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Nutrient Loss Reduction Strategy Research Database
This site includes all the research featured in the Illinois Nutrient Loss Reduction Strategy reports and updates. Please note that this is not a comprehensive list of nutrient loss-related research in Illinois. The Illinois Nutrient Loss Reduction Strategy, NLRS, is a statewide, collaborative effort working to reduce the amount of nutrients, particularly nitrogen and phosphorus, entering Illinois waterways. This page highlights research involved in the strategy since 2015.

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  • Spatial and Temporal Variations in Phosphorus Loads in the Illinois River Basin, Illinois USA

    Aug 27, 2022 12:15 pm by Gregory F. McIsaac, Timothy O. Hodson, Momcilo Markus, Rabin Bhattarai, Daniel Chulgi Kim

    See this full article on the Journal of American Water Resources Association site: https://doi.org/10.1111/1752-1688.13054

    This article was written by Gregory F. McIsaac, Timothy O. Hodson, Momcilo Markus, Rabin Bhattarai, and Daniel Chulgi Kim. It is also related to the Summary of Spatial and Temporal Variation in Phosphorus Loads in the Illinois River from the 2023 NLRS Biennial Report. 

    Research Impact Statement: 

    Phosphorus loads in the lower Illinois River increased 39% from 1989–1996 to 2015–2019, mostly due to a shift in the lower section of the watershed from sequestering phosphorus to becoming a net source.

    Abstract:

    Total phosphorus (TP) loads in many rivers in the north-central United States have increased, including the Illinois River at Valley City, Illinois, USA, which increased 39% from the periods 1989–1996 to 2015–2019 despite efforts to reduce loads from point and nonpoint sources. Here, we quantify long-term variations in phosphorus (P) loads in the Illinois River and its tributaries and identify factors that may be causing the variations. We calculated river loads of dissolved (DP) and particulate P (PP), total and volatile suspended solids (TSS and VSS), and other potentially related constituents at 41 locations. DP loads generally increased and PP and TSS loads generally decreased from 1989–1996 to 2015–2019. During 1989–1996, P accumulated in the lower basin between Marseilles and Valley City (excluding monitored tributaries). This portion of the basin is very flat and accumulates sediment. During 2015–2019, this section shifted from being a net sink to being a net source of P, accounting for 78% of the increased TP load at Valley City. We present evidence supporting several mechanisms that could have caused this shift: increased DP and chloride loads, reduced sulfate and nitrate concentrations influencing ionic strength and redox potential in the sediments, and increased VSS loads at Valley City possibly indicating greater algal production and contributing to hypoxia in lower river sediments. Additional research is needed to quantify the relative importance of these mechanisms.

    Keywords: 

    phosphorus; freshwater; point source; nonpoint source