SWAT Literature Database | Record-setting algal bloom in Lake Erie caused by agricultural and meteorological trends consistent with expected future conditions

Title:	Record-setting algal bloom in Lake Erie caused by agricultural and meteorological trends consistent with expected future conditions
Authors:	Michalak, A.M., E.J. Anderson, D. Beletsky, S. Boland, N.S. Bosch, T.B. Bridgeman, J.D. Chaffin, K. Cho, R. Confesor, I. Daloglu, J.V. DePinto, M.A. Evans, G.L. Fahnenstiel, L. He, J. Ho, L. Jenkins, T.H. Johengen, K. Kuo, E. LaPorte, X. Liu, M.R. McWilliams, M.R. Moore, D.J. Posselt, R.P. Richards, D. Scavia, A.L. Steiner, E. Verhamme, D.M. Wright and M.A. Zagorski
Year:	2013
Journal:	Proceedings of the National Academy of Sciences
Volume (Issue):	110(16)
Pages:	6448-6452
Article ID:
DOI:	10.1073/pnas.1216006110
URL (non-DOI journals):
Model:	SWAT
Broad Application Category:	pollutant only
Primary Application Category:	phosphorus cycling/loss and transport
Secondary Application Category:	BMP and/or cropping system assessment
Watershed Description:	Maumee River, which is a portion of the overall drainage to the western part of Lake Erie in northwest Ohio, U.S.
Calibration Summary:
Validation Summary:
General Comments:	SWAT simulations are briefly mentioned on page 6450 in the article and are described in more detail in the accompanying supporting documentation.
Language:	English
Keywords:	extreme precipitation events, climate change, aquatic ecology, Microcystis sp., Anabaena sp.

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