Record Display for the EPA National Library Catalog


Main Title Design Tradeoffs for Trend Assessment in Aquatic Biological Monitoring Programs.
Author M. E. Gurtz ; J. Van Sickle ; D. M. Carlisle ; S. G. Paulsen
CORP Author Geological Survey, Reston, VA. National Water-Quality Assessment Program.; Environmental Protection Agency, Washington, DC.
Year Published 2013
Report Number USGS/OFR-2013-1222
Stock Number PB2014-104218
Additional Subjects Water quality ; Biological indicators ; Monitoring ; Planning ; Ecosystems ; Parameters ; Environmental management ; Wetlands ; Planning programming budgeting ; Environmental engineering ; Aquatic animals ; Aquatic plants ; Aquatic ecosystem ; Nutrients ; Sediments ; Water pollution sources
Library Call Number Additional Info Location Last
NTIS  PB2014-104218 Some EPA libraries have a fiche copy filed under the call number shown. 07/26/2022
Collation 27p
Assessments of long-term (multiyear) temporal trends in biological monitoring programs are generally undertaken without an adequate understanding of the temporal variability of biological communities. When the sources and levels of variability are unknown, managers cannot make informed choices in sampling design to achieve monitoring goals in a cost-effective manner. We evaluated different trend sampling designs by estimating components of both short- and long-term variability in biological indicators of water quality in streams. Invertebrate samples were collected from 32 sites 9 urban, 6 agricultural, and 17 relatively undisturbed (reference) streamsdistributed throughout the United States. Between 5 and 12 yearly samples were collected at each site during the period 19932008, plus 2 samples within a 10-week index period during either 2007 or 2008. These data allowed calculation of four sources of variance for invertebrate indicators: among sites, among years within sites, interaction among sites and years (site-specific annual variation), and among samples collected within an index period at a site (residual). When estimates of these variance components are known, changes to sampling design can be made to improve trend detection. Design modifications that result in the ability to detect the smallest trend with the fewest samples are, from most to least effective: (1) increasing the number of years in the sampling period (duration of the monitoring program), (2) decreasing the interval between samples, and (3) increasing the number of repeat-visit samples per year (within an index period). This order of improvement in trend detection, which achieves the greatest gain for the fewest samples, is the same whether trends are assessed at an individual site or an average trend of multiple sites. In multiple-site surveys, increasing the number of sites has an effect similar to that of decreasing the sampling interval; the benefit of adding sites is greater when a new set of different sites is selected for each sampling effort than when the same sites are sampled each time.