N1.02 Jones 2017 ReNUWIt Annual Meeting Poster

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Abstract/Contents

Abstract: Most treatment wetlands are designed, maintained, and operated without consideration of the processes that result in attenuation of chemical contaminants. As a result, utilities often fail to exploit the full potential for treatment wetlands to serve as natural treatment barriers for chemical contaminants that can affect potable water supplies and sensitive aquatic habitats. This project will provide an understanding of the mechanisms through which chemical contaminants are removed that can be used to design, operate and maintain more effective wetland treatment systems.

Type of resource	other
Date created	May 2017

Subject	Re-inventing the Nation’s Urban Water Infrastructure
Subject	ReNUWIt
Subject	N1.02
Subject	Natural Water Infrastructure Systems
Subject	Unit process wetlands and riparian zones
Subject	California
Subject	Discovery Bay Treatment Wetlands
Subject	Prado Wetlands
Subject	activated sludge
Subject	anammox
Subject	bacteria
Subject	bacterial community
Subject	biodiversity
Subject	clofibric acid
Subject	communities
Subject	constructed wetlands
Subject	cryptosporidium
Subject	denitrification
Subject	flow constructed wetland
Subject	gen. nov.
Subject	indicator bacteria
Subject	microbial
Subject	microbial community
Subject	municipal wastewater
Subject	nitrification
Subject	nitrogen cycle
Subject	nitrogen removal
Subject	pathogens
Subject	personal care products
Subject	pharmaceuticals
Subject	polychlorinated biphenyls
Subject	singlet oxygen
Subject	subsurface flow
Subject	sunlight inactivation
Subject	surface water
Subject	systems
Subject	trace organic contaminants
Subject	wastewater
Subject	water treatment

Related Publication	Jasper, J. T., Jones, Z. L., Sharp, J. O., & Sedlak, D. L. (2014). Biotransformation of Trace Organic Contaminants in Open-Water Unit Process Treatment Wetlands. Environmental Science & Technology, 48(9), 5136-5144. http://doi.org/10.1021/es500351e
Related Publication	Jasper, J. T., Jones, Z. L., Sharp, J. O., & Sedlak, D. L. (2014). Nitrate Removal in Shallow, Open-Water Treatment Wetlands. Environmental Science & Technology, 48(19), 11512-11520. http://doi.org/10.1021/es502785t
Related Publication	Jones, Z. L., Jasper, J. T., Sedlak, D. L., & Sharp, J. O. (2017). Sulfide-Induced Dissimilatory Nitrate Reduction to Ammonium Supports Anaerobic Ammonium Oxidation (Anammox) in an Open-Water Unit Process Wetland. Applied and Environmental Microbiology, 83(15). http://doi.org/UNSP e00782-17
Related Publication	Jones, Z. L., Mikkelson, K. M., Nygren, S., Sedlak, D. L., & Sharp, J. O. (2018). Establishment and convergence of photosynthetic microbial biomats in shallow unit process open-water wetlands. Water Research, 133, 132-141. http://doi.org/10.1016/j.watres.2018.01.021
Related Publication	Jasper, J. T., Nguyen, M. T., Jones, Z. L., Ismail, N. S., Sedlak, D. L., Sharp, J. O., . . . Nelson, K. L. (2013). Unit Process Wetlands for Removal of Trace Organic Contaminants and Pathogens from Municipal Wastewater Effluents. Environmental Engineering Science, 30(8), 421-436. http://doi.org/10.1089/ees.2012.0239
Location	https://purl.stanford.edu/xg540jn1475

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Preferred Citation: Jones, Z. L., Mikkelson, K. M., Bear, S. E., Lundeen, E., Sedlak, D. L., & Sharp, J. O. (2017). N1.02 Jones 2017 ReNUWIt Annual Meeting Poster. Stanford Digital Repository. Available at: https://purl.stanford.edu/xg540jn1475

Re-inventing the Nation's Urban Water Infrastructure (ReNUWIt)

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