Metadata

Field Value

Title

Hydrological forcing of a recent trophic surge in Lake Winnipeg

Abstract

Publication general type

journal article

Project Name

['2f8c057e-a1df-4ff8-8a76-744212ea379a']

Keyword Vocabulary

Polar Data Catalogue

Keyword Vocabulary URL

https://www.polardata.ca/pdcinput/public/keywordlibrary

Theme

Version

1.0

Publisher

Journal of Great Lakes Research

Date Published

2012

DOI

10.1016/j.jglr.2011.12.012

Authors

Authors 1

Author Name

McCullough, Greg

Type of Name

Personal

Email

greg.mccullough@gmail.com

Affiliation

Centre for Earth Observation Science - University of Manitoba

ORCID ID

Authors 2

Author Name

Page, Stephan J.

Type of Name

Personal

Email

Stephen.Page@dfo-mpo.gc.ca

Affiliation

Fisheries and Oceans Canada

ORCID ID

Authors 3

Author Name

Hesslein, Raymond H.

Type of Name

Personal

Email

hesslein@mymts.net

Affiliation

Freshwater Institute - Fisheries and Oceans Canada

ORCID ID

Authors 4

Author Name

Stainton, Michael P.

Type of Name

Personal

Email

Affiliation

Freshwater Institute - Fisheries and Oceans Canada

ORCID ID

Authors 5

Author Name

Kling, Hedy J.

Type of Name

Personal

Email

hedy.kling8@gmail.com

Affiliation

Algal Taxonomy and Ecology Inc.

ORCID ID

Authors 6

Author Name

Salki, Alex G.

Type of Name

Personal

Email

Affiliation

Freshwater Institute - Fisheries and Oceans Canada

ORCID ID

Authors 7

Author Name

Barber, David G.

Type of Name

Personal

Email

david.barber@umanitoba.ca

Affiliation

Centre for Earth Observation Science - University of Manitoba

ORCID ID

License Name

Other (Not Open)

Licence Type

Restricted

other-closed

Licence Schema Name

SPDX

Licence URL

https://spdx.org/licenses

Awards

Related Resources

Language

English

Data and Resources

Field Value

URL

https://www.sciencedirect.com/science/article/abs/pii/S0380133011002656?via%3Dihub

Name

Hydrological forcing of a recent trophic surge in Lake Winnipeg

Description

Nutrient enrichment leading to eutrophication of lakes is frequently attributed to increasing anthropogenic loading to the watershed. We use a phosphorus mass balance model to demonstrate that a discharge increase in a major tributary contributed more than increased anthropogenic loading to a recent sudden doubling of total phosphorus (TP) and a shift to a cyanobacteria-dominated plankton population in Lake Winnipeg. Runoff from the Red River watershed rose abruptly during the mid-1990s. The decadal mean discharge has since been more than 50% higher than for any previous decade in the century-long record. Widespread spring flooding has become common. TP concentration roughly doubles during floods, magnifying the effect of higher runoff on downstream phosphorus loading. Concentrations of both dissolved and particulate phases are raised by flooding. Over 90% of dissolved phosphorus downstream of flooded farm land in one tributary was in the form of highly bio-available orthophosphate. From 1994 to 1999, TP in the lake rose from less than 30 to more than 50 mg m− 3. It has since remained over 50% higher than before the mid-1990s. We use the phosphorus model to demonstrate that the change in Red River discharge alone would have caused a sustained 32% increase compared to when phosphorus was first routinely monitored in the 1970s, while direct increases in the rate of anthropogenic loading alone would have caused only a 14% increase. It required both increased loading to the land and higher runoff to produce the observed increase in TP in the lake.

Format

HTML

Resource Category

documents