Brandon Sansom, PhD
Dr. Brandon Sansom is a Research Engineer at the Columbia Environmental Research Center.
Brandon has extensive experience in biophysical hydrodynamic transport phenomena. His academic background combines Bachelor’s and Master’s degrees in biology with a Doctorate in water resources engineering. His most recent job was with the US Army Corps of Engineers, Buffalo, New York. He will be working initially on several projects including the collaboration on eDNA transport related to native mussels and aspects of pallid sturgeon age-0 dispersal.
Professional Experience
2020 Hydraulic Engineer, U.S. Army Corps of Engineers, Buffalo, NY
2020 Hydraulic Engineer, U.S. Army Corps of Engineers, Buffalo, NY
Education and Certifications
Ph.D. Civil Engineering, University at Buffalo - SUNY, 2019
M.S. Biology, University of Oklahoma, 2013
B.A. Biology, Washington and Jefferson College, 2011
Science and Products
CERC Eco-flume
Comprehensive Sturgeon Research Project Blog - 2018
The USGS Comprehensive Sturgeon Research Project is a multi-year, interdisciplinary research study to determine factors leading to spawning and survival of the endangered pallid sturgeon and the closely related shovelnose sturgeon.
Physical Stream Dynamics and Native Mussel Habitats
Comprehensive Sturgeon Research Project Blog - 2021
Comprehensive Sturgeon Research Project Blog - 2020
Comprehensive Sturgeon Research Project Blog - 2019
River-Corridor Habitat Dynamics
Comprehensive Sturgeon Research Project Blog - 2016
The USGS Comprehensive Sturgeon Research Project is a multi-year, interdisciplinary research study to determine factors leading to spawning and survival of the endangered pallid sturgeon and the closely related shovelnose sturgeon.
Comprehensive Sturgeon Research Project Blog - 2017
The USGS Comprehensive Sturgeon Research Project is a multi-year, interdisciplinary research study to determine factors leading to spawning and survival of the endangered pallid sturgeon and the closely related shovelnose sturgeon.
Pallid Sturgeon Habitat Dynamics
Flow, turbulence, and bathymetric measurements of the Missouri River at Searcys Bend, near Huntsdale, Missouri September 16, 2021
Supporting files for particle tracking simulations of the May 5, 2021 dye release experiment on the Missouri River at Searcys Bend, near Columbia, Missouri
Remotely sensed data and field measurements for mapping visible dye concentrations during a tracer experiment on the Missouri River near Columbia, MO, May 5, 2021
2017 Yellowstone River Dye-Trace Experiment
Performance evaluation of a channel rehabilitation project on the Lower Missouri River and implications for the dispersal of larval pallid sturgeon
Turbulence near a sandbar island in the lower Missouri River
Gains and gaps in knowledge surrounding freshwater mollusk ecosystem services
Remote sensing of visible dye concentrations during a tracer experiment on a large, turbid river
Science and Products
- Science
CERC Eco-flume
The CERC Eco-flume is a continuous-loop, racetrack style flume. It is housed in a 1,350 square-foot laboratory at CERC and will be used to study transport phenomena and biophysical processes in river environments.Comprehensive Sturgeon Research Project Blog - 2018
The USGS Comprehensive Sturgeon Research Project is a multi-year, interdisciplinary research study to determine factors leading to spawning and survival of the endangered pallid sturgeon and the closely related shovelnose sturgeon.
Physical Stream Dynamics and Native Mussel Habitats
Freshwater mussel conservation efforts depend on identifying habitat characteristics that are suitable for mussel reintroduction and restoration. CERC scientists are conducting research to understand how physical habitat dynamics affect the distribution of mussels and suitable habitat in streams and rivers.Comprehensive Sturgeon Research Project Blog - 2021
The USGS Comprehensive Sturgeon Research Project is a multi-year, interdisciplinary research study to determine factors leading to spawning and survival of the endangered pallid sturgeon and the closely related shovelnose sturgeon.Comprehensive Sturgeon Research Project Blog - 2020
The USGS Comprehensive Sturgeon Research Project is a multi-year, interdisciplinary research study to determine factors leading to spawning and survival of the endangered pallid sturgeon and the closely related shovelnose sturgeon.Comprehensive Sturgeon Research Project Blog - 2019
The USGS Comprehensive Sturgeon Research Project is a multi-year, interdisciplinary research study to determine factors leading to spawning and survival of the endangered pallid sturgeon and the closely related shovelnose sturgeon.River-Corridor Habitat Dynamics
River-Corridor Habitat Dynamics research seeks to improve the scientific basis for ecological restoration of large rivers. Emphasis is placed on understanding how hydrologic and geomorphic characteristics combine to create dynamic habitats for native and exotic fauna and flora.Comprehensive Sturgeon Research Project Blog - 2016
The USGS Comprehensive Sturgeon Research Project is a multi-year, interdisciplinary research study to determine factors leading to spawning and survival of the endangered pallid sturgeon and the closely related shovelnose sturgeon.
Comprehensive Sturgeon Research Project Blog - 2017
The USGS Comprehensive Sturgeon Research Project is a multi-year, interdisciplinary research study to determine factors leading to spawning and survival of the endangered pallid sturgeon and the closely related shovelnose sturgeon.
Pallid Sturgeon Habitat Dynamics
CERC scientists apply advanced measurement and modeling approaches to quantifying habitats in large rivers. Our research has been applied to improving the understanding of the reproductive ecology of the endangered pallid sturgeon ( Scaphirhynchus albus ) in the Missouri River. - Data
Flow, turbulence, and bathymetric measurements of the Missouri River at Searcys Bend, near Huntsdale, Missouri September 16, 2021
This dataset includes measurements of flow, turbulence, and bathymetry generated from multibeam bathymetry for a short reach of the Missouri River at Searcys Bend (SB) near Huntsdale, Missouri. Flow and turbulence were characterized using a Signature 1000 mounted on an anchored moving boat and an Aquadopp mounted on a tripod near the bed. Repeat bathymetric measurements were made in small patchesSupporting files for particle tracking simulations of the May 5, 2021 dye release experiment on the Missouri River at Searcys Bend, near Columbia, Missouri
This project contains data and supporting files from hydrodynamic and particle tracking models of the Missouri River at Searcys Bend developed in conjunction with an experimental dye release at the study site on March 5, 2021. The main objectives of this effort were to develop a hydrodynamic model using topographic and flow data collected in the field for subsequent use in a particle tracking modeRemotely sensed data and field measurements for mapping visible dye concentrations during a tracer experiment on the Missouri River near Columbia, MO, May 5, 2021
This data release includes field spectra, UAS-based RGB videos, and digital orthophotography acquired from a manned fixed-wing aircraft, as well as in situ measurements of turbidity and Rhodamine WT dye concentration acquired during a tracer experiment performed on the Missouri River near Columbia, Missouri, on May 5, 2021. One of the primary goals of this tracer experiment was to assess the feas2017 Yellowstone River Dye-Trace Experiment
Data consist of geolocation, temperature, turbidity, time, and dye concentrations collected at four downstream locations from Rhodamine WT dye injection point on Yellowstone River in June 2017 - Publications
Performance evaluation of a channel rehabilitation project on the Lower Missouri River and implications for the dispersal of larval pallid sturgeon
In the Lower Missouri River, extensive channel modifications have altered hydraulic and morphologic conditions and reduced the river's ecological integrity. One species that has been adversely affected by these changes is the pallid sturgeon (Scaphirhynchus albus). Mainstem dams on the Missouri River restrict the upstream migration of adults and limit the downstream dispersal of larvae. ChannelizaAuthorsBrandon James Sansom, Bruce Call, Carl J. Legleiter, R. B. JacobsonTurbulence near a sandbar island in the lower Missouri River
River turbulence is spatially variable due to interactions between morphology of rivers and physical mechanics of flowing water. Understanding the variation of turbulence in rivers is important for characterizing transport processes of soluble and particulate materials in these systems. We present an exploratory effort to understand ecologically relevant flow patterns using measurements of mean flAuthorsGeng Li, Caroline M. Elliott, Bruce Call, Brandon James Sansom, R. B. Jacobson, Binbin WangGains and gaps in knowledge surrounding freshwater mollusk ecosystem services
Ecosystems provide essential services to people including food, water, climate regulation, and aesthetic experiences. Biodiversity can enhance and stabilize ecosystem function and the resulting services natural systems provide. Freshwater mollusks are a diverse group that provide a variety of ecosystem services through their feeding habits (e.g., filter feeding, grazing), top-down and bottom-up efAuthorsCarla L. Atkinson, Garrett W Hopper, Danielle A. Kreeger, Jonathan Lopez, Alexa N Maine, Brandon James Sansom, Astrid Schwalb, Caryn C. VaughnRemote sensing of visible dye concentrations during a tracer experiment on a large, turbid river
Understanding dispersion in rivers is critical for numerous applications, such as characterizing larval drift for endangered fish species and responding to spills of hazardous materials. Injecting a visible dye into the river can yield insight on dispersion processes, but conventional field instrumentation yields limited data on variations in dye concentration over time at a few, fixed points. RemAuthorsCarl J. Legleiter, Brandon James Sansom, R. B. Jacobson