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Topical Teams, NAWQA Completed

By New Jersey Water Science Center March 25, 2006

New Jersey WSC Archived Projects

NAWQA is a program from the USGS that addresses the goals of that status of surface-water and groundwater, provide understanding of human impact,  and to support local, state, and federal agencies with aforementioned data. 

START DATE: 01-OCT-2006 

END DATE: Not specified 

PROJECT NUMBER: 4571CRN 

 

STUDY OBJECTIVES:  

The USGS National Water-Quality Assessment (NAWQA) Program addresses three long-term goals: 

  1. Describe the status and trends in the quality of a large, representative part of the Nation's surface-water and groundwater resources. 
  2. Provide an improved understanding of the primary natural factors and human activities affecting these conditions. 
  3. Provide information that supports development and evaluation of management, regulatory, and monitoring decisions by other Federal, State, and local agencies. 

(1) Sources and Transport of Agricultural Chemicals 
What are the dominant sources and transport mechanisms of the most frequently occurring pesticides (including agricultural VOCs) and nutrients in streams and shallow ground water within agricultural areas and what are the effects of physiographic conditions and agricultural management practices on transport? 
(2) Effects of Nutrient Enrichment on Agricultural Streams 

  1. Determine the total algal biomass and the abundance, type, and diversity of algal and aquatic invertebrate communities in streams with different nutrient conditions, watershed characteristics, habitat, climate, and other natural factors. 
  2. Determine the interrelations among nutrient conditions, algal communities, and stream metabolism, which is defined as the gain and loss in dissolved oxygen associated with photosynthesis and plant and animal respiration. Adequate levels of dissolved oxygen are critical to fish and other aquatic life. 
  3. Determine the transport, chemical transformation, and retention of nutrients (referred to as "nutrient cycling") in the water column and surrounding sediments, and resulting effects on biological communities in stream reaches. Such cycling differs in different geologic and hydrologic settings, and is controlled, in large part, by ground-water and surface-water interactions. 
  4. Determine the extent to which associations between nutrient conditions and biological communities occur over geographic regions that share common natural features, landscape characteristics, and biological communities. 

(3) Transport of Contaminants to Public Water-Supply Wells 
What processes govern the transport and concentrations of VOCs, pesticides, trace elements and nitrate from the land surface through the unsaturated zone and in recently recharged shallow ground as it moves to underlying aquifers and water-supply wells used for drinking water? 
(4) Mercury Accumulation in Aquatic Organisms 
What controls the movement of mercury from sources to its accumulation in aquatic organisms? The general objective is to determine the effects of source strength, mercury cycling (especially methylation and demethylation), and food-web interactions (food-web complexity) on bioaccumulation of mercury in fish in stream ecosystems. In other words, we seek to determine environmental characteristics that are associated with a range of methylmercury contamination in fish. 
(5) Effects Urbanization on Stream Ecosystems 
How do the hydrologic, geomorphic, chemical, and biological characteristics of stream ecosystems respond to land-use changes associated with urbanization and how do these responses vary across environmental settings? 

 

STRATEGY AND APPROACH:  

  1. Sources and Transport of Agricultural Chemicals 
  2. Effects of Nutrient Enrichment on Agricultural Streams 

Large-Scale Synoptic Studies 
Streamflow, nutrient concentrations and other chemical characteristics, dissolved-oxygen concentrations, biological communities, and stream and riparian habitat are assessed at selected sites within each Study Unit. Data from these one-time assessments will be used to define relations among nutrients, stream metabolism, and biological communities in diverse environmental settings, and to aid in statistical analyses for regionalization of nutrient conditions. 

 

DISCLAIMER: This webpage contains information about completed or inactive projects from the NJ Water Science Center.  It has been created for historical purposes and may be a utility to locate published information.  This page should not be considered an authoritative source.  You are encouraged to contact the NJ WSC for more current information. 

  • Overview

    NAWQA is a program from the USGS that addresses the goals of that status of surface-water and groundwater, provide understanding of human impact,  and to support local, state, and federal agencies with aforementioned data. 

    START DATE: 01-OCT-2006 

    END DATE: Not specified 

    PROJECT NUMBER: 4571CRN 

     

    STUDY OBJECTIVES:  

    The USGS National Water-Quality Assessment (NAWQA) Program addresses three long-term goals: 

    1. Describe the status and trends in the quality of a large, representative part of the Nation's surface-water and groundwater resources. 
    2. Provide an improved understanding of the primary natural factors and human activities affecting these conditions. 
    3. Provide information that supports development and evaluation of management, regulatory, and monitoring decisions by other Federal, State, and local agencies. 

    (1) Sources and Transport of Agricultural Chemicals 
    What are the dominant sources and transport mechanisms of the most frequently occurring pesticides (including agricultural VOCs) and nutrients in streams and shallow ground water within agricultural areas and what are the effects of physiographic conditions and agricultural management practices on transport? 
    (2) Effects of Nutrient Enrichment on Agricultural Streams 

    1. Determine the total algal biomass and the abundance, type, and diversity of algal and aquatic invertebrate communities in streams with different nutrient conditions, watershed characteristics, habitat, climate, and other natural factors. 
    2. Determine the interrelations among nutrient conditions, algal communities, and stream metabolism, which is defined as the gain and loss in dissolved oxygen associated with photosynthesis and plant and animal respiration. Adequate levels of dissolved oxygen are critical to fish and other aquatic life. 
    3. Determine the transport, chemical transformation, and retention of nutrients (referred to as "nutrient cycling") in the water column and surrounding sediments, and resulting effects on biological communities in stream reaches. Such cycling differs in different geologic and hydrologic settings, and is controlled, in large part, by ground-water and surface-water interactions. 
    4. Determine the extent to which associations between nutrient conditions and biological communities occur over geographic regions that share common natural features, landscape characteristics, and biological communities. 

    (3) Transport of Contaminants to Public Water-Supply Wells 
    What processes govern the transport and concentrations of VOCs, pesticides, trace elements and nitrate from the land surface through the unsaturated zone and in recently recharged shallow ground as it moves to underlying aquifers and water-supply wells used for drinking water? 
    (4) Mercury Accumulation in Aquatic Organisms 
    What controls the movement of mercury from sources to its accumulation in aquatic organisms? The general objective is to determine the effects of source strength, mercury cycling (especially methylation and demethylation), and food-web interactions (food-web complexity) on bioaccumulation of mercury in fish in stream ecosystems. In other words, we seek to determine environmental characteristics that are associated with a range of methylmercury contamination in fish. 
    (5) Effects Urbanization on Stream Ecosystems 
    How do the hydrologic, geomorphic, chemical, and biological characteristics of stream ecosystems respond to land-use changes associated with urbanization and how do these responses vary across environmental settings? 

     

    STRATEGY AND APPROACH:  

    1. Sources and Transport of Agricultural Chemicals 
    2. Effects of Nutrient Enrichment on Agricultural Streams 

    Large-Scale Synoptic Studies 
    Streamflow, nutrient concentrations and other chemical characteristics, dissolved-oxygen concentrations, biological communities, and stream and riparian habitat are assessed at selected sites within each Study Unit. Data from these one-time assessments will be used to define relations among nutrients, stream metabolism, and biological communities in diverse environmental settings, and to aid in statistical analyses for regionalization of nutrient conditions. 

     

    DISCLAIMER: This webpage contains information about completed or inactive projects from the NJ Water Science Center.  It has been created for historical purposes and may be a utility to locate published information.  This page should not be considered an authoritative source.  You are encouraged to contact the NJ WSC for more current information.