Select Page
Brent Jacobson
Associate Engineer

Brent Jacobson

Associate Engineer

Mr. Brent Jacobson is an environmental engineer with experience in environmental remediation, environmental quality monitoring, and data analysis. His work includes sampling surface water, groundwater, and sediment to assess the extent of the impact of pollutants on the environment. He also has experience using ArcGIS Pro and QGIS, writing technical reports, and creating estimates for environmental remediation.


Site Investigation and Soil Remediation

Remedial Investigation, Confidential Location, Ohio Assisted field lead with mobilization and execution of an extensive soil sampling event to support an engineering evaluation and cost analysis. Task lead for premobilization activities, including establishing temporary facilities and procuring field materials. Assisted with field activities, including identifying sample locations using global positioning system, overseeing drilling and hand auguring operations, and processing samples.
Remedial Investigation, Onondaga, New York Supported in the collection of soil samples by hand auguring near Lake Onondaga.

Surface Water Monitoring

Utah State University Research, Harmful Algal Blooms Occurring in Pineview Reservoir, Utah Researched, set up, and performed an experiment testing the effects of nutrient and water temperature on the production of toxins from cyanobacteria. After the experiments were finished, analyzed the data obtained and drew conclusions based upon the data.

Litigation Support

PFAS Research, Confidential Locations Support the investigation of per- and polyfluoroalkyl substances (PFAS) spread across different sites from primary and secondary sources. Assist with site evaluation and contaminant delineation using ArcGIS and QGIS mapping tools while also marking up figures to show the composition of the PFAS found at the sites.

Technical Writing

Ice Scour Investigation, Penobscot River, Maine Provided technical writing support on ice scour investigation report. Supported the analysis of the impact of large ice blocks on the sediment surface; analysis was then completed to determine the impact and possibility of ice formations affecting a planned remedial cap.
RETURN TO OUR TEAM PAGE