Science Inventory

Stable Isotope Indicators and NARS: Linking Landscape Processes to Stressor Levels

Citation:

Brooks, J. Renee, Phil Kaufmann, E. Fergus, M. Weber, W. Rugh, L. Trine, A. Herlihy, J. Compton, R. Mitchell, AND A. Nahlik. Stable Isotope Indicators and NARS: Linking Landscape Processes to Stressor Levels. Office of Water's Workshop on Indicator development for the National Aquatic Resource Surveys, Virtual, Virtual, March 17, 2022.

Impact/Purpose:

This presentation is part of a workshop lead by Office of Water to introduce states and tribes to research into new indicators being researched by ORD for the National Aquatic Resource Surveys (NARS).  This presentation briefly covers ORD research into using the stable isotopic ratios measured in samples collected as part of NARS as indicators of key ecological processes.  

Description:

In partnership with states and tribes, EPA assess the condition of the nation’s waters through EPA’s National Aquatic Resource Surveys (NARS).  EPA is interested in using new technologies to gain more information to aid the goals of NARS, and one of those technologies being tested is stable isotopic ratios obtained from NARS samples.  This presentation introduces states and tribes to ORDs research into two potential stable isotopic indicators for NARS: a lake hydrological indicator and a nitrogen indicator.  Hydrologic water balance measurements are often excluded from spatially extensive lake monitoring programs because they require detailed gauging and monitoring of lake inflows and outflows.  Yet, lake flow-through status, and water residence time are important parameters for understanding a lake’s chemical, physical and biological condition.  We briefly introduce how lake water isotopes can be used to calculate the proportion of inflowing water that evaporates (evaporation:inflow ratios) and water residence time. For the nitrogen isotopic indicator, nitrogen (N) pollution represents a major threat to aquatic ecosystems globally. Here, we introduce research into using the nitrogen isotope ratio (d15N) of chironomids, a family of aquatic insects that is abundance and collected as part of NARS.  We found that chironomid d15N values can be a valuable tool to assess integrated watershed-level N sources, input rates, and processing for water quality monitoring and assessment at large scales. These isotopic indicators are relatively low cost and make use of existing samples collected as part of NARS. They indicate key ecological processes, and integrate them over space and time, and that information is recorded in the samples collected.  Isotopic indicators can be a valuable tool to assess integrated watershed-level sources, and processing for water quality monitoring and assessment at large scales. 

Record Details:

Record Type:DOCUMENT( PRESENTATION/ SLIDE)
Product Published Date:03/17/2022
Record Last Revised:03/18/2022
OMB Category:Other
Record ID: 354377