Ronald R. Regal scite author profile

Integrated, quantitative expressions of anthropogenic stress over large geographic regions can be valuable tools in environmental research and management. Despite the fundamental appeal of a regional approach, development of regional stress measures remains one of the most important current challenges in environmental science. Using publicly available, pre-existing spatial datasets, we developed a geographic information system database of 86 variables related to five classes of anthropogenic stress in the U.S. Great Lakes basin: agriculture, atmospheric deposition, human population, land cover, and point source pollution. The original variables were quantified by a variety of data types over a broad range of spatial and classification resolutions. We summarized the original data for 762 watershed-based units that comprise the U.S. portion of the basin and then used principal components analysis to develop overall stress measures within each stress category. We developed a cumulative stress index by combining the first principal component from each of the five stress categories. Maps of the stress measures illustrate strong spatial patterns across the basin, with the greatest amount of stress occurring on the western shore of Lake Michigan, southwest Lake Erie, and southeastern Lake Ontario. We found strong relationships between the stress measures and characteristics of bird communities, fish communities, and water chemistry measurements from the coastal region. The stress measures are taken to represent the major threats to coastal ecosystems in the U.S. Great Lakes. Such regional-scale efforts are critical for understanding relationships between human disturbance and ecosystem response, and can be used to guide environmental decision-making at both regional and local scales.

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Correlation of Symptoms with Vitamin D Deficiency and Symptom Response to Cholecalciferol Treatment: a Randomized Controlled Trial

Arvold¹,

Odean

Dornfeld

et al. 2009

Endocrine Practice

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Environmentally stratified sampling design for the development of Great Lakes environmental indicators

Danz

Regal

Niemi

et al. 2005

Environ Monit Assess

102

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Understanding the relationship between human disturbance and ecological response is essential to the process of indicator development. For large-scale observational studies, sites should be selected across gradients of anthropogenic stress, but such gradients are often unknown for apopulation of sites prior to site selection. Stress data available from public sources can be used in a geographic information system (GIS) to partially characterize environmental conditions for large geographic areas without visiting the sites. We divided the U.S. Great Lakes coastal region into 762 units consisting of a shoreline reach and drainage-shed and then summarized over 200 environmental variables in seven categories for the units using a GIS. Redundancy within the categories of environmental variables was reduced using principal components analysis. Environmental strata were generated from cluster analysis using principal component scores as input. To protect against site selection bias, sites were selected in random order from clusters. The site selection process allowed us to exclude sites that were inaccessible and was shown to successfully distribute sites across the range of environmental variation in our GIS data. This design has broad applicability when the goal is to develop ecological indicators using observational data from large-scale surveys.

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Properties and performance of the Floristic Quality Index in Great Lakes coastal wetlands

2006

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Ronald R. Regal

Capture-Recapture Methods in Epidemiology: Methods and Limitations

Integrated Measures of Anthropogenic Stress in the U.S. Great Lakes Basin

Correlation of Symptoms with Vitamin D Deficiency and Symptom Response to Cholecalciferol Treatment: a Randomized Controlled Trial

Environmentally stratified sampling design for the development of Great Lakes environmental indicators

Properties and performance of the Floristic Quality Index in Great Lakes coastal wetlands

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