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D. W. Schindler, R. E. Heckey, D. L. Findlay, M. P. Stainton, B. R. Parker, M. J. Paterson, K. G. Beaty, M. Lyng and S. E. M. Kasian, “Eutrophication of Lakes cannot be Controlled by Reducing Nitrogen Input: Results of a 37-Year Whole-Ecosystem Experiment,” Proceedings of the National Academy of Sciences, Vol. 105, No. 32, 2008, pp. 11254-11258. doi:10.1073/pnas.0805108105

has been cited by the following article:

• TITLE: Reactive Stream Stabilization for Minimizing Transport of Phosphorus and Nitrogen from Agricultural Landscapes

  AUTHORS: Ji-Hee Son, Chester C. Watson, David S. Biedenharn, Kenneth H. Carlson

  KEYWORDS: Phosphorus, Non-Point Source Pollutant, Best Management Practice, Aluminum

  JOURNAL NAME: Journal of Water Resource and Protection, Vol.3 No.7, July 25, 2011

  ABSTRACT: A reactive stream stabilization (RS2) system based on aluminum as the adsorbent and garden mulch as the organic matter source was designed to minimize release of agricultural nonpoint source pollutants and installed along the bank of the Little Bogue Creek, MS in 2008. The scope of this research was to design, install and assess the performance of a field scale RS2 structure based on results from previous lab scale studies. Concentrations of alum and total organic carbon (TOC) in the RS2 test barrier and surrounding area were measured to evaluate design parameters of RS2 and the removal effectiveness was examined from soils and monitoring wells that were sampled in 2009. The mean concentration of Al from the reactive barrier was 2.1 mg/g and organic matter from the monitoring wells was 4.7 mg/L, values significantly greater than the surrounding area (p