Comparison of macroinvertebrate community structure between two riffle-based sampling protocols in Wyoming, Colorado, and Montana, 2000-2001

Peterson, David A.; ZumBerge, Jeremy Ryan

doi:10.3133/sir20065117

Cited by 6 publications

(7 citation statements)

References 8 publications

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“…These factors include sample collection method, sampling design, taxonomic levels used, and reference condition criteria used. Several studies have provided approaches and case studies examining performance of individual aspects of a bioassessment protocol such as sampling (Cao et al 2005;Blocksom and Flotemersch 2005;Peterson and Zumberge 2006;Stribling et al 2008b), sorting efficiency for macroinvertebrates, taxonomic data quality (Hawkins and Norris 2000;Stribling et al 2003Stribling et al , 2008a, and scoring systems (Blocksom 2003;Astin 2006;Reynoldson et al 1997). Although still preliminary, many researchers have reported that if performance is similar and sampling methods are relatively similar, assessments are likely to be comparable for most objectives (Herbst and Silldorff 2006;Jessup and Gerritsen 2006).…”

Section: Discussionmentioning

confidence: 96%

An approach for determining bioassessment performance and comparability

Diamond

Stribling

Huff³

et al. 2011

Environ Monit Assess

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Many organizations in the USA collect aquatic bioassessment data using different sampling and analysis methods, most of which have unknown performance in terms of data quality produced. Thus, the comparability of bioassessments produced by different organizations is often unknown, ultimately affecting our ability to make comprehensive assessments on large spatial scales. We evaluated a pilot approach for determining bioassessment performance using macroinvertebrate data obtained from several states in the Southeastern USA. Performance measures evaluated included precision, sensitivity, and responsiveness to a human disturbance gradient, defined in terms of a land disturbance index value for each site, combined with a value for specific conductance, and instream habitat quality. A key finding of this study is the need to harmonize ecoregional reference conditions among states so as to yield more comparable and consistent bioassessment results. Our approach was also capable of identifying potential areas for refinement such as reevaluation of less precise, sensitive, or responsive metrics that may result in suboptimal index performance. Higher performing bioassessments can yield information beyond "impaired" versus "unimpaired" condition. Acknowledging the limitations of this pilot study, we would recommend that performance evaluations use at least 50 sites, 10 of which are ecoregional reference sites. Efforts should be made to obtain data from the entire human disturbance gradient in an ecoregion to improve statistical confidence in performance measures. Having too few sites will result in an under-representation of certain parts of the disturbance gradient (e.g., too few poor quality sites), which may bias sensitivity and responsiveness estimates.

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Section: Discussionmentioning

confidence: 96%

An approach for determining bioassessment performance and comparability

Diamond

Stribling

Huff³

et al. 2011

Environ Monit Assess

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“…In addition, to account for differences in sampling techniques and equipment, the following method codes for sampling events were selected: BERW, IRTH, SWAMP, EMAP, CDPHE, and PNAMP. Previous studies have suggested that these methods, which use similar mesh sizes, are comparable in their ability to detect the presence and absence of taxa (41)(42)(43). Only area-limited sample data were used.…”

Section: Data Managementmentioning

confidence: 99%

Density declines, richness increases, and composition shifts in stream macroinvertebrates

et al. 2023

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Documenting trends of stream macroinvertebrate biodiversity is challenging because biomonitoring often has limited spatial, temporal, and taxonomic scopes. We analyzed biodiversity and composition of assemblages of >500 genera, spanning 27 years, and 6131 stream sites across forested, grassland, urban, and agricultural land uses throughout the United States. In this dataset, macroinvertebrate density declined by 11% and richness increased by 12.2%, and insect density and richness declined by 23.3 and 6.8%, respectively, over 27 years. In addition, differences in richness and composition between urban and agricultural versus forested and grassland streams have increased over time. Urban and agricultural streams lost the few disturbance-sensitive taxa they once had and gained disturbance-tolerant taxa. These results suggest that current efforts to protect and restore streams are not sufficient to mitigate anthropogenic effects.

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“…Samples were collected with various methods described elsewhere (Cuffney et al 1993, Moulton et al 2002, USEPA 2004, Herlihy et al 2008, Hughes and Peck 2008. Herlihy et al (2008) and Peterson and Zumberge (2006) used these data to investigate the effects of NAWQA and WSA sampling protocols on measures of assemblage composition and found samples comparable. Carlisle and Hawkins (2008) used a subset of these data to investigate bias associated with data source and found only minimal statistical differences in estimates of taxonomic completeness between NAWQA and WSA samples in the western US.…”

Section: Data Descriptionmentioning

confidence: 99%