E
Edward S. Rutherford
Researcher at National Oceanic and Atmospheric Administration
Publications - 39
Citations - 1798
Edward S. Rutherford is an academic researcher from National Oceanic and Atmospheric Administration. The author has contributed to research in topics: Silver carp & Trophic level. The author has an hindex of 16, co-authored 39 publications receiving 1455 citations. Previous affiliations of Edward S. Rutherford include Altarum Institute & Great Lakes Environmental Research Laboratory.
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Journal ArticleDOI
Assessing and addressing the re-eutrophication of Lake Erie: Central basin hypoxia
Donald Scavia,J. David Allan,Kristin K. Arend,Steven M. Bartell,Dmitry Beletsky,Nate S. Bosch,Stephen B. Brandt,Ruth D. Briland,Irem Daloğlu,Joseph V. DePinto,David M. Dolan,Mary Anne Evans,Troy M. Farmer,Daisuke Goto,Haejin Han,Tomas O. Höök,Roger L. Knight,Stuart A. Ludsin,Doran M. Mason,Anna M. Michalak,R. Peter Richards,James J. Roberts,Daniel K. Rucinski,Edward S. Rutherford,David J. Schwab,Timothy M. Sesterhenn,Hongyan Zhang,Yuntao Zhou,Yuntao Zhou +28 more
TL;DR: In this paper, recent trends in key eutrophication-related properties, assess their likely ecological impacts, and develop load response curves to guide revised hypoxia-based loading targets called for in the 2012 Great Lakes Water Quality Agreement.
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Joint analysis of stressors and ecosystem services to enhance restoration effectiveness
J. David Allan,Peter B. McIntyre,Sigrid D. P. Smith,Benjamin S. Halpern,Gregory L. Boyer,Andy Buchsbaum,G. A. Burton,G. A. Burton,Linda M. Campbell,W. Lindsay Chadderton,Jan J. H. Ciborowski,Patrick J. Doran,Tim Eder,Dana M. Infante,Lucinda B. Johnson,Christine A. Joseph,Adrienne L. Marino,Alexander A. Prusevich,Jennifer Read,Joan B. Rose,Edward S. Rutherford,Scott P. Sowa,Alan D. Steinman +22 more
TL;DR: Joint spatial analysis of stressors and ecosystem services can provide a critical foundation for maximizing social and ecological benefits from restoration investments and find that many important areas for fisheries and recreation are subject to high stress, indicating that ecosystem degradation could be threatening key services.
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Risk Analysis and Bioeconomics of Invasive Species to Inform Policy and Management
David M. Lodge,David M. Lodge,Paul W. Simonin,Stanley W. Burgiel,Reuben P. Keller,Jonathan M. Bossenbroek,Christopher L. Jerde,Andrew M. Kramer,Edward S. Rutherford,Matthew A. Barnes,Marion E. Wittmann,W. Lindsay Chadderton,Jenny L. Apriesnig,Dmitry Beletsky,Roger M. Cooke,John M. Drake,Scott P. Egan,David Finnoff,Crysta A. Gantz,Erin K. Grey,Michael H. Hoff,Jennifer G. Howeth,Richard Jensen,Eric Larson,Nicholas E. Mandrak,Doran M. Mason,Felix A. Martinez,Tammy J. Newcomb,John D. Rothlisberger,Andrew Tucker,Travis Warziniack,Hongyan Zhang +31 more
TL;DR: Improvements have come from species-specific trait-based risk assessments, of estimates of introduction, establishment, spread, and impact probabilities, especially from pathways of commerce in living organisms, and spatially explicit dispersal models.
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Using cultural ecosystem services to inform restoration priorities in the Laurentian Great Lakes
J. David Allan,Sigrid D. P. Smith,Peter B. McIntyre,Christine A. Joseph,Caitlin E. Dickinson,Adrienne L. Marino,Reuben G. Biel,James C Olson,Patrick J. Doran,Edward S. Rutherford,Jeffrey E Adkins,Adesola O Adeyemo +11 more
TL;DR: In this paper, the spatial distribution of five recreational elements of cultural ecosystem services (CES) (e.g., sport fishing, recreational boating, birding, beach use, and park visitation) across North America's Laurentian Great Lakes, where current restoration investments exceed US$1.5 billion.
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Fine-scale spatial variation in ice cover and surface temperature trends across the surface of the Laurentian Great Lakes
Lacey A. Mason,Lacey A. Mason,Catherine M. Riseng,Andrew D. Gronewold,Edward S. Rutherford,Jia Wang,Anne H. Clites,Sigrid D. P. Smith,Peter B. McIntyre +8 more
TL;DR: In this article, seasonal ice cover duration (1973-2013) and lake summer surface water temperatures (LSSWT; 1994-2013), and analyzed spatial patterns and trends at lake-wide, lake sub-basin, and fine spatial scales and compared those to reported lake- and basin-wide trends.