Larry Brown (Former Employee)
Science and Products
Filter Total Items: 125
Hydrodynamics drive pelagic communities and food web structure in a tidal environment Hydrodynamics drive pelagic communities and food web structure in a tidal environment
Hydrodynamic processes can lead to the accumulation and/or dispersal of water column constituents, including sediment, phytoplankton, and particulate detritus. Using a combination of field observations and stable isotope tracing tools, we identified how hydrodynamic processes influenced physical habitat, pelagic communities, and food web structure in a freshwater tidal system. The...
Authors
Matthew J. Young, Frederick V. Feyrer, Paul Stumpner, Veronica L. Violette, Oliver Patton, Larry R. Brown
Characterizing benthic macroinvertebrate and algal biological condition gradient models for California wadeable Streams, USA Characterizing benthic macroinvertebrate and algal biological condition gradient models for California wadeable Streams, USA
The Biological Condition Gradient (BCG) is a conceptual model that describes changes in aquatic communities under increasing levels of anthropogenic stress. The BCG helps decision-makers connect narrative water quality goals (e.g., maintenance of natural structure and function) to quantitative measures of ecological condition by linking index thresholds based on statistical distributions...
Authors
Michael J. Paul, Ben Jessup, Larry R. Brown, James Carter, Marco Cantonati, Donald F. Charles, Jeroen Gerritsen, Dave Herbst, Rosalina Stancheva, Jeanette K. Howard, Bill Isham, Rex Lowe, Raphael D Mazor, Patina K. Mendez, Peter R Ode, Alison O’Dowd, Yangdong Pan, Andrew C. Rehn, Sarah A. Spaulding, Martha Sutula, Susanna Theroux
Patterns and magnitude of flow alteration in California, USA Patterns and magnitude of flow alteration in California, USA
Quantifying the natural flow regime is essential for management of water resources and conservation of aquatic ecosystems. Understanding the degree to which anthropogenic activities have altered flows is critical for developing effective conservation strategies. Assessing flow alteration requires estimates of flows expected in the absence of human influence and under current land use and...
Authors
Julie Zimmerman, Daren M. Carlisle, Jason May, Kirk Klausmeyer, Theodore E. Grantham, Larry R. Brown, Jeanette K. Howard
Food web conceptual model Food web conceptual model
This chapter describes a general model of food webs within tidal wetlands and represents how physical features of the wetland affect the structure and function of the food web. This conceptual model focuses on how the food web provides support for (or may reduce support for) threatened fish species. This model is part of a suite of conceptual models designed to guide monitoring of...
Authors
Rosemary Hartman, Larry R. Brown, Jim Hobbs
Conceptual model for invasive bivalve control on wetland productivity Conceptual model for invasive bivalve control on wetland productivity
Tidal wetlands were the historically dominant features of many coastal regions around the world, including the San Francisco Estuary (Callaway et al. 2011; Whipple et al. 2012). These mosaics of varied interconnected habitats (Mitsch and Gosselink 1993) provide a host of ecosystem services, including biodiversity maintenance, fish and wildlife habitat, water quality improvement, flood...
Authors
Rosemary Hartman, Larry R. Brown, Janet K. Thompson, Francis Parchaso
Pelagic nekton abundance and distribution in the northern Sacramento–San Joaquin Delta, California Pelagic nekton abundance and distribution in the northern Sacramento–San Joaquin Delta, California
Knowledge of the habitats occupied by species is fundamental for the development of effective conservation and management actions. The collapse of pelagic fish species in the Sacramento–San Joaquin Delta, California, has triggered a need to better understand factors that drive their distribution and abundance. A study was conducted in summer–fall 2014 in an attempt to identify physical...
Authors
Frederick V. Feyrer, Steven B. Slater, Donald E. Portz, Darren Odom, Tara L. Morgan-King, Larry R. Brown
Science and Products
Filter Total Items: 125
Hydrodynamics drive pelagic communities and food web structure in a tidal environment Hydrodynamics drive pelagic communities and food web structure in a tidal environment
Hydrodynamic processes can lead to the accumulation and/or dispersal of water column constituents, including sediment, phytoplankton, and particulate detritus. Using a combination of field observations and stable isotope tracing tools, we identified how hydrodynamic processes influenced physical habitat, pelagic communities, and food web structure in a freshwater tidal system. The...
Authors
Matthew J. Young, Frederick V. Feyrer, Paul Stumpner, Veronica L. Violette, Oliver Patton, Larry R. Brown
Characterizing benthic macroinvertebrate and algal biological condition gradient models for California wadeable Streams, USA Characterizing benthic macroinvertebrate and algal biological condition gradient models for California wadeable Streams, USA
The Biological Condition Gradient (BCG) is a conceptual model that describes changes in aquatic communities under increasing levels of anthropogenic stress. The BCG helps decision-makers connect narrative water quality goals (e.g., maintenance of natural structure and function) to quantitative measures of ecological condition by linking index thresholds based on statistical distributions...
Authors
Michael J. Paul, Ben Jessup, Larry R. Brown, James Carter, Marco Cantonati, Donald F. Charles, Jeroen Gerritsen, Dave Herbst, Rosalina Stancheva, Jeanette K. Howard, Bill Isham, Rex Lowe, Raphael D Mazor, Patina K. Mendez, Peter R Ode, Alison O’Dowd, Yangdong Pan, Andrew C. Rehn, Sarah A. Spaulding, Martha Sutula, Susanna Theroux
Patterns and magnitude of flow alteration in California, USA Patterns and magnitude of flow alteration in California, USA
Quantifying the natural flow regime is essential for management of water resources and conservation of aquatic ecosystems. Understanding the degree to which anthropogenic activities have altered flows is critical for developing effective conservation strategies. Assessing flow alteration requires estimates of flows expected in the absence of human influence and under current land use and...
Authors
Julie Zimmerman, Daren M. Carlisle, Jason May, Kirk Klausmeyer, Theodore E. Grantham, Larry R. Brown, Jeanette K. Howard
Food web conceptual model Food web conceptual model
This chapter describes a general model of food webs within tidal wetlands and represents how physical features of the wetland affect the structure and function of the food web. This conceptual model focuses on how the food web provides support for (or may reduce support for) threatened fish species. This model is part of a suite of conceptual models designed to guide monitoring of...
Authors
Rosemary Hartman, Larry R. Brown, Jim Hobbs
Conceptual model for invasive bivalve control on wetland productivity Conceptual model for invasive bivalve control on wetland productivity
Tidal wetlands were the historically dominant features of many coastal regions around the world, including the San Francisco Estuary (Callaway et al. 2011; Whipple et al. 2012). These mosaics of varied interconnected habitats (Mitsch and Gosselink 1993) provide a host of ecosystem services, including biodiversity maintenance, fish and wildlife habitat, water quality improvement, flood...
Authors
Rosemary Hartman, Larry R. Brown, Janet K. Thompson, Francis Parchaso
Pelagic nekton abundance and distribution in the northern Sacramento–San Joaquin Delta, California Pelagic nekton abundance and distribution in the northern Sacramento–San Joaquin Delta, California
Knowledge of the habitats occupied by species is fundamental for the development of effective conservation and management actions. The collapse of pelagic fish species in the Sacramento–San Joaquin Delta, California, has triggered a need to better understand factors that drive their distribution and abundance. A study was conducted in summer–fall 2014 in an attempt to identify physical...
Authors
Frederick V. Feyrer, Steven B. Slater, Donald E. Portz, Darren Odom, Tara L. Morgan-King, Larry R. Brown
*Disclaimer: Listing outside positions with professional scientific organizations on this Staff Profile are for informational purposes only and do not constitute an endorsement of those professional scientific organizations or their activities by the USGS, Department of the Interior, or U.S. Government