Allen C Gellis, Ph.D. (Former Employee)
Science and Products
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Bank‐derived material dominates fluvial sediment in a suburban Chesapeake Bay watershed Bank‐derived material dominates fluvial sediment in a suburban Chesapeake Bay watershed
Excess fine sediment is a leading cause of ecological degradation within the Chesapeake Bay watershed. To effectively target sediment mitigation measures, it is necessary to identify and quantify the delivery of sediment sources to local waterbodies. This study examines the contributions of sediment sources within Upper Difficult Run, a suburbanized watershed in Fairfax County, Virginia...
Authors
Matthew J. Cashman, Allen C. Gellis, Lillian E. Gorman Sanisaca, Gregory E. Noe, Vanessa Cogliandro, Anna Baker
Sediment Source Assessment Using Sediment Fingerprints Sediment Source Assessment Using Sediment Fingerprints
Problem Sediment is one of the most common causes of loss of stream-biologic integrity, whether in suspension in the water column, or as deposition on a stream or lake bottom. Fine-grained silts and clays are of particular concern because they can degrade habitat and often carry phosphorus and (or) other contaminants harmful to humans and aquatic life. Sediment-impaired water bodies...
Authors
Allen C. Gellis, Lillian E. Gorman Sanisaca, Matthew J. Cashman
Sediment fingerprinting to delineate sources of sediment in the agricultural and forested Smith Creek Watershed, Virginia, USA Sediment fingerprinting to delineate sources of sediment in the agricultural and forested Smith Creek Watershed, Virginia, USA
The sediment fingerprinting approach was used to apportion fine‐grained sediment to cropland, pasture, forests, and streambanks in the agricultural and forested Smith Creek, watershed, Virginia. Smith Creek is a showcase study area in the Chesapeake Bay watershed, where management actions to reduce nutrients and sediment are being monitored. Analyses of suspended sediment at the...
Authors
Allen C. Gellis, Lillian E. Gorman Sanisaca
Factors influencing fine sediment on stream beds in the Midwestern United States Factors influencing fine sediment on stream beds in the Midwestern United States
Fine sediment (particles
Authors
Christopher P. Konrad, Allen C. Gellis
A method to quantify and value floodplain sediment and nutrient retention ecosystem services A method to quantify and value floodplain sediment and nutrient retention ecosystem services
Floodplains provide critical ecosystem services to local and downstream communities by retaining floodwaters, sediments, and nutrients. The dynamic nature of floodplains is such that these areas can both accumulate sediment and nutrients through deposition, and export material downstream through erosion. Therefore, estimating floodplain sediment and nutrient retention should consider the...
Authors
Kristina G. Hopkins, Gregory E. Noe, Fabiano Franco, Emily Pindilli, Stephanie E. Gordon, Marina J. Metes, Peter R. Claggett, Allen C. Gellis, Cliff R. Hupp, Dianna M. Hogan
Floodplain trapping and cycling compared to streambank erosion of sediment and nutrients in an agricultural watershed Floodplain trapping and cycling compared to streambank erosion of sediment and nutrients in an agricultural watershed
Floodplains and streambanks can positively and negatively influence downstream water quality through interacting geomorphic and biogeochemical processes. Few studies have measured those processes in agricultural watersheds. We measured inputs (floodplain sedimentation and dissolved inorganic loading), cycling (floodplain soil nitrogen [N] and phosphorus [P] mineralization), and losses...
Authors
Jaimie Gillespie, Gregory E. Noe, Cliff R. Hupp, Allen C. Gellis, Edward R. Schenk
Science and Products
Filter Total Items: 16
No Result Found
Filter Total Items: 66
Bank‐derived material dominates fluvial sediment in a suburban Chesapeake Bay watershed Bank‐derived material dominates fluvial sediment in a suburban Chesapeake Bay watershed
Excess fine sediment is a leading cause of ecological degradation within the Chesapeake Bay watershed. To effectively target sediment mitigation measures, it is necessary to identify and quantify the delivery of sediment sources to local waterbodies. This study examines the contributions of sediment sources within Upper Difficult Run, a suburbanized watershed in Fairfax County, Virginia...
Authors
Matthew J. Cashman, Allen C. Gellis, Lillian E. Gorman Sanisaca, Gregory E. Noe, Vanessa Cogliandro, Anna Baker
Sediment Source Assessment Using Sediment Fingerprints Sediment Source Assessment Using Sediment Fingerprints
Problem Sediment is one of the most common causes of loss of stream-biologic integrity, whether in suspension in the water column, or as deposition on a stream or lake bottom. Fine-grained silts and clays are of particular concern because they can degrade habitat and often carry phosphorus and (or) other contaminants harmful to humans and aquatic life. Sediment-impaired water bodies...
Authors
Allen C. Gellis, Lillian E. Gorman Sanisaca, Matthew J. Cashman
Sediment fingerprinting to delineate sources of sediment in the agricultural and forested Smith Creek Watershed, Virginia, USA Sediment fingerprinting to delineate sources of sediment in the agricultural and forested Smith Creek Watershed, Virginia, USA
The sediment fingerprinting approach was used to apportion fine‐grained sediment to cropland, pasture, forests, and streambanks in the agricultural and forested Smith Creek, watershed, Virginia. Smith Creek is a showcase study area in the Chesapeake Bay watershed, where management actions to reduce nutrients and sediment are being monitored. Analyses of suspended sediment at the...
Authors
Allen C. Gellis, Lillian E. Gorman Sanisaca
Factors influencing fine sediment on stream beds in the Midwestern United States Factors influencing fine sediment on stream beds in the Midwestern United States
Fine sediment (particles
Authors
Christopher P. Konrad, Allen C. Gellis
A method to quantify and value floodplain sediment and nutrient retention ecosystem services A method to quantify and value floodplain sediment and nutrient retention ecosystem services
Floodplains provide critical ecosystem services to local and downstream communities by retaining floodwaters, sediments, and nutrients. The dynamic nature of floodplains is such that these areas can both accumulate sediment and nutrients through deposition, and export material downstream through erosion. Therefore, estimating floodplain sediment and nutrient retention should consider the...
Authors
Kristina G. Hopkins, Gregory E. Noe, Fabiano Franco, Emily Pindilli, Stephanie E. Gordon, Marina J. Metes, Peter R. Claggett, Allen C. Gellis, Cliff R. Hupp, Dianna M. Hogan
Floodplain trapping and cycling compared to streambank erosion of sediment and nutrients in an agricultural watershed Floodplain trapping and cycling compared to streambank erosion of sediment and nutrients in an agricultural watershed
Floodplains and streambanks can positively and negatively influence downstream water quality through interacting geomorphic and biogeochemical processes. Few studies have measured those processes in agricultural watersheds. We measured inputs (floodplain sedimentation and dissolved inorganic loading), cycling (floodplain soil nitrogen [N] and phosphorus [P] mineralization), and losses...
Authors
Jaimie Gillespie, Gregory E. Noe, Cliff R. Hupp, Allen C. Gellis, Edward R. Schenk