Multi-scale mechanistic indicators of Midwestern USA stream macroinvertebrates

We developed ecological indicators of stream macroinvertebrates in two regions of the Midwestern USA dominated by row-crop agriculture. Indicators were identified in a hierarchical fashion. Reach-scale variables related to macroinvertebrate attributes were first identified, and then catchment-scale...

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Bibliographic Details
Published in:Ecological indicators 2009-11, Vol.9 (6), p.1138-1150
Main Authors: Hutchens, John J., Schuldt, Jeffrey A., Richards, Carl, Johnson, Lucinda B., Host, George E., Breneman, Dan H.
Format: Article
Language:English
Subjects:
Agriculture
Hierarchical
Macroinvertebrate attributes
Midwestern USA
Plecoptera
Streams
Trichoptera
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Summary:We developed ecological indicators of stream macroinvertebrates in two regions of the Midwestern USA dominated by row-crop agriculture. Indicators were identified in a hierarchical fashion. Reach-scale variables related to macroinvertebrate attributes were first identified, and then catchment-scale variables related to those reach-scale variables were identified. Reach-scale indicators common to both regions were % fine sediments, number of habitats, and width:depth ratio. SD of elevation and % commercial land use were selected as catchment-scale indicators in both regions. Our analyses revealed a multi-scale mechanistic relationship between macroinvertebrate attributes associated with degraded conditions (i.e., fewer taxa of Plecoptera and Trichoptera, and a higher proportion of chironomids, burrowers, and depositional taxa) and % fine sediments in stream reaches, which, in turn, was negatively related to catchment characteristics (i.e., SD of elevation) in one region. Understanding how natural variables such as topography influence channel shape and within-channel structure can help guide management options and expectations for different regions. We suggest that developing multi-scale indicators in a mechanistic fashion will be more effective than developing indicators at only one spatial scale for protecting and restoring stream structure and function.
ISSN:1470-160X
1872-7034
DOI:10.1016/j.ecolind.2009.01.001