Development of Environmental Thresholds for Nitrogen and Phosphorus in Streams

Development of Environmental Thresholds for Nitrogen and Phosphorus in Streams

Inputs of nutrients (P and N) to freshwaters can cause excessive aquatic plant growth, depletion of oxygen, and deleterious changes in diversity of aquatic fauna. As part of a “National Agri‐Environmental Standards Initiative,” the Government of Canada committed to developing environmental threshold...

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Bibliographic Details
Published in:Journal of environmental quality Vol. 41; no. 1; pp. 7 - 20
Main Authors: Chambers, Patricia A., McGoldrick, Daryl J., Brua, Robert B., Vis, Chantal, Culp, Joseph M., Benoy, Glenn A.
Format: Journal Article
Language:English
Published: United States The American Society of Agronomy, Crop Science Society of America, and Soil Science Society of America, Inc 01-01-2012
American Society of Agronomy
Subjects:
Agricultural land
Agriculture
Aquatic animals
Aquatic ecosystems
Aquatic fauna
Aquatic plants
Chemistry
Climate change
Ecological conditions
Ecological studies
Ecosystem
Environmental economics
Environmental Monitoring - methods
Environmental Monitoring - standards
Eutrophication
Macroinvertebrates
Nitrogen - chemistry
Nutrient concentrations
Oxygen depletion
Phosphorus - chemistry
Plant growth
Prairies
Rivers - chemistry
Rural development
Water chemistry
Water Pollutants, Chemical - chemistry
Water Pollutants, Chemical - standards
Water quality
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Summary:Inputs of nutrients (P and N) to freshwaters can cause excessive aquatic plant growth, depletion of oxygen, and deleterious changes in diversity of aquatic fauna. As part of a “National Agri‐Environmental Standards Initiative,” the Government of Canada committed to developing environmental thresholds for nutrients to protect ecological condition of agricultural streams. Analysis of data from >200 long‐term monitoring stations across Canada and detailed ecological study at ∼70 sites showed that agricultural land cover was associated with increased nutrient concentrations in streams and this, in turn, was associated with increased sestonic and benthic algal abundance, loss of sensitive benthic macroinvertebrate taxa, and an increase in benthic diatom taxa indicative of eutrophication. Chemical thresholds for N and P were defined by applying five approaches, employing either a predetermined percentile to a water chemistry data set or a relationship between water chemistry and land cover, to identify boundaries between minimally disturbed and impaired conditions. Comparison of these chemical thresholds with biological thresholds (derived from stressor–response relationships) produced an approach for rationalizing these two types of thresholds and deriving nutrient criteria. The resulting criteria were 0.01 to 0.03 mg L−1 total P and 0.87–1.2 mg L−1 total N for the Atlantic Maritime, 0.02 mg L−1 total P and 0.21 mg L−1 total N for the Montane Cordillera, ∼0.03 mg L−1 total P and ∼1.1 mg L−1 total N for the Mixedwood Plains, and ∼0.10 mg L−1 total P and 0.39–0.98 mg L−1 total N for the interior prairies of Canada. Adoption of these criteria should result in greater likelihood of good ecological condition with respect to benthic algal abundance, diatom composition, and macroinvertebrate composition.
Bibliography:All rights reserved. No part of this periodical may be reproduced or transmitted in any form or by any means, electronic or mechanical, including photocopying, recording, or any information storage and retrieval system, without permission in writing from the publisher.
ObjectType-Article-1
SourceType-Scholarly Journals-1
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ISSN:0047-2425
1537-2537
DOI:10.2134/jeq2010.0273