Beyond the urban stream syndrome: organic matter budget for diagnostics and restoration of an impaired urban river

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Urban Ecosystems, ISSN: 1573-1642, Vol: 19, Issue: 4, Page: 1623-1643

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10.1007/s11252-016-0556-y; 10.1007/s11252-016-0557-x
Epstein, Dave M.; Kelso, Julia E.; Baker, Michelle A.
Springer Nature; Springer Verlag; Springer New york; Hosted by Utah State University Libraries
Environmental Science; Social Sciences; Organic matter budget; Urban stream syndrome; Water quality impairment; water quality impairment; organic matter budget; urban stream syndrome; Biology; Ecology and Evolutionary Biology
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article description
In response to water quality standard violations linked to excessive organic matter (OM) and a lack of sampling data informing the Total Maximum Daily Load (TMDL), an organic matter budget was created to quantify and identify sources of OM in the lower Jordan River (Salt Lake City, UT). By sampling dissolved, fine, and coarse particulate OM, as well as measuring ecosystem metabolism at seven different sites, the researchers aimed to identify the origin of excess OM, and understand pathways by which different size classes of the OM pool are generated. The dissolved fraction (DOM; 94 %) was found to be the dominant form of OM transported within the river with fine particulate organic matter (FPOM; 6 %) the second most abundant, and coarse particulate organic matter (CPOM; 1 %) transport relatively insignificant in the overall OM budget. Primary production exceeded respiratory losses in the upper river, and this, along with OM inputs from two tributaries (where water reclamation facilities discharge into the river) delivered excess OM to the impaired lower reaches. Increasing stream metabolism index (SMI) with distance downstream (>1 in the lower river) further demonstrated that transport of excessive organic matter into the lower river was from upstream sources and not due to lateral inputs. This simple approach to characterizing the organic matter budget as it relates to water quality in the Jordan River was effective and could serve as a model for future studies attempting to quantify and identify sources of OM in urban ecosystems.