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The use of wetlands in the Mississippi Delta for wastewater assimilation: a review

Authors :
L. Cardoch
Sam E. Feagley
J. Mistich
Andrew J. Englande
John W. Day
John M. Rybczyk
Enrique Reyes
Robert R. Lane
G. Berthelot
William H. Conner
Dugan Sabins
R. Bean
Robert R. Twilley
Jae-Young Ko
Christopher G. Brantley
Jason N. Day
Emily Hyfield
Joel Lindsey
Source :
Ocean & Coastal Management. 47:671-691
Publication Year :
2004
Publisher :
Elsevier BV, 2004.

Abstract

The use of wetlands for treatment of wastewaters has a number of important ecological and economic benefits. Adding nutrient rich treated wastewater effluent to selected coastal wetlands results in the following benefits: (1) improved effluent water quality; (2) increased accretion rates to help offset subsidence; (3) increased productivity of vegetation; and (4) financial and energy savings of capital not invested in conventional tertiary treatment systems. We present as case studies results from several wetlands that are receiving secondarily treated wastewater in coastal Louisiana. At one site where sedimentation accumulation was measured, rates of accretion increased significantly after wastewater application began in the treatment site (from 7.8 to 11.4 mm yr−1) and approached the estimated rate of regional relative sea level rise (RSLR) (12.0 mm yr−1). No corresponding increase was observed in an adjacent control site. This suggests that the application of nutrient-rich wastewater can help coastal wetlands survive sea level rise. In the same site, surface water nutrient reduction, from the effluent inflow to outflow (1600 m), ranged from 100% for nitrate-nitrogen (NO3-N) to 66% for total phosphorus (P). At a second site, a forested wetland that has been receiving wastewater effluent for 50 years, N and P were both reduced by more than 90%. Nutrient reduction is due to three main pathways: burial, denitrification and plant uptake. Dendrochronological analysis at the second site revealed that stem growth increased significantly in the treatment site after wastewater applications began, and was significantly greater than an adjacent control site. Similar increases in productivity have been measured in a number of wetland treatment sites. Economic analyses comparing conventional and wetland systems indicate savings range from $500,000 to $2.6 million. In addition there are substantial energy savings.

Details

ISSN :
09645691
Volume :
47
Database :
OpenAIRE
Journal :
Ocean & Coastal Management
Accession number :
edsair.doi...........63f31167c55c9df48ee1cf08a9c821ac