Water Science Center features Alexander Bissell in their Center Stage Video Series. He talks about a special project he worked on and his work in water quality.
The USGS New England Water Science Center features Alexander Bissell in their Center Stage Video Series. He talks about a special project he worked on and his work in water quality.
The USGS New England Water Science Center features Alexander Bissell in their Center Stage Video Series. He talks about a special project he worked on and his work in water quality.
Geonarrative: Feasibility of Developing a GIS-Based Hydraulic Modeling Tool for Stream Crossing Projects in Massachusetts
This interactive geonarrative presents information on how feasible it is to develop a GIS-based hydraulic modeling tool for preliminary culvert designs for stream crossings in Massachusetts.
Water-Quality Data Collection Sites in the Merrimack River Basin and its Major Tributaries
This interactive map displays the location of water-quality data-collection sites, the drainage area for the Merrimack River, and selected streams in the Merrimack River Basin.
Nitrogen Loading from Selected Long Island Sound Tributaries from 1995 to 2016
This dashboard application displays nitrogen concentrations and loads in selected Long Island Sound tributaries.
Chloride Data for Streams in Connecticut, Massachusetts, and Rhode Island
View recent and historical chloride and specific conductance data for active water-quality monitoring stations on streams in Connecticut, Massachusetts, and Rhode Island.