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  5. Nutrient Load Apportionment to Support the Identification of Appropriate Water Framework Directive Measures
 
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Nutrient Load Apportionment to Support the Identification of Appropriate Water Framework Directive Measures

Author(s)
Mockler, Eva M.  
Deakin, Jenny  
Archbold, Marie A.  
Daly, Donal  
Bruen, Michael  
Uri
http://hdl.handle.net/10197/8444
Date Issued
2016
Date Available
2017-04-24T12:28:53Z
Abstract
A model for predicting the sources of nutrient loads (phosphorus and nitrogen) to water has been developed to support Water Framework Directive (WFD) implementation. This model integrates catchment data and pressure information to enable characterisation of Source-Pathway-Receptor relationships. The Source Load Apportionment Model (SLAM) is a flexible framework for incorporating national data and research to quantify nutrient losses from both point discharges (urban wastewater, industry and septic tank systems) and diffuse sources (pasture, arable, forestry, peatlands etc.). Hydrogeological controls have a strong impact on nutrient fluxes, particularly in agricultural catchments, and have been incorporated into the diffuse agricultural model, the Catchment Characterisation Tool (CCT). This paper describes the SLAM framework, including the CCT, along with the data inputs and assumptions. Results for the Suir catchment matched the measured loads of nitrogen and phosphorus well, and showed that pasture is the dominant source of nitrogen across all sub-catchments. The main sources of phosphorus in sub-catchments varied between diffuse agriculture, wastewater and industrial discharges. A relatively small proportion (13%) of the Suir catchment area requires a reduction in phosphorus emissions to achieve Good Status. In these areas, model results can be used in conjunction with knowledge from local authorities and investigative assessments gathered through the WFD characterisation process to identify significant pressures that contribute excessive nutrient loads. An example of assessing load reduction scenarios is presented to illustrate how modelling can support catchment scientists and managers in identifying appropriate measures. 
Sponsorship
Environmental Protection Agency
Type of Material
Journal Article
Publisher
Royal Irish Academy
Journal
Biology and Environment: Proceedings of the Royal Irish Academy
Volume
116B
Issue
3
Start Page
245
End Page
263
Copyright (Published Version)
2016 Royal Irish Academy
Subjects

Phosphorus

Nitrogen

Scenario Analysis

Nutrient load apporti...

Integrated catchment ...

Water framework direc...

DOI
10.3318/BIOE.2016.22
Language
English
Status of Item
Peer reviewed
This item is made available under a Creative Commons License
https://creativecommons.org/licenses/by-nc-nd/3.0/ie/
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Mockler_bioe.2016.22.pdf

Size

9.01 MB

Format

Adobe PDF

Checksum (MD5)

2ece2a21eefb3e87d87a23afdbcfa43b

Owning collection
Civil Engineering Research Collection
Mapped collections
Centre for Water Resources Research Collection•
Earth Institute Research Collection

Item descriptive metadata is released under a CC-0 (public domain) license: https://creativecommons.org/public-domain/cc0/.
All other content is subject to copyright.

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