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Development of ecological indicators for the U.S. Great Lakes coastal region – A summary of applications in Lake Huron

Niemi, Gerald J. ; Brady, Valerie J. ; Brown, Terry N. ; [et al.]

Michigan State University Press ; 2009

In: Aquatic Ecosystem Health & Management Vol. 12, No. 1 ( 2009-03-09), p. 77-89

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In: Aquatic Ecosystem Health & Management, Michigan State University Press, Vol. 12, No. 1 ( 2009-03-09), p. 77-89

Abstract: Our overall goal was to develop indicators that both estimate ecological condition and suggest plausible causes of ecosystem degradation across the U.S. Great Lakes coastal region. Here we summarize data gathered along the U.S. Lake Huron coastline for breeding bird, diatom, fish, invertebrate, and wetland plant communities. We sampled these biotic communities on 88 sites in Lake Huron coastal wetlands, uplands, estuaries/bays, and high-energy shorelines. The sites were selected as part of a larger, stratified random design for the entire U.S. Great Lakes coastal region using gradients of anthropogenic stress that incorporated over 200 stressor variables (e.g. agriculture, land cover, human populations, and point source pollution). The U.S. Lake Huron coastal region exemplified wide variation in human-related stress relative to the entire U.S. Great Lakes coast. In general, levels of stress decreased from south to north partly reflecting the change in climate and physiography, but also due to the greater human influences in the southern region as compared with the north. The primary stressors in the southern region are due to agriculture and human development, while the northern region has substantially less agriculture and less human population. The biotic communities sampled were strongly related to the environmental stress gradients, especially agriculture and urbanization. The following indicators were developed based on responses to stress: 1) an index of biological condition for breeding bird communities corresponding to land use, 2) a diatom-inferred total phosphorus indicator corresponding to water quality, 3) exotic fish (carp [Cyprinus carpio] and goldfish [Carassius auratus] ) corresponding to agriculture, and 4) a multi-taxa index for wetland plants corresponding to a cumulative stress index. These communities can all serve as useful indicators of the ecological condition of the Lake Huron coast. The ecological indicators provide a baseline on selected conditions for the U.S. Lake Huron coastal region and a means to detect change over time.

Type of Medium: Online Resource

ISSN: 1463-4988 , 1539-4077

URL: Article

DOI: 10.1080/14634980802711943

Language: English

Publisher: Michigan State University Press

Publication Date: 2009

detail.hit.zdb_id: 2014970-0

SSG: 12

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High-resolution assessment and visualization of environmental stressors in the Lake Superior basin

Host, George E. ; Brown, Terry N. ; Hollenhorst, Tom P. ; [et al.]

Michigan State University Press ; 2011

In: Aquatic Ecosystem Health & Management Vol. 14, No. 4 ( 2011-10-01), p. 376-385

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In: Aquatic Ecosystem Health & Management, Michigan State University Press, Vol. 14, No. 4 ( 2011-10-01), p. 376-385

Abstract: Quantifying gradients of anthropogenic stress can inform the development of sample designs, provide an important covariate in modeling relationships of response variables, identify reference and highly-disturbed sites, and provide a baseline and guidance to restoration and remediation efforts. We describe development of SumRel, a composite index of anthropogenic stress, for the U.S. and Canadian Lake Superior basin. Key elements of the project include development of high-resolution watersheds throughout the basin, summarization of the major point and non-point stressors within these watersheds, and creation of tools for scaling the watersheds and stressor summaries. SumRel was calculated at two spatial scales: for high resolution subcatchments within the Lake Superior basin (mean watershed area = 93 ha) and for coastal watersheds of Lake Superior. An assessment of subcatchments within Minnesota's St. Louis River watershed showed a correlation between the degree of disturbance, as indicated by SumRel, and impaired water quality, as evidenced by in-stream conductivity. These data and tools allow identification and visualization of reference and highly-disturbed sites at multiple spatial scales, providing decision support for individual agency and binational monitoring, assessment and restoration initiatives across the Lake Superior basin.

Type of Medium: Online Resource

ISSN: 1463-4988 , 1539-4077

URL: Article

DOI: 10.1080/14634988.2011.625340

Language: English

Publisher: Michigan State University Press

Publication Date: 2011

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An integrated approach to assessing multiple stressors for coastal Lake Superior

Niemi, Gerald J. ; Reavie, Euan D. ; Peterson, Gregory S. ; [et al.]

Michigan State University Press ; 2011

In: Aquatic Ecosystem Health & Management Vol. 14, No. 4 ( 2011-10-01), p. 356-375

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In: Aquatic Ecosystem Health & Management, Michigan State University Press, Vol. 14, No. 4 ( 2011-10-01), p. 356-375

Abstract: Biological indicators can be used both to estimate ecological condition and to suggest plausible causes of ecosystem degradation across the U.S. Great Lakes coastal region. Here we use data on breeding bird, diatom, fish, invertebrate, and wetland plant communities to develop robust indicators of ecological condition of the U.S. Lake Superior coastal zone. Sites were selected as part of a larger, stratified random design for the entire U.S. Great Lakes coastal region, covering gradients of anthropogenic stress defined by over 200 stressor variables (e.g. agriculture, altered land cover, human populations, and point source pollution). A total of 89 locations in Lake Superior were sampled between 2001 and 2004 including 31 sites for stable isotope analysis of benthic macroinvertebrates, 62 sites for birds, 35 for diatoms, 32 for fish and macroinvertebrates, and 26 for wetland vegetation. A relationship between watershed disturbance metrics and 15N levels in coastal macroinvertebrates confirmed that watershed-based stressor gradients are expressed across Lake Superior's coastal ecosystems, increasing confidence in ascribing causes of biological responses to some landscape activities. Several landscape metrics in particular—agriculture, urbanization, human population density, and road density—strongly influenced the responses of indicator species assemblages. Conditions were generally good in Lake Superior, but in some areas watershed stressors produced degraded conditions that were similar to those in the southern and eastern U.S. Great Lakes. The following indicators were developed based on biotic responses to stress in Lake Superior in the context of all the Great Lakes: (1) an index of ecological condition for breeding bird communities, (2) diatom-based nutrient and solids indicators, (3) fish and macroinvertebrate indicators for coastal wetlands, and (4) a non-metric multidimensional scaling for wetland plants corresponding to a cumulative stress index. These biotic measures serve as useful indicators of the ecological condition of the Lake Superior coast; collectively, they provide a baseline assessment of selected biological conditions for the U.S. Lake Superior coastal region and prescribe a means to detect change over time.

Type of Medium: Online Resource

ISSN: 1463-4988 , 1539-4077

URL: Article

DOI: 10.1080/14634988.2011.628254

Language: English

Publisher: Michigan State University Press

Publication Date: 2011

detail.hit.zdb_id: 2014970-0

SSG: 12

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